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OII collisional data:
Transition probabilities from Zeippen (1982MNRAS.198..111Z) and collision strengths from Pradhan (1976MNRAS.177...31P).
SIII collisional data:
Transition probabilities from Mendoza and Zeippen (1982MNRAS.199.1025M) and collision strengths from Mendoza (1983IAUS..103..143M).
All other collisional data:
CHIANTI 7.0 (Landi et al., 2012; ApJS, 744, 99)
Recombination data:
H+ : Storey & Hummer (1995MNRAS.272...41S)
He+ : Smits (1996MNRAS.278..683S)
Porter (2012MNRAS.425L..28P,2013MNRAS.433L..89P)
He2+ : Storey & Hummer (1995MNRAS.272...41S)
C2+ : Davey et al. (2000AAS..142...85D)
C3+ : Pequignot et al. (1991AA...251..680P)
N2+ : Escalante & Victor (1990ApJS...73..513E)
N3+ : Pequignot et al. (1991AA...251..680P)
O2+ (3s--3p) : Storey et al. (1994AA...282..999S)
O2+ (3p--3d, 3d--4f) : Liu et al. (1995MNRAS.272..369L)
Ne2+ (3s--3p) : Kisielius et al. (1998AAS..133..257K)
Ne2+ (3d-4f) : Storey (unpublished)
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/RHei_porter2012.dat���������������������������������������������������������0000664�0000000�0000000�00000401244�12714613141�0020447�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������5000 1 -25.37954 -25.05897 -25.94844 -24.65182 -25.63766 -25.27103 -26.47802 -25.84331 -26.83337 -24.93382 -26.05328 -25.49808 -25.22844 -26.44817 -24.45526 -24.99784 -25.37430 -25.87764 -26.63685 -24.31124 -27.04632 -26.26733 -26.55348 -27.97048 -25.68883 -26.16622 -27.18401 -26.74110 -27.09310 -27.51482 -26.91208 -26.08431 -27.67811 -25.28968 -25.76754 -26.53255 -26.78774 -27.71811 -25.13088 -27.36806 -26.86958 -27.23860 -26.77585 -27.25261
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13000 2 -25.64416 -25.32669 -26.24136 -24.93252 -25.93350 -25.64436 -26.64991 -26.22135 -27.04534 -25.32587 -26.23949 -25.89556 -25.53695 -26.66705 -24.89431 -25.44206 -25.57767 -26.11043 -26.90147 -24.53079 -27.33923 -26.64067 -26.82120 -28.26339 -26.16194 -26.63703 -27.35590 -27.11914 -27.35773 -27.72679 -27.20792 -26.47636 -27.97394 -25.79886 -26.27064 -26.93003 -27.05546 -27.98284 -25.47947 -27.72958 -27.05579 -27.45748 -27.22057 -27.69385
14000 2 -25.66594 -25.34852 -26.26560 -24.95499 -25.95794 -25.67558 -26.66196 -26.25288 -27.06134 -25.35806 -26.25254 -25.92817 -25.56214 -26.68357 -24.92842 -25.47648 -25.59195 -26.12812 -26.92325 -24.54650 -27.36348 -26.67189 -26.84303 -28.28764 -26.20028 -26.67455 -27.36796 -27.15067 -27.37950 -27.74279 -27.23236 -26.50855 -27.99839 -25.83840 -26.30806 -26.96264 -27.07728 -28.00473 -25.50691 -27.76006 -27.06884 -27.47400 -27.25748 -27.72954
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23000 2 -25.81674 -25.49930 -26.43302 -25.10930 -26.12679 -25.89092 -26.74069 -26.46998 -27.16845 -25.57725 -26.33817 -26.15007 -25.73530 -26.79438 -25.15119 -25.69958 -25.68875 -26.24858 -27.07405 -24.65311 -27.53089 -26.88723 -26.99381 -28.45505 -26.45833 -26.92141 -27.44669 -27.36777 -27.53031 -27.84990 -27.40121 -26.72774 -28.16724 -26.09558 -26.53651 -27.18454 -27.22806 -28.15622 -25.69190 -27.97165 -27.15446 -27.58481 -27.50987 -27.96543
24000 2 -25.83013 -25.51267 -26.44784 -25.12294 -26.14174 -25.90982 -26.74750 -26.48903 -27.17779 -25.59625 -26.34562 -26.16933 -25.75056 -26.80407 -25.16972 -25.71800 -25.69740 -26.25924 -27.08744 -24.66277 -27.54571 -26.90613 -27.00718 -28.46987 -26.48040 -26.94201 -27.45349 -27.38682 -27.54370 -27.85924 -27.41616 -26.74674 -28.18219 -26.11677 -26.55401 -27.20380 -27.24143 -28.16963 -25.70791 -27.99035 -27.16191 -27.59450 -27.53180 -27.98519
25000 2 -25.84305 -25.52557 -26.46213 -25.13611 -26.15616 -25.92802 -26.75407 -26.50737 -27.18680 -25.61452 -26.35282 -26.18784 -25.76529 -26.81342 -25.18743 -25.73556 -25.70580 -26.26952 -27.10036 -24.67227 -27.56000 -26.92433 -27.02008 -28.48416 -26.50154 -26.96166 -27.46007 -27.40516 -27.55662 -27.86825 -27.43058 -26.76501 -28.19661 -26.13695 -26.57050 -27.22231 -27.25433 -28.18255 -25.72329 -28.00836 -27.16911 -27.60386 -27.55287 -28.00406
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6000 3 -25.42454 -25.10460 -25.99773 -24.69914 -25.68779 -25.33639 -26.51011 -25.90917 -26.87144 -25.00408 -26.08668 -25.56912 -25.28143 -26.48673 -24.54018 -25.08409 -25.39453 -25.91415 -26.68185 -24.17144 -27.09560 -26.33270 -26.59911 -28.01976 -25.77758 -26.25501 -27.21611 -26.80696 -27.13811 -27.55289 -26.96221 -26.15457 -27.72823 -25.39390 -25.87173 -26.60359 -26.83336 -27.76317 -25.17107 -27.43052 -26.90298 -27.27716 -26.85548 -27.33198
7000 3 -25.46620 -25.14625 -26.04359 -24.74138 -25.73407 -25.39446 -26.53654 -25.96788 -26.90493 -25.06511 -26.11425 -25.63090 -25.32935 -26.52056 -24.60779 -25.15278 -25.41255 -25.94646 -26.72351 -24.15474 -27.14146 -26.39076 -26.64076 -28.06562 -25.85127 -26.32829 -27.24253 -26.86567 -27.17977 -27.58637 -27.00849 -26.21560 -27.77452 -25.47294 -25.94979 -26.66537 -26.87501 -27.80495 -25.21659 -27.48665 -26.93054 -27.31099 -26.92463 -27.40049
8000 3 -25.50236 -25.18192 -26.08340 -24.77661 -25.77424 -25.44557 -26.55666 -26.01939 -26.93238 -25.11843 -26.13470 -25.68478 -25.37058 -26.54786 -24.66531 -25.21135 -25.42142 -25.97119 -26.75967 -24.14051 -27.18128 -26.44188 -26.67643 -28.10544 -25.91573 -26.39185 -27.26265 -26.91718 -27.21593 -27.61383 -27.04866 -26.26892 -27.81469 -25.54118 -26.01598 -26.71924 -26.91069 -27.84143 -25.25441 -27.53618 -26.95100 -27.33829 -26.98557 -27.46002
9000 3 -25.53409 -25.21281 -26.11825 -24.80634 -25.80939 -25.49106 -26.57162 -26.06499 -26.95490 -25.16546 -26.14946 -25.73212 -25.40635 -26.56987 -24.71436 -25.26129 -25.42466 -25.99026 -26.79140 -24.13024 -27.21612 -26.48736 -26.70732 -28.14028 -25.97263 -26.44720 -27.27761 -26.96278 -27.24765 -27.63635 -27.08381 -26.31595 -27.84984 -25.60037 -26.07161 -26.76658 -26.94158 -27.87368 -25.28646 -27.58035 -26.96576 -27.36031 -27.03982 -27.51186
10000 3 -25.56218 -25.23984 -26.14890 -24.83174 -25.84035 -25.53185 -26.58250 -26.10558 -26.97342 -25.20720 -26.15986 -25.77390 -25.43760 -26.58769 -24.75621 -25.30371 -25.42497 -26.00520 -26.81949 -24.12392 -27.24677 -26.52815 -26.73435 -28.17093 -26.02313 -26.49538 -27.28849 -27.00337 -27.27575 -27.65487 -27.11477 -26.35769 -27.88080 -25.65176 -26.11768 -26.80837 -26.96860 -27.90246 -25.31404 -27.62003 -26.97616 -27.37813 -27.08845 -27.55690
11000 3 -25.58724 -25.26362 -26.17601 -24.85375 -25.86779 -25.56857 -26.59017 -26.14187 -26.98873 -25.24428 -26.16689 -25.81089 -25.46519 -26.60232 -24.79145 -25.33955 -25.42311 -26.01761 -26.84455 -24.11107 -27.27389 -26.56487 -26.75813 -28.19804 -26.06805 -26.53720 -27.29617 -27.03966 -27.30081 -27.67018 -27.14221 -26.39477 -27.90824 -25.69622 -26.15500 -26.84536 -26.99238 -27.92831 -25.33873 -27.65587 -26.98319 -27.39275 -27.13223 -27.59585
12000 3 -25.60977 -25.28482 -26.20010 -24.87313 -25.89225 -25.60183 -26.59561 -26.17447 -27.00158 -25.27742 -26.17169 -25.84377 -25.48969 -26.61450 -24.82132 -25.36969 -25.42101 -26.02815 -26.86708 -24.10243 -27.29798 -26.59814 -26.77933 -28.22214 -26.10815 -26.57341 -27.30160 -27.07226 -27.32333 -27.68303 -27.16667 -26.42791 -27.93270 -25.73464 -26.18462 -26.87823 -27.01359 -27.95168 -25.36059 -27.68842 -26.98799 -27.40494 -27.17182 -27.62943
13000 3 -25.63018 -25.30395 -26.22166 -24.89049 -25.91420 -25.63211 -26.59953 -26.20389 -27.01254 -25.30716 -26.17504 -25.87309 -25.51162 -26.62491 -24.84670 -25.39499 -25.41936 -26.03746 -26.88749 -24.09730 -27.31953 -26.62842 -26.79846 -28.24369 -26.14404 -26.60475 -27.30552 -27.10168 -27.34375 -27.69398 -27.18862 -26.45765 -27.95465 -25.76779 -26.20764 -26.90756 -27.03272 -27.97295 -25.38017 -27.71812 -26.99134 -27.41535 -27.20776 -27.65834
14000 3 -25.64883 -25.32141 -26.24107 -24.90629 -25.93404 -25.65980 -26.60251 -26.23056 -27.02210 -25.33397 -26.17756 -25.89938 -25.53144 -26.63406 -24.86838 -25.41623 -25.41852 -26.04601 -26.90614 -24.09505 -27.33895 -26.65611 -26.81592 -28.26311 -26.17626 -26.63187 -27.30851 -27.12835 -27.36239 -27.70354 -27.20846 -26.48446 -27.97449 -25.79641 -26.22517 -26.93384 -27.05017 -27.99241 -25.39789 -27.74535 -26.99386 -27.42449 -27.24050 -27.68320
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17000 3 -25.69685 -25.36671 -26.28975 -24.94750 -25.98414 -25.73061 -26.60954 -26.29778 -27.04584 -25.40089 -26.18375 -25.96423 -25.58159 -26.65725 -24.91771 -25.46240 -25.42194 -26.06970 -26.95416 -24.10090 -27.38763 -26.72692 -26.86122 -28.31179 -26.25555 -26.69389 -27.31553 -27.19557 -27.41041 -27.72728 -27.25856 -26.55138 -28.02459 -25.86151 -26.25506 -26.99870 -27.09547 -28.04240 -25.44312 -27.81527 -27.00005 -27.44768 -27.32335 -27.73948
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22000 3 -25.76028 -25.42678 -26.35198 -25.00445 -26.04896 -25.81955 -26.61997 -26.38200 -27.07895 -25.48138 -26.19621 -26.04287 -25.64731 -26.69113 -24.96771 -25.50806 -25.43674 -26.10905 -27.01759 -24.11495 -27.44986 -26.81585 -26.92129 -28.37402 -26.34886 -26.75844 -27.32596 -27.27979 -27.47385 -27.76040 -27.32338 -26.63187 -28.08941 -25.92781 -26.26955 -27.07734 -27.15554 -28.10707 -25.50571 -27.90510 -27.01251 -27.48157 -27.42613 -27.79702
23000 3 -25.77144 -25.43749 -26.36279 -25.01492 -26.06027 -25.83448 -26.62266 -26.39622 -27.08535 -25.49464 -26.19953 -26.05594 -25.65887 -26.69783 -24.97558 -25.51507 -25.44124 -26.11708 -27.02875 -24.12002 -27.46067 -26.83079 -26.93200 -28.38482 -26.36386 -26.76822 -27.32865 -27.29401 -27.48501 -27.76680 -27.33469 -26.64513 -28.10071 -25.93769 -26.27087 -27.09041 -27.16625 -28.11818 -25.51692 -27.92040 -27.01583 -27.48826 -27.44315 -27.80572
24000 3 -25.78224 -25.44792 -26.37323 -25.02520 -26.07119 -25.84873 -26.62560 -26.40981 -27.09174 -25.50727 -26.20313 -26.06842 -25.67004 -26.70453 -24.98312 -25.52173 -25.44619 -26.12514 -27.03955 -24.12574 -27.47110 -26.84504 -26.94243 -28.39526 -26.37802 -26.77739 -27.33160 -27.30760 -27.49580 -27.77319 -27.34561 -26.65776 -28.11163 -25.94691 -26.27213 -27.10288 -27.17668 -28.12884 -25.52779 -27.93503 -27.01943 -27.49497 -27.45930 -27.81389
25000 3 -25.79272 -25.45810 -26.38335 -25.03530 -26.08177 -25.86238 -26.62879 -26.42286 -27.09813 -25.51935 -26.20698 -26.08037 -25.68091 -26.71126 -24.99042 -25.52813 -25.45151 -26.13322 -27.05003 -24.13202 -27.48122 -26.85869 -26.95261 -28.40538 -26.39145 -26.78607 -27.33478 -27.32066 -27.50628 -27.77958 -27.35619 -26.66984 -28.12222 -25.95560 -26.27342 -27.11483 -27.18686 -28.13910 -25.53836 -27.94907 -27.02328 -27.50169 -27.47468 -27.82165
5000 4 -25.37040 -25.04964 -25.93827 -24.64011 -25.62799 -25.26542 -26.47184 -25.83687 -26.82631 -24.92962 -26.04422 -25.49340 -25.21911 -26.43946 -24.45738 -25.00071 -25.33025 -25.85943 -26.62771 -23.85539 -27.03614 -26.26172 -26.54414 -27.96030 -25.69019 -26.16767 -27.17783 -26.73466 -27.08396 -27.50776 -26.90241 -26.08011 -27.66844 -25.30194 -25.78020 -26.52787 -26.77840 -27.70931 -25.05307 -27.36177 -26.86052 -27.22989 -26.77245 -27.24878
6000 4 -25.41943 -25.09798 -25.99202 -24.68667 -25.68218 -25.33286 -26.50227 -25.90501 -26.86578 -25.00054 -26.07427 -25.56514 -25.27463 -26.47826 -24.53538 -25.08027 -25.32823 -25.88992 -26.67674 -23.82748 -27.08989 -26.32917 -26.59249 -28.01405 -25.77591 -26.25287 -27.20827 -26.80280 -27.13300 -27.54723 -26.95660 -26.15103 -27.72263 -25.39428 -25.87134 -26.59961 -26.82674 -27.75856 -25.09042 -27.42689 -26.89057 -27.26869 -26.85261 -27.32809
7000 4 -25.46022 -25.13683 -26.03670 -24.72121 -25.72716 -25.39044 -26.52097 -25.96277 -26.89508 -25.06032 -26.09054 -25.62538 -25.31971 -26.50552 -24.59764 -25.14458 -25.30922 -25.90609 -26.71753 -23.78255 -27.13457 -26.38674 -26.63134 -28.05873 -25.84862 -26.32410 -27.22697 -26.86057 -27.17379 -27.57653 -27.00158 -26.21081 -27.76760 -25.47109 -25.94501 -26.65985 -26.86560 -27.80010 -25.11712 -27.48265 -26.90684 -27.29595 -26.92133 -27.39438
8000 4 -25.49434 -25.16799 -26.07375 -24.74647 -25.76446 -25.44004 -26.52957 -26.01194 -26.91567 -25.11092 -26.09564 -25.67595 -25.35623 -26.52320 -24.64644 -25.19549 -25.28343 -25.91239 -26.75165 -23.75485 -27.17162 -26.43634 -26.66250 -28.09578 -25.91059 -26.38317 -27.23557 -26.90973 -27.20791 -27.59711 -27.03888 -26.26141 -27.80491 -25.53463 -26.00241 -26.71042 -26.89676 -27.83551 -25.13866 -27.53085 -26.91194 -27.31364 -26.98074 -27.44904
9000 4 -25.52293 -25.19304 -26.10424 -24.76501 -25.79523 -25.48293 -26.53047 -26.05370 -26.92922 -25.15369 -26.09291 -25.71815 -25.38567 -26.53356 -24.68377 -25.23448 -25.25765 -25.91290 -26.78024 -23.73911 -27.20212 -26.47924 -26.68755 -28.12628 -25.96331 -26.43126 -27.23646 -26.95150 -27.23650 -27.61066 -27.06965 -26.30418 -27.83567 -25.58639 -26.04442 -26.75262 -26.92180 -27.86587 -25.15669 -27.57265 -26.90921 -27.32400 -27.03225 -27.49302
10000 4 -25.54700 -25.21341 -26.12917 -24.77895 -25.82053 -25.52013 -26.52630 -26.08910 -26.93752 -25.18978 -26.08558 -25.75312 -25.40943 -26.53886 -24.71168 -25.26323 -25.23523 -25.91064 -26.80431 -23.73189 -27.22704 -26.51643 -26.70792 -28.15120 -26.00796 -26.46954 -27.23229 -26.98689 -27.26056 -27.61897 -27.09495 -26.34026 -27.86097 -25.62772 -26.07262 -26.78759 -26.94217 -27.89200 -25.17225 -27.60899 -26.90188 -27.32929 -27.07692 -27.52742
11000 4 -25.56716 -25.22962 -26.14929 -24.78926 -25.84117 -25.55208 -26.51823 -26.11881 -26.94171 -25.21954 -26.07476 -25.78164 -25.42862 -26.54052 -24.73021 -25.28293 -25.21355 -25.90742 -26.82447 -23.71509 -27.24717 -26.54839 -26.72413 -28.17133 -26.04520 -26.49876 -27.22422 -27.01660 -27.28073 -27.62315 -27.11559 -26.37002 -27.88161 -25.65940 -26.08825 -26.81610 -26.95838 -27.91441 -25.18610 -27.64044 -26.89106 -27.33095 -27.11541 -27.55290
12000 4 -25.58434 -25.24317 -26.16566 -24.79770 -25.85818 -25.57978 -26.50889 -26.14389 -26.94357 -25.24434 -26.06341 -25.80498 -25.44437 -26.54044 -24.74265 -25.29585 -25.19654 -25.90464 -26.84165 -23.70563 -27.26353 -26.57609 -26.73768 -28.18769 -26.07627 -26.52066 -27.21489 -27.04168 -27.29791 -27.62502 -27.13260 -26.39483 -27.89862 -25.68332 -26.09456 -26.83944 -26.97193 -27.93382 -25.19863 -27.66784 -26.87971 -27.33087 -27.14867 -27.57128
13000 4 -25.59923 -25.25491 -26.17915 -24.80521 -25.87240 -25.60394 -26.49964 -26.16523 -26.94425 -25.26514 -26.05278 -25.82419 -25.45762 -26.53976 -24.75085 -25.30384 -25.18407 -25.90297 -26.85654 -23.70181 -27.27702 -26.60025 -26.74942 -28.20118 -26.10223 -26.53676 -27.20564 -27.06302 -27.31280 -27.62570 -27.14682 -26.41563 -27.91285 -25.70109 -26.09433 -26.85866 -26.98367 -27.95078 -25.21031 -27.69185 -26.86908 -27.33020 -27.17751 -27.58412
14000 4 -25.61240 -25.26549 -26.19050 -24.81239 -25.88458 -25.62521 -26.49133 -26.18359 -26.94456 -25.28281 -26.04362 -25.84024 -25.46911 -26.53925 -24.75630 -25.30848 -25.17574 -25.90274 -26.86972 -23.70240 -27.28838 -26.62152 -26.76000 -28.21254 -26.12403 -26.54850 -27.19732 -27.08139 -27.32597 -27.62600 -27.15900 -26.43330 -27.92503 -25.71420 -26.08997 -26.87470 -26.99425 -27.96576 -25.22148 -27.71310 -26.85992 -27.32968 -27.20267 -27.59289
15000 4 -25.62433 -25.27540 -26.20036 -24.81963 -25.89530 -25.64417 -26.48443 -26.19968 -26.94505 -25.29809 -26.03626 -25.85392 -25.47942 -26.53934 -24.76016 -25.31103 -25.17104 -25.90403 -26.88164 -23.70643 -27.29823 -26.64048 -26.76991 -28.22239 -26.14258 -26.55712 -27.19042 -27.09747 -27.33790 -27.62650 -27.16972 -26.44858 -27.93575 -25.72398 -26.08337 -26.88839 -27.00416 -27.97918 -25.23238 -27.73211 -26.85256 -27.32977 -27.22483 -27.59884
16000 4 -25.63537 -25.28497 -26.20920 -24.82717 -25.90503 -25.66132 -26.47914 -26.21406 -26.94606 -25.31161 -26.03081 -25.86590 -25.48900 -26.54028 -24.76323 -25.31246 -25.16946 -25.90679 -26.89268 -23.71320 -27.30708 -26.65762 -26.77948 -28.23124 -26.15863 -26.56364 -27.18513 -27.11185 -27.34894 -27.62751 -27.17945 -26.46210 -27.94547 -25.73147 -26.07591 -26.90037 -27.01373 -27.99138 -25.24318 -27.74935 -26.84710 -27.33072 -27.24457 -27.60299
17000 4 -25.64581 -25.29441 -26.21741 -24.83510 -25.91411 -25.67704 -26.47550 -26.22717 -26.94776 -25.32384 -26.02721 -25.87670 -25.49814 -26.54218 -24.76609 -25.31342 -25.17051 -25.91090 -26.90312 -23.72210 -27.31528 -26.67334 -26.78892 -28.23944 -26.17279 -26.56884 -27.18149 -27.12496 -27.35937 -27.62921 -27.18853 -26.47433 -27.95456 -25.73749 -26.06848 -26.91117 -27.02318 -28.00264 -25.25398 -27.76518 -26.84351 -27.33261 -27.26239 -27.60609
18000 4 -25.65574 -25.30358 -26.22516 -24.84325 -25.92275 -25.69142 -26.47294 -26.23925 -26.95009 -25.33486 -26.02501 -25.88656 -25.50701 -26.54487 -24.76851 -25.31419 -25.17294 -25.91608 -26.91305 -23.73097 -27.32304 -26.68772 -26.79809 -28.24720 -26.18537 -26.57309 -27.17893 -27.13704 -27.36930 -27.63153 -27.19717 -26.48535 -27.96319 -25.74241 -26.06138 -26.92103 -27.03234 -28.01310 -25.26491 -27.77982 -26.84131 -27.33530 -27.27858 -27.60848
19000 4 -25.66505 -25.31178 -26.23248 -24.85104 -25.93099 -25.70401 -26.47001 -26.25025 -26.95266 -25.34409 -26.02321 -25.89545 -25.51563 -26.54791 -24.76924 -25.31454 -25.17436 -25.92193 -26.92236 -23.73558 -27.33036 -26.70032 -26.80629 -28.25452 -26.19624 -26.57630 -27.17600 -27.14804 -27.37861 -27.63411 -27.20541 -26.49458 -27.97144 -25.74598 -26.05418 -26.92992 -27.04054 -28.02274 -25.27613 -27.79325 -26.83951 -27.33835 -27.29316 -27.60994
20000 4 -25.67417 -25.32007 -26.23973 -24.85924 -25.93912 -25.71586 -26.46842 -26.26076 -26.95597 -25.35283 -26.02283 -25.90399 -25.52426 -26.55181 -24.77048 -25.31532 -25.17747 -25.92870 -26.93148 -23.74202 -27.33761 -26.71217 -26.81458 -28.26177 -26.20632 -26.57941 -27.17441 -27.15855 -27.38773 -27.63742 -27.21354 -26.50332 -27.97957 -25.74938 -26.04806 -26.93845 -27.04883 -28.03193 -25.28737 -27.80597 -26.83913 -27.34224 -27.30676 -27.61151
21000 4 -25.68318 -25.32849 -26.24701 -24.86784 -25.94724 -25.72716 -26.46804 -26.27094 -26.95999 -25.36127 -26.02373 -25.91234 -25.53293 -26.55648 -24.77235 -25.31664 -25.18199 -25.93625 -26.94049 -23.74992 -27.34488 -26.72346 -26.82300 -28.26904 -26.21587 -26.58262 -27.17403 -27.16873 -27.39675 -27.64143 -27.22166 -26.51176 -27.98769 -25.75283 -26.04311 -26.94680 -27.05726 -28.04077 -25.29862 -27.81814 -26.84003 -27.34691 -27.31959 -27.61335
22000 4 -25.69213 -25.33705 -26.25436 -24.87677 -25.95539 -25.73802 -26.46875 -26.28089 -26.96463 -25.36954 -26.02572 -25.92061 -25.54169 -26.56181 -24.77484 -25.31854 -25.18768 -25.94444 -26.94944 -23.75898 -27.35223 -26.73432 -26.83156 -28.27639 -26.22505 -26.58606 -27.17474 -27.17868 -27.40569 -27.64607 -27.22981 -26.52003 -27.99584 -25.75646 -26.03931 -26.95507 -27.06582 -28.04935 -25.30989 -27.82987 -26.84202 -27.35225 -27.33182 -27.61556
23000 4 -25.70104 -25.34575 -26.26182 -24.88599 -25.96360 -25.74855 -26.47041 -26.29068 -26.96982 -25.37772 -26.02867 -25.92886 -25.55054 -26.56773 -24.77796 -25.32102 -25.19434 -25.95314 -26.95835 -23.76895 -27.35969 -26.74486 -26.84026 -28.28385 -26.23399 -26.58980 -27.17640 -27.18847 -27.41461 -27.65127 -27.23802 -26.52821 -28.00404 -25.76036 -26.03663 -26.96332 -27.07452 -28.05771 -25.32117 -27.84125 -26.84497 -27.35817 -27.34358 -27.61820
24000 4 -25.70994 -25.35457 -26.26939 -24.89544 -25.97187 -25.75883 -26.47289 -26.30037 -26.97550 -25.38586 -26.03243 -25.93713 -25.55946 -26.57414 -24.78166 -25.32405 -25.20178 -25.96226 -26.96725 -23.77963 -27.36726 -26.75514 -26.84908 -28.29142 -26.24277 -26.59386 -27.17889 -27.19816 -27.42350 -27.65695 -27.24629 -26.53635 -28.01232 -25.76455 -26.03496 -26.97160 -27.08334 -28.06592 -25.33243 -27.85235 -26.84872 -27.36458 -27.35495 -27.62127
25000 4 -25.71882 -25.36350 -26.27707 -24.90508 -25.98022 -25.76891 -26.47609 -26.30999 -26.98158 -25.39400 -26.03687 -25.94545 -25.56848 -26.58097 -24.78590 -25.32760 -25.20986 -25.97169 -26.97613 -23.79085 -27.37495 -26.76522 -26.85801 -28.29910 -26.25145 -26.59825 -27.18209 -27.20778 -27.43238 -27.66303 -27.25464 -26.54449 -28.02067 -25.76906 -26.03424 -26.97992 -27.09226 -28.07398 -25.34365 -27.86320 -26.85317 -27.37140 -27.36601 -27.62478
5000 5 -25.35874 -25.03788 -25.92532 -24.62672 -25.61539 -25.25452 -26.46395 -25.82511 -26.81797 -24.91839 -26.03423 -25.48152 -25.20642 -26.42976 -24.44458 -24.98816 -25.30086 -25.84375 -26.61605 -23.70918 -27.02319 -26.25083 -26.53239 -27.94735 -25.67816 -26.15564 -27.16995 -26.72290 -27.07231 -27.49941 -26.88981 -26.06888 -27.65584 -25.28894 -25.76776 -26.51598 -26.76664 -27.69788 -25.00321 -27.35110 -26.85053 -27.22019 -26.76050 -27.23643
6000 5 -25.40945 -25.08721 -25.98089 -24.67241 -25.67130 -25.32375 -26.49375 -25.89501 -26.85810 -24.99095 -26.06236 -25.55490 -25.26310 -26.46838 -24.52328 -25.06878 -25.28615 -25.87001 -26.66676 -23.69417 -27.07876 -26.32006 -26.58172 -28.00292 -25.76577 -26.24253 -27.19974 -26.79280 -27.12301 -27.53955 -26.94572 -26.14144 -27.71175 -25.38315 -25.86039 -26.58936 -26.81597 -27.74893 -25.03833 -27.41800 -26.87865 -27.25882 -26.84259 -27.31732
7000 5 -25.45098 -25.12591 -26.02632 -24.70474 -25.71694 -25.38226 -26.50977 -25.95357 -26.88652 -25.05136 -26.07454 -25.61570 -25.30814 -26.49375 -24.58454 -25.13276 -25.25693 -25.88090 -26.70829 -23.65829 -27.12419 -26.37856 -26.62042 -28.04835 -25.83939 -26.31428 -27.21576 -26.85136 -27.16454 -27.56797 -26.99136 -26.20185 -27.75738 -25.46067 -25.93412 -26.65017 -26.85467 -27.79149 -25.06332 -27.47473 -26.89084 -27.28419 -26.91237 -27.38388
8000 5 -25.48514 -25.15611 -26.06325 -24.72718 -25.75406 -25.43213 -26.51439 -26.00275 -26.90511 -25.10176 -26.07453 -25.66597 -25.34376 -26.50848 -24.63111 -25.18223 -25.22429 -25.88205 -26.74245 -23.63879 -27.16113 -26.42844 -26.65062 -28.08529 -25.90147 -26.37282 -27.22038 -26.90054 -27.19871 -27.58655 -27.02848 -26.25225 -27.79450 -25.52397 -25.99036 -26.70044 -26.88487 -27.82734 -25.08406 -27.52325 -26.89083 -27.29891 -26.97216 -27.43758
9000 5 -25.51327 -25.17974 -26.09298 -24.74283 -25.78403 -25.47478 -26.51090 -26.04392 -26.91606 -25.14370 -26.06673 -25.70719 -25.37178 -26.51551 -24.66548 -25.21912 -25.19461 -25.87828 -26.77058 -23.63018 -27.19085 -26.47109 -26.67425 -28.11501 -25.95363 -26.41954 -27.21689 -26.94171 -27.22683 -27.59751 -27.05845 -26.29419 -27.82447 -25.57477 -26.03042 -26.74165 -26.90851 -27.85767 -25.10192 -27.56487 -26.88303 -27.30594 -27.02347 -27.47960
10000 5 -25.53654 -25.19855 -26.11671 -24.75419 -25.80814 -25.51135 -26.50261 -26.07829 -26.92164 -25.17853 -26.05503 -25.74075 -25.39386 -26.51763 -24.69023 -25.24552 -25.17046 -25.87283 -26.79385 -23.62923 -27.21459 -26.50766 -26.69306 -28.13875 -25.99723 -26.45590 -27.20860 -26.97609 -27.25011 -27.60309 -27.08256 -26.32902 -27.84859 -25.61472 -26.05638 -26.77521 -26.92731 -27.88345 -25.11785 -27.60063 -26.87133 -27.30807 -27.06750 -27.51133
11000 5 -25.55560 -25.21292 -26.13526 -24.76193 -25.82725 -25.54225 -26.49049 -26.10656 -26.92297 -25.20650 -26.04010 -25.76741 -25.41115 -26.51618 -24.70505 -25.26266 -25.14729 -25.86695 -26.81291 -23.61636 -27.23314 -26.53856 -26.70743 -28.15730 -26.03291 -26.48268 -27.19648 -27.00435 -27.26916 -27.60441 -27.10167 -26.35699 -27.86770 -25.64459 -26.06957 -26.80187 -26.94169 -27.90520 -25.13181 -27.63111 -26.85640 -27.30661 -27.10492 -27.53349
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6000 7 -25.37002 -25.04817 -25.93943 -24.63260 -25.63039 -25.28980 -26.47458 -25.85908 -26.84003 -24.95685 -26.03754 -25.51997 -25.22300 -26.44572 -24.48822 -25.03482 -25.23990 -25.83373 -26.62733 -23.61127 -27.03731 -26.28610 -26.54268 -27.96146 -25.73043 -26.20939 -27.18057 -26.75687 -27.08358 -27.52147 -26.90481 -26.10733 -27.67084 -25.34911 -25.83032 -26.55444 -26.77694 -27.70955 -24.86785 -27.37645 -26.85384 -27.23616 -26.80729 -27.28259
7000 7 -25.41696 -25.09173 -25.99055 -24.66859 -25.68139 -25.35334 -26.49272 -25.92253 -26.87188 -25.02207 -26.05124 -25.58537 -25.27246 -26.47375 -24.55350 -25.10245 -25.20974 -25.84378 -26.67427 -23.58233 -27.08842 -26.34965 -26.58624 -28.01258 -25.80902 -26.28596 -27.19872 -26.82032 -27.13053 -27.55333 -26.95581 -26.17256 -27.72184 -25.43166 -25.90938 -26.61984 -26.82049 -27.75776 -24.87343 -27.43878 -26.86754 -27.26419 -26.88212 -27.35379
8000 7 -25.45499 -25.12519 -26.03158 -24.69319 -25.72227 -25.40680 -26.49745 -25.97517 -26.89204 -25.07580 -26.05088 -25.63880 -25.31082 -26.48921 -24.60263 -25.15443 -25.17666 -25.84303 -26.71230 -23.56860 -27.12945 -26.40311 -26.61970 -28.05361 -25.87470 -26.34826 -27.20344 -26.87296 -27.16856 -27.57349 -26.99669 -26.22629 -27.76271 -25.49899 -25.97089 -26.67327 -26.85395 -27.79769 -24.88050 -27.49129 -26.86718 -27.27964 -26.94548 -27.41065
9000 7 -25.48592 -25.15107 -26.06433 -24.71019 -25.75492 -25.45205 -26.49305 -26.01889 -26.90349 -25.12007 -26.04202 -25.68230 -25.34056 -26.49599 -24.63876 -25.19345 -25.14734 -25.83739 -26.74323 -23.56495 -27.16221 -26.44835 -26.64558 -28.08637 -25.92963 -26.39828 -27.19904 -26.91668 -27.19949 -27.58494 -27.02934 -26.27056 -27.79536 -25.55348 -26.01691 -26.71677 -26.87983 -27.83100 -24.88926 -27.53578 -26.85832 -27.28643 -26.99937 -27.45488
10000 7 -25.51129 -25.17150 -26.09039 -24.72255 -25.78102 -25.49054 -26.48359 -26.05523 -26.90907 -25.15658 -26.02927 -25.71763 -25.36379 -26.49756 -24.66496 -25.22215 -25.12421 -25.83060 -26.76860 -23.56842 -27.18826 -26.48685 -26.66601 -28.11242 -25.97549 -26.43781 -27.18959 -26.95302 -27.22486 -27.59052 -27.05544 -26.30707 -27.82146 -25.59715 -26.04976 -26.75210 -26.90026 -27.85900 -24.89961 -27.57361 -26.84557 -27.28799 -27.04530 -27.48828
11000 7 -25.53199 -25.18713 -26.11084 -24.73123 -25.80170 -25.52291 -26.47042 -26.08514 -26.91024 -25.18580 -26.01361 -25.74583 -25.38196 -26.49561 -24.68114 -25.24198 -25.10258 -25.82391 -26.78930 -23.55975 -27.20872 -26.51922 -26.68164 -28.13288 -26.01320 -26.46797 -27.17641 -26.98293 -27.24556 -27.59168 -27.07612 -26.33629 -27.84214 -25.63106 -26.07095 -26.78030 -26.91589 -27.88243 -24.90706 -27.60562 -26.82991 -27.28604 -27.08420 -27.51190
12000 7 -25.54936 -25.20009 -26.12723 -24.73864 -25.81849 -25.55056 -26.45719 -26.11014 -26.90960 -25.20972 -25.99895 -25.76875 -25.39676 -26.49282 -24.69183 -25.25590 -25.08724 -25.81926 -26.80667 -23.55813 -27.22510 -26.54687 -26.69460 -28.14926 -26.04448 -26.49100 -27.16318 -27.00793 -27.26292 -27.59104 -27.09291 -26.36021 -27.85893 -25.65758 -26.08388 -26.80322 -26.92885 -27.90235 -24.91643 -27.63301 -26.81525 -27.28325 -27.11739 -27.52835
13000 7 -25.56433 -25.21147 -26.14071 -24.74579 -25.83250 -25.57447 -26.44536 -26.13138 -26.90851 -25.22961 -25.98649 -25.78772 -25.40936 -26.49045 -24.69914 -25.26588 -25.07758 -25.81711 -26.82164 -23.56192 -27.23858 -26.57078 -26.70598 -28.16274 -26.07064 -26.50868 -27.15135 -27.02917 -27.27790 -27.58996 -27.10692 -26.38010 -27.87295 -25.67850 -26.09117 -26.82219 -26.94023 -27.91954 -24.92745 -27.65674 -26.80279 -27.28088 -27.14596 -27.53962
14000 7 -25.57763 -25.22202 -26.15221 -24.75325 -25.84465 -25.59547 -26.43569 -26.14981 -26.90785 -25.24654 -25.97676 -25.80385 -25.42062 -26.48921 -24.70464 -25.27346 -25.07282 -25.81747 -26.83495 -23.56986 -27.25008 -26.59178 -26.71653 -28.17424 -26.09288 -26.52254 -27.14168 -27.04760 -27.29120 -27.58930 -27.11907 -26.39703 -27.88510 -25.69533 -26.09494 -26.83832 -26.95078 -27.93464 -24.93983 -27.67760 -26.79306 -27.27964 -27.17083 -27.54744
15000 7 -25.58983 -25.23226 -26.16245 -24.76135 -25.85561 -25.61427 -26.42846 -26.16622 -26.90813 -25.26140 -25.96984 -25.81804 -25.43115 -26.48941 -24.70940 -25.27975 -25.07218 -25.82019 -26.84714 -23.58101 -27.26033 -26.61058 -26.72677 -28.18449 -26.11216 -26.53383 -27.13445 -27.06401 -27.30340 -27.58958 -27.13003 -26.41189 -27.89606 -25.70935 -26.09679 -26.85250 -26.96102 -27.94818 -24.95332 -27.69628 -26.78614 -27.27985 -27.19283 -27.55314
16000 7 -25.60133 -25.24250 -26.17197 -24.77020 -25.86587 -25.63143 -26.42368 -26.18121 -26.90955 -25.27484 -25.96562 -25.83093 -25.44135 -26.49115 -24.71412 -25.28550 -25.07496 -25.82499 -26.85864 -23.59461 -27.26984 -26.62774 -26.73701 -28.19400 -26.12928 -26.54349 -27.12967 -27.07900 -27.31489 -27.59100 -27.14029 -26.42533 -27.90631 -25.72150 -26.09786 -26.86540 -26.97126 -27.96057 -24.96768 -27.71331 -26.78192 -27.28158 -27.21262 -27.55771
17000 7 -25.61240 -25.25290 -26.18110 -24.77980 -25.87576 -25.64737 -26.42118 -26.19522 -26.91218 -25.28735 -25.96382 -25.84302 -25.45148 -26.49436 -24.71920 -25.29119 -25.08051 -25.83155 -26.86971 -23.61008 -27.27898 -26.64368 -26.74740 -28.20313 -26.14485 -26.55219 -27.12717 -27.09301 -27.32596 -27.59363 -27.15018 -26.43784 -27.91621 -25.73247 -26.09886 -26.87749 -26.98166 -27.97212 -24.98271 -27.72911 -26.78012 -27.28479 -27.23072 -27.56183
18000 7 -25.62310 -25.26319 -26.19001 -24.78983 -25.88542 -25.66212 -26.42011 -26.20842 -26.91575 -25.29890 -25.96375 -25.85445 -25.46160 -26.49868 -24.72418 -25.29690 -25.08736 -25.83937 -26.88042 -23.62514 -27.28788 -26.65842 -26.75770 -28.21204 -26.15911 -26.56020 -27.12610 -27.10621 -27.33667 -27.59720 -27.15984 -26.44939 -27.92587 -25.74248 -26.09994 -26.88892 -26.99195 -27.98297 -24.99788 -27.74389 -26.78005 -27.28911 -27.24741 -27.56570
19000 7 -25.63326 -25.27249 -26.19861 -24.79951 -25.89484 -25.67508 -26.41869 -26.22066 -26.91966 -25.30874 -25.96412 -25.86506 -25.47158 -26.50341 -24.72747 -25.30219 -25.09289 -25.84772 -26.89057 -23.63541 -27.29649 -26.67139 -26.76700 -28.22065 -26.17180 -26.56730 -27.12468 -27.11845 -27.34682 -27.60111 -27.16926 -26.45923 -27.93528 -25.75119 -26.10066 -26.89952 -27.00125 -27.99305 -25.01229 -27.75755 -26.78042 -27.29384 -27.26263 -27.56894
20000 7 -25.64336 -25.28205 -26.20732 -24.80976 -25.90431 -25.68750 -26.41889 -26.23260 -26.92454 -25.31836 -25.96614 -25.87552 -25.48175 -26.50921 -24.73155 -25.30797 -25.10008 -25.85713 -26.90067 -23.64727 -27.30519 -26.68381 -26.77656 -28.22935 -26.18392 -26.57441 -27.12488 -27.13039 -27.35692 -27.60599 -27.17873 -26.46885 -27.94476 -25.75973 -26.10212 -26.90999 -27.01082 -28.00278 -25.02710 -27.77068 -26.78244 -27.29964 -27.27707 -27.57259
21000 7 -25.65345 -25.29187 -26.21617 -24.82049 -25.91390 -25.69953 -26.42051 -26.24435 -26.93028 -25.32790 -25.96956 -25.88596 -25.49210 -26.51591 -24.73641 -25.31427 -25.10862 -25.86738 -26.91076 -23.66036 -27.31405 -26.69583 -26.78638 -28.23821 -26.19567 -26.58167 -27.12650 -27.14214 -27.36701 -27.61173 -27.18832 -26.47839 -27.95434 -25.76828 -26.10438 -26.92043 -27.02064 -28.01228 -25.04215 -27.78341 -26.78586 -27.30635 -27.29093 -27.57674
22000 7 -25.66355 -25.30191 -26.22519 -24.83159 -25.92360 -25.71126 -26.42333 -26.25597 -26.93674 -25.33743 -25.97414 -25.89642 -25.50263 -26.52337 -24.74200 -25.32106 -25.11821 -25.87827 -26.92086 -23.67436 -27.32306 -26.70757 -26.79642 -28.24722 -26.20716 -26.58913 -27.12932 -27.15376 -27.37711 -27.61819 -27.19802 -26.48792 -27.96405 -25.77691 -26.10741 -26.93089 -27.03067 -28.02159 -25.05735 -27.79583 -26.79044 -27.31380 -27.30432 -27.58141
23000 7 -25.67367 -25.31214 -26.23436 -24.84299 -25.93342 -25.72278 -26.42716 -26.26752 -26.94381 -25.34700 -25.97968 -25.90692 -25.51330 -26.53143 -24.74825 -25.32831 -25.12863 -25.88964 -26.93098 -23.68901 -27.33224 -26.71908 -26.80665 -28.25639 -26.21848 -26.59684 -27.13315 -27.16531 -27.38723 -27.62526 -27.20784 -26.49749 -27.97387 -25.78567 -26.11118 -26.94139 -27.04090 -28.03075 -25.07259 -27.80801 -26.79598 -27.32187 -27.31735 -27.58660
24000 7 -25.68379 -25.32250 -26.24367 -24.85460 -25.94334 -25.73412 -26.43183 -26.27899 -26.95137 -25.35662 -25.98600 -25.91747 -25.52406 -26.53998 -24.75508 -25.33595 -25.13967 -25.90136 -26.94110 -23.70412 -27.34155 -26.73042 -26.81701 -28.26570 -26.22967 -26.60477 -27.13782 -27.17678 -27.39736 -27.63282 -27.21776 -26.50711 -27.98379 -25.79456 -26.11559 -26.95193 -27.05126 -28.03979 -25.08780 -27.81997 -26.80230 -27.33041 -27.33007 -27.59225
25000 7 -25.69392 -25.33297 -26.25310 -24.86635 -25.95333 -25.74532 -26.43720 -26.29041 -26.95932 -25.36630 -25.99296 -25.92805 -25.53491 -26.54890 -24.76240 -25.34393 -25.15119 -25.91331 -26.95123 -23.71953 -27.35097 -26.74163 -26.82748 -28.27513 -26.24076 -26.61291 -27.14319 -27.18820 -27.40748 -27.64077 -27.22775 -26.51679 -27.99378 -25.80360 -26.12059 -26.96252 -27.06173 -28.04873 -25.10292 -27.83176 -26.80926 -27.33933 -27.34254 -27.59833
5000 8 -25.26575 -24.94326 -25.83656 -24.52853 -25.51957 -25.16766 -26.41159 -25.73165 -26.77171 -24.83626 -25.97140 -25.39806 -25.10988 -26.37475 -24.35981 -24.90520 -25.17109 -25.74667 -26.52306 -23.38574 -26.93443 -26.16396 -26.43777 -27.85859 -25.59471 -26.07779 -27.11758 -26.62944 -26.97931 -27.45316 -26.79399 -25.98674 -27.56001 -25.20516 -25.69215 -26.43252 -26.67202 -27.61144 -24.35293 -27.19250 -26.78769 -27.16518 -26.68369 -27.15607
6000 8 -25.33132 -25.00492 -25.90687 -24.57948 -25.58901 -25.25121 -26.44482 -25.81451 -26.81882 -24.92206 -25.99761 -25.48276 -25.17518 -26.41523 -24.44811 -24.99061 -25.12547 -25.74824 -26.58863 -23.38146 -27.00475 -26.24751 -26.49943 -27.92891 -25.69598 -26.17668 -27.15081 -26.71230 -27.04489 -27.50027 -26.86344 -26.07255 -27.62946 -25.31258 -25.79596 -26.51723 -26.73368 -27.67887 -24.33431 -27.27865 -26.81391 -27.20567 -26.78012 -27.24935
7000 8 -25.38184 -25.04911 -25.96060 -24.60926 -25.64141 -25.31857 -26.45333 -25.88010 -26.84485 -24.98982 -25.99637 -25.54815 -25.22041 -26.43120 -24.51085 -25.04922 -25.07007 -25.72624 -26.63915 -23.35417 -27.05848 -26.31488 -26.54362 -27.98263 -25.77773 -26.25451 -27.15933 -26.77789 -27.09541 -27.52630 -26.91583 -26.14031 -27.68186 -25.39763 -25.87497 -26.58262 -26.77787 -27.73178 -24.29629 -27.34800 -26.81267 -27.22163 -26.85844 -27.32144
8000 8 -25.42068 -25.08008 -26.00082 -24.62513 -25.68007 -25.37325 -26.44382 -25.93169 -26.85445 -25.04312 -25.97793 -25.59770 -25.25050 -26.42993 -24.55331 -25.08642 -25.01990 -25.69615 -26.67799 -23.34431 -27.09870 -26.36956 -26.57458 -28.02286 -25.84378 -26.31451 -27.14982 -26.82948 -27.13425 -27.53590 -26.95449 -26.19361 -27.72052 -25.46433 -25.93233 -26.63217 -26.80884 -27.77344 -24.27695 -27.40412 -26.79422 -27.22037 -26.92242 -27.37501
9000 8 -25.45039 -25.10163 -26.03011 -24.63309 -25.70781 -25.41767 -26.42424 -25.97180 -26.85312 -25.08465 -25.95205 -25.63439 -25.26978 -26.41906 -24.58046 -25.10765 -24.98046 -25.66700 -26.70770 -23.34572 -27.12798 -26.41397 -26.59614 -28.05214 -25.89678 -26.35933 -27.13023 -26.86959 -27.16396 -27.53457 -26.98223 -26.23514 -27.74826 -25.51572 -25.97124 -26.66886 -26.83039 -27.80615 -24.27003 -27.44942 -26.76835 -27.20950 -26.97452 -27.41254
10000 8 -25.47325 -25.11708 -26.05099 -24.63742 -25.72741 -25.45384 -26.40121 -26.00280 -26.84596 -25.11690 -25.92553 -25.66117 -25.28204 -26.40460 -24.59710 -25.11821 -24.95234 -25.64285 -26.73056 -23.35503 -27.14886 -26.45014 -26.61159 -28.07302 -25.93905 -26.39180 -27.10721 -26.90059 -27.18681 -27.52741 -27.00183 -26.26739 -27.76786 -25.55471 -25.99560 -26.69564 -26.84585 -27.83184 -24.27184 -27.48593 -26.74183 -27.19504 -27.01682 -27.43712
11000 8 -25.49094 -25.12796 -26.06561 -24.64026 -25.74106 -25.48292 -26.37768 -26.02648 -26.83582 -25.14101 -25.90038 -25.68009 -25.28990 -26.38959 -24.60426 -25.12066 -24.93050 -25.62385 -26.74825 -23.35464 -27.16348 -26.47922 -26.62247 -28.08764 -25.97225 -26.41424 -27.08367 -26.92427 -27.20450 -27.51727 -27.01548 -26.29150 -27.78151 -25.58341 -26.00863 -26.71456 -26.85672 -27.85195 -24.27120 -27.51520 -26.71668 -27.18002 -27.05091 -27.45139
12000 8 -25.50529 -25.13694 -26.07624 -24.64374 -25.75110 -25.50693 -26.35730 -26.04516 -26.82610 -25.15979 -25.87990 -25.69411 -25.29583 -26.37697 -24.60765 -25.12001 -24.91752 -25.61123 -26.76260 -23.36157 -27.17411 -26.50323 -26.63145 -28.09827 -25.99877 -26.42990 -27.06329 -26.94295 -27.21886 -27.50754 -27.02552 -26.31028 -27.79155 -25.60497 -26.01482 -26.72858 -26.86570 -27.86811 -24.27725 -27.53911 -26.69620 -27.16740 -27.07874 -27.45908
13000 8 -25.51760 -25.14535 -26.08455 -24.64871 -25.75915 -25.52728 -26.34118 -26.06054 -26.81826 -25.17503 -25.86462 -25.70518 -25.30128 -26.36773 -24.60966 -25.11861 -24.91190 -25.60442 -26.77491 -23.37397 -27.18243 -26.52358 -26.63986 -28.10659 -26.02048 -26.44121 -27.04717 -26.95833 -27.23117 -27.49970 -27.03357 -26.32552 -27.79960 -25.62174 -26.01726 -26.73964 -26.87412 -27.88155 -24.28829 -27.55914 -26.68091 -27.15816 -27.10194 -27.46294
14000 8 -25.52879 -25.15397 -26.09176 -24.65546 -25.76636 -25.54509 -26.32952 -26.07389 -26.81296 -25.18809 -25.85434 -25.71472 -25.30711 -26.36208 -24.61178 -25.11783 -24.91226 -25.60258 -26.78610 -23.39046 -27.18963 -26.54139 -26.64848 -28.11379 -26.03889 -26.45003 -27.03552 -26.97168 -27.24235 -27.49441 -27.04078 -26.33858 -27.80681 -25.63551 -26.01815 -26.74918 -26.88273 -27.89322 -24.30301 -27.57648 -26.67064 -27.15252 -27.12181 -27.46498
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16000 8 -25.55004 -25.17324 -26.10570 -24.67412 -25.78086 -25.57630 -26.31840 -26.09787 -26.81034 -25.21127 -25.84661 -25.73260 -25.32138 -26.36063 -24.61915 -25.12049 -24.92624 -25.61050 -26.80735 -23.43169 -27.20357 -26.57261 -26.66775 -28.12773 -26.07003 -26.46492 -27.02440 -26.99566 -27.26360 -27.49179 -27.05528 -26.36176 -27.82131 -25.65880 -26.02022 -26.76706 -26.90200 -27.91376 -24.33984 -27.60644 -26.66291 -27.15107 -27.15544 -27.46846
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22000 8 -25.61564 -25.24071 -26.15744 -24.75224 -25.83554 -25.65365 -26.33691 -26.16652 -26.84227 -25.27416 -25.87926 -25.79124 -25.38191 -26.40039 -24.65984 -25.15597 -25.00672 -25.67678 -26.87295 -23.55537 -27.25531 -26.64995 -26.73522 -28.17947 -26.14826 -26.51373 -27.04290 -27.06431 -27.32920 -27.52372 -27.10996 -26.42465 -27.87599 -25.72343 -26.04768 -26.82570 -26.96948 -27.97036 -24.46038 -27.68368 -26.69556 -27.19082 -27.23800 -27.49622
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6000 9 -25.28478 -24.92048 -25.90722 -24.43993 -25.52858 -25.13797 -26.32408 -25.68006 -26.73996 -24.84800 -25.85825 -25.39184 -25.06356 -26.30705 -24.35603 -24.87189 -24.77230 -25.45985 -26.54209 -22.84576 -27.00509 -26.13428 -26.41499 -27.92925 -25.64232 -26.11911 -27.03008 -26.57785 -26.99835 -27.42141 -26.80300 -25.99849 -27.56902 -25.24346 -25.72519 -26.42631 -26.64924 -27.67213 -23.59686 -26.98587 -26.67455 -27.09748 -26.63808 -27.09713
7000 9 -25.33328 -24.94687 -25.95537 -24.42334 -25.56842 -25.20605 -26.27858 -25.73927 -26.72520 -24.90953 -25.77962 -25.44008 -25.07040 -26.25270 -24.38685 -24.87471 -24.64748 -25.34192 -26.59059 -22.80418 -27.05324 -26.20235 -26.44138 -27.97740 -25.72114 -26.18762 -26.98458 -26.63706 -27.04684 -27.40665 -26.84284 -26.06002 -27.60887 -25.32276 -25.78956 -26.47454 -26.67563 -27.73055 -23.52882 -27.07092 -26.59592 -27.04314 -26.72614 -27.17242
8000 9 -25.36057 -24.95131 -25.97852 -24.39464 -25.58296 -25.25189 -26.21126 -25.77286 -26.68450 -24.94630 -25.69412 -25.46007 -25.05519 -26.18292 -24.38750 -24.84886 -24.56163 -25.24986 -26.61788 -22.79480 -27.07640 -26.24820 -26.44582 -28.00056 -25.77476 -26.22667 -26.91725 -26.67065 -27.07413 -27.36595 -26.85738 -26.09679 -27.62341 -25.37327 -25.81952 -26.49453 -26.68007 -27.76632 -23.49977 -27.13202 -26.51042 -26.97335 -26.79022 -27.21684
9000 9 -25.37389 -24.94631 -25.98501 -24.36946 -25.58237 -25.28129 -26.14673 -25.78870 -26.63864 -24.96599 -25.62368 -25.46305 -25.03413 -26.12090 -24.37526 -24.81621 -24.51057 -25.18819 -26.63120 -22.80805 -27.08288 -26.27760 -26.44082 -28.00704 -25.80913 -26.24454 -26.85272 -26.68649 -27.08745 -27.32009 -26.85679 -26.11648 -27.62281 -25.40280 -25.82673 -26.49752 -26.67507 -27.78576 -23.49779 -27.17437 -26.43997 -26.91133 -26.83536 -27.23809
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11000 9 -25.38604 -24.93965 -25.98146 -24.35198 -25.57131 -25.31497 -26.06326 -25.79948 -26.57320 -24.98325 -25.54499 -25.45610 -25.00807 -26.04763 -24.35195 -24.76934 -24.48307 -25.13821 -26.64335 -22.86630 -27.07934 -26.31127 -26.43416 -28.00350 -25.84740 -26.25345 -26.76925 -26.69727 -27.09960 -27.25465 -26.84573 -26.13374 -27.61176 -25.43237 -25.81872 -26.49057 -26.66841 -27.80241 -23.53715 -27.22637 -26.36129 -26.83807 -26.89191 -27.24894
12000 9 -25.39321 -24.94421 -25.98175 -24.35952 -25.57040 -25.32820 -26.04523 -25.80498 -26.55844 -24.99062 -25.53208 -25.45655 -25.00767 -26.03488 -24.34905 -24.76046 -24.49436 -25.13933 -26.65052 -22.90548 -27.07962 -26.32451 -26.43872 -28.00378 -25.86177 -26.25695 -26.75123 -26.70277 -27.10678 -27.23989 -26.84482 -26.14111 -27.61085 -25.44411 -25.81703 -26.49102 -26.67297 -27.80895 -23.57072 -27.24564 -26.34838 -26.82532 -26.91286 -27.25210
13000 9 -25.40312 -24.95443 -25.98587 -24.37487 -25.57438 -25.34231 -26.03951 -25.81352 -26.55414 -25.00048 -25.53175 -25.46199 -25.01477 -26.03404 -24.35348 -24.76114 -24.51638 -25.15195 -26.66043 -22.95133 -27.08375 -26.33862 -26.44894 -28.00791 -25.87674 -26.26353 -26.74550 -26.71131 -27.11668 -27.23558 -26.84880 -26.15097 -27.61483 -25.45756 -25.82022 -26.49646 -26.68319 -27.81718 -23.61181 -27.26415 -26.34805 -26.82447 -26.93272 -27.25787
14000 9 -25.41570 -24.96917 -25.99375 -24.39571 -25.58275 -25.35791 -26.04295 -25.82523 -26.55789 -25.01311 -25.54045 -25.47195 -25.02761 -26.04187 -24.36385 -24.76916 -24.54545 -25.17237 -26.67301 -23.00083 -27.09163 -26.35422 -26.46368 -28.01579 -25.89310 -26.27350 -26.74895 -26.72302 -27.12927 -27.23933 -26.85717 -26.16359 -27.62320 -25.47326 -25.82809 -26.50642 -26.69794 -27.82752 -23.65722 -27.28295 -26.35675 -26.83230 -26.95263 -27.26681
15000 9 -25.43050 -24.98721 -26.00477 -24.42014 -25.59462 -25.37498 -26.05295 -25.83967 -26.56751 -25.02814 -25.55537 -25.48552 -25.04453 -26.05574 -24.37865 -24.78251 -24.57882 -25.19780 -26.68781 -23.05186 -27.10264 -26.37129 -26.48172 -28.02680 -25.91092 -26.28644 -26.75894 -26.73746 -27.14406 -27.24896 -26.86904 -26.17863 -27.63506 -25.49101 -25.83982 -26.51999 -26.71597 -27.83979 -23.70469 -27.30236 -26.37166 -26.84618 -26.97297 -27.27863
16000 9 -25.44691 -25.00745 -26.01816 -24.44670 -25.60905 -25.39323 -26.06744 -25.85618 -26.58123 -25.04502 -25.57439 -25.50174 -25.06419 -26.07367 -24.39655 -24.79952 -24.61459 -25.22626 -26.70422 -23.10297 -27.11603 -26.38954 -26.50196 -28.04019 -25.92994 -26.30169 -26.77343 -26.75397 -27.16048 -27.26268 -26.88347 -26.19551 -27.64950 -25.51035 -25.85445 -26.53621 -26.73621 -27.85357 -23.75269 -27.32234 -26.39069 -26.86411 -26.99372 -27.29274
17000 9 -25.46440 -25.02902 -26.03325 -24.47436 -25.62527 -25.41231 -26.08492 -25.87416 -26.59771 -25.06320 -25.59601 -25.51979 -25.08555 -26.09419 -24.41651 -24.81895 -24.65141 -25.25635 -26.72171 -23.15323 -27.13112 -26.40862 -26.52353 -28.05528 -25.94981 -26.31861 -26.79091 -26.77195 -27.17797 -27.27915 -26.89969 -26.21369 -27.66572 -25.53079 -25.87113 -26.55426 -26.75778 -27.86842 -23.80019 -27.34270 -26.41231 -26.88463 -27.01475 -27.30854
18000 9 -25.48253 -25.05100 -26.04943 -24.50232 -25.64258 -25.43163 -26.10383 -25.89289 -26.61554 -25.08189 -25.61897 -25.53873 -25.10761 -26.11584 -24.43718 -24.83931 -24.68781 -25.28663 -26.73984 -23.20073 -27.14730 -26.42793 -26.54551 -28.07146 -25.97010 -26.33653 -26.80982 -26.79068 -27.19610 -27.29699 -26.91700 -26.23238 -27.68303 -25.55180 -25.88906 -26.57319 -26.77976 -27.88396 -23.84572 -27.36322 -26.43527 -26.90627 -27.03587 -27.32549
19000 9 -25.50096 -25.07219 -26.06620 -24.52997 -25.66039 -25.45026 -26.12230 -25.91152 -26.63308 -25.09991 -25.64211 -25.55737 -25.12926 -26.13688 -24.45677 -24.85867 -24.72176 -25.31530 -26.75827 -23.24218 -27.16408 -26.44657 -26.56670 -28.08824 -25.99033 -26.35470 -26.82829 -26.80931 -27.21453 -27.31452 -26.93481 -26.25040 -27.70084 -25.57287 -25.90743 -26.59183 -26.80096 -27.89991 -23.88704 -27.38373 -26.45840 -26.92731 -27.05691 -27.34315
20000 9 -25.51944 -25.09340 -26.08336 -24.55717 -25.67855 -25.46897 -26.14143 -25.93045 -26.65126 -25.11823 -25.66553 -25.57643 -25.15106 -26.15835 -24.47686 -24.87868 -24.75507 -25.34377 -26.77675 -23.28240 -27.18124 -26.46528 -26.58791 -28.10539 -26.01060 -26.37327 -26.84742 -26.82824 -27.23301 -27.33271 -26.95298 -26.26872 -27.71900 -25.59400 -25.92629 -26.61090 -26.82216 -27.91601 -23.92713 -27.40408 -26.48183 -26.94879 -27.07772 -27.36121
21000 9 -25.53779 -25.11440 -26.10067 -24.58374 -25.69684 -25.48762 -26.16084 -25.94946 -26.66974 -25.13663 -25.68889 -25.59566 -25.17276 -26.17991 -24.49715 -24.89898 -24.78752 -25.37177 -26.79510 -23.32124 -27.19855 -26.48393 -26.60891 -28.12271 -26.03074 -26.39199 -26.86683 -26.84726 -27.25136 -27.35119 -26.97126 -26.28712 -27.73729 -25.61502 -25.94537 -26.63013 -26.84316 -27.93208 -23.96582 -27.42414 -26.50519 -26.97035 -27.09822 -27.37942
22000 9 -25.55590 -25.13505 -26.11796 -24.60955 -25.71506 -25.50609 -26.18026 -25.96839 -26.68826 -25.15496 -25.71196 -25.61487 -25.19418 -26.20131 -24.51740 -24.91931 -24.81896 -25.39911 -26.81321 -23.35858 -27.21583 -26.50239 -26.62956 -28.13999 -26.05063 -26.41067 -26.88625 -26.86619 -27.26946 -27.36971 -26.98948 -26.30545 -27.75551 -25.63579 -25.96445 -26.64933 -26.86381 -27.94801 -24.00305 -27.44385 -26.52826 -26.99175 -27.11833 -27.39761
23000 9 -25.57367 -25.15526 -26.13510 -24.63454 -25.73310 -25.52430 -26.19951 -25.98713 -26.70665 -25.17311 -25.73458 -25.63391 -25.21521 -26.22239 -24.53748 -24.93950 -24.84933 -25.42569 -26.83099 -23.39443 -27.23298 -26.52060 -26.64977 -28.15714 -26.07020 -26.42920 -26.90550 -26.88492 -27.28724 -27.38809 -27.00752 -26.32360 -27.77354 -25.65620 -25.98340 -26.66838 -26.88402 -27.96371 -24.03879 -27.46315 -26.55088 -27.01282 -27.13799 -27.41564
24000 9 -25.59106 -25.17497 -26.15201 -24.65868 -25.75086 -25.54218 -26.21845 -26.00559 -26.72477 -25.19101 -25.75664 -25.65269 -25.23577 -26.24303 -24.55725 -24.95942 -24.87859 -25.45144 -26.84837 -23.42878 -27.24989 -26.53849 -26.66948 -28.17405 -26.08939 -26.44748 -26.92444 -26.90338 -27.30463 -27.40622 -27.02528 -26.34150 -27.79130 -25.67620 -26.00210 -26.68716 -26.90373 -27.97911 -24.07305 -27.48199 -26.57294 -27.03347 -27.15717 -27.43343
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5000 10 -25.15640 -24.76631 -25.75931 -24.26454 -25.43613 -24.71255 -26.01397 -25.29913 -26.53522 -24.54915 -25.74362 -25.08405 -24.89758 -26.18443 -24.14922 -24.66456 -24.69615 -25.38976 -26.41371 -22.55869 -26.85719 -25.70885 -26.26082 -27.78135 -25.37816 -25.85262 -26.71997 -26.19692 -26.86997 -27.21667 -26.71055 -25.69964 -27.47658 -25.02038 -25.50568 -26.11852 -26.49507 -27.43407 -23.31269 -26.52594 -26.55991 -26.97486 -26.23639 -26.73410
6000 10 -25.26807 -24.83838 -25.87281 -24.26331 -25.52608 -24.83855 -26.05658 -25.41849 -26.59567 -24.65896 -25.66906 -25.18307 -24.93602 -26.14953 -24.21965 -24.69989 -24.47789 -25.19712 -26.52538 -22.49576 -26.97068 -25.83486 -26.33289 -27.89484 -25.50892 -25.97703 -26.76258 -26.31628 -26.98164 -27.27711 -26.80050 -25.80945 -27.56653 -25.14773 -25.62350 -26.21754 -26.56714 -27.56921 -23.21442 -26.67288 -26.48536 -26.93997 -26.38389 -26.87591
7000 10 -25.33588 -24.85806 -25.94127 -24.21510 -25.56573 -24.92286 -26.03202 -25.49314 -26.59703 -24.72208 -25.54205 -25.22970 -24.91613 -26.05124 -24.22319 -24.66450 -24.32433 -25.03540 -26.59319 -22.44567 -27.03914 -25.91917 -26.35257 -27.96330 -25.59809 -26.05696 -26.73801 -26.39094 -27.04945 -27.27848 -26.84015 -25.87257 -27.60618 -25.22928 -25.68984 -26.26416 -26.58683 -27.66480 -23.13627 -26.78671 -26.35835 -26.84167 -26.49846 -26.98252
8000 10 -25.37151 -24.85146 -25.97556 -24.16816 -25.57248 -24.97481 -25.98018 -25.53356 -26.56739 -24.75175 -25.43357 -25.24171 -24.87987 -25.95659 -24.19908 -24.61286 -24.23825 -24.93413 -26.62882 -22.44723 -27.07344 -25.97111 -26.34597 -27.99760 -25.65459 -26.10230 -26.68618 -26.43135 -27.08507 -27.24883 -26.84690 -25.90224 -27.61292 -25.27615 -25.71884 -26.27617 -26.58022 -27.72908 -23.11729 -26.87508 -26.24987 -26.74702 -26.58779 -27.06098
9000 10 -25.39193 -24.84491 -25.99334 -24.14593 -25.56979 -25.00849 -25.93775 -25.55670 -26.53875 -24.76733 -25.36828 -25.24343 -24.85635 -25.89659 -24.18005 -24.57884 -24.20904 -24.88928 -26.64924 -22.48879 -27.09122 -26.00479 -26.33942 -28.01538 -25.69203 -26.12938 -26.64374 -26.45449 -27.10549 -27.22019 -26.84421 -25.91782 -27.61024 -25.30548 -25.73255 -26.27789 -26.57367 -27.77376 -23.14330 -26.94535 -26.18458 -26.68702 -26.65916 -27.12016
10000 10 -25.41057 -24.85071 -26.00912 -24.15053 -25.57277 -25.03655 -25.91811 -25.57686 -26.52628 -24.78324 -25.34317 -25.25052 -24.85409 -25.87287 -24.17871 -24.57062 -24.22109 -24.88689 -26.66788 -22.55783 -27.10700 -26.03286 -26.34522 -28.03116 -25.72291 -26.15238 -26.62411 -26.47466 -27.12414 -27.20773 -26.84719 -25.93373 -27.61321 -25.33140 -25.74721 -26.28498 -26.57947 -27.81002 -23.20027 -27.00450 -26.15947 -26.66331 -26.71939 -27.16905
11000 10 -25.43315 -24.86864 -26.02881 -24.17632 -25.58485 -25.06491 -25.91926 -25.59991 -26.52982 -24.80316 -25.34664 -25.26574 -24.86917 -25.87577 -24.19004 -24.57887 -24.25758 -24.91056 -26.69046 -22.62971 -27.12668 -26.06121 -26.36315 -28.05084 -25.75344 -26.17731 -26.62525 -26.49770 -27.14671 -27.21127 -26.85927 -25.95365 -27.62530 -25.35938 -25.76736 -26.30021 -26.59741 -27.84425 -23.26527 -27.05730 -26.16294 -26.66620 -26.77315 -27.21344
12000 10 -25.46004 -24.89600 -26.05344 -24.21415 -25.60523 -25.09560 -25.93531 -25.62730 -26.54616 -24.82873 -25.36829 -25.28922 -24.89640 -25.89622 -24.21365 -24.60190 -24.30884 -24.95053 -26.71735 -22.71066 -27.15131 -26.09191 -26.39051 -28.07547 -25.78582 -26.20603 -26.64130 -26.52509 -27.17360 -27.22761 -26.87965 -25.97922 -27.64567 -25.39110 -25.79409 -26.32369 -26.62476 -27.87876 -23.34084 -27.10628 -26.18459 -26.68666 -26.82294 -27.25596
13000 10 -25.48977 -24.92874 -26.08153 -24.25791 -25.63095 -25.12805 -25.96038 -25.65775 -26.57048 -24.85809 -25.40010 -25.31803 -24.93037 -25.92665 -24.24450 -24.63346 -24.36692 -24.99865 -26.74708 -22.79382 -27.17941 -26.12435 -26.42325 -28.10356 -25.81963 -26.23749 -26.66637 -26.55554 -27.20334 -27.25193 -26.90537 -26.00858 -27.67139 -25.42537 -25.82522 -26.35249 -26.65750 -27.91359 -23.41975 -27.15241 -26.21640 -26.71708 -26.86975 -27.29723
14000 10 -25.52082 -24.96391 -26.11146 -24.30372 -25.65953 -25.16121 -25.99028 -25.68977 -26.59916 -24.88940 -25.43691 -25.34967 -24.96741 -25.96210 -24.27899 -24.66932 -24.42704 -25.04997 -26.77813 -22.87526 -27.20933 -26.15752 -26.45842 -28.13349 -25.85395 -26.27033 -26.69627 -26.58756 -27.23438 -27.28060 -26.93395 -26.03989 -27.69998 -25.46075 -25.85865 -26.38413 -26.69267 -27.94820 -23.49787 -27.19606 -26.25321 -26.75254 -26.91397 -27.33720
15000 10 -25.55207 -24.99966 -26.14200 -24.34934 -25.68929 -25.19428 -26.02239 -25.72221 -26.62985 -24.92136 -25.47566 -25.38244 -25.00530 -25.99960 -24.31486 -24.70688 -24.48655 -25.10166 -26.80938 -22.95306 -27.23988 -26.19058 -26.49417 -28.16404 -25.88802 -26.30347 -26.72838 -26.62001 -27.26564 -27.31130 -26.96371 -26.07185 -27.72974 -25.49621 -25.89288 -26.41690 -26.72843 -27.98206 -23.57306 -27.23738 -26.29196 -26.79004 -26.95580 -27.37569
16000 10 -25.58283 -25.03492 -26.17238 -24.39360 -25.71918 -25.22670 -26.05512 -25.75436 -26.66112 -24.95313 -25.51461 -25.41528 -25.04279 -26.03742 -24.35077 -24.74462 -24.54406 -25.15218 -26.84014 -23.02638 -27.27025 -26.22300 -26.52943 -28.19441 -25.92134 -26.33623 -26.76111 -26.65215 -27.29639 -27.34257 -26.99360 -26.10362 -27.75963 -25.53104 -25.92698 -26.44974 -26.76368 -28.01484 -23.64437 -27.27650 -26.33091 -26.82785 -26.99537 -27.41258
17000 10 -25.61268 -25.06909 -26.20210 -24.43591 -25.74859 -25.25815 -26.08754 -25.78575 -26.69214 -24.98420 -25.55276 -25.44757 -25.07919 -26.07459 -24.38596 -24.78169 -24.59890 -25.20078 -26.87000 -23.09501 -27.29998 -26.25446 -26.56360 -28.22414 -25.95363 -26.36819 -26.79353 -26.68354 -27.32625 -27.37359 -27.02301 -26.13469 -27.78904 -25.56487 -25.96039 -26.48204 -26.79785 -28.04634 -23.71147 -27.31355 -26.36906 -26.86502 -27.03281 -27.44782
18000 10 -25.64141 -25.10161 -26.23082 -24.47604 -25.77705 -25.28833 -26.11880 -25.81601 -26.72209 -25.01402 -25.58945 -25.47866 -25.11387 -26.11015 -24.41951 -24.81697 -24.65029 -25.24657 -26.89872 -23.15777 -27.32869 -26.28463 -26.59612 -28.25285 -25.98463 -26.39898 -26.82479 -26.71380 -27.35497 -27.40353 -27.05147 -26.16451 -27.81749 -25.59740 -25.99254 -26.51313 -26.83038 -28.07648 -23.77352 -27.34865 -26.40575 -26.90058 -27.06828 -27.48144
19000 10 -25.66883 -25.13172 -26.25814 -24.51389 -25.80410 -25.31681 -26.14778 -25.84464 -26.74993 -25.04174 -25.62408 -25.50770 -25.14602 -26.14280 -24.44999 -24.84874 -24.69682 -25.28821 -26.92614 -23.21208 -27.35601 -26.31311 -26.62623 -28.28017 -26.01409 -26.42818 -26.85377 -26.74243 -27.38239 -27.43137 -27.07853 -26.19223 -27.84455 -25.62837 -26.02271 -26.54216 -26.86048 -28.10526 -23.82884 -27.38195 -26.44038 -26.93323 -27.10193 -27.51350
20000 10 -25.69504 -25.16041 -26.28442 -24.54958 -25.83015 -25.34412 -26.17563 -25.87218 -26.77677 -25.06843 -25.65708 -25.53570 -25.17674 -26.17407 -24.47932 -24.87941 -24.74066 -25.32769 -26.95235 -23.26305 -27.38229 -26.34042 -26.65492 -28.30645 -26.04233 -26.45625 -26.88162 -26.76998 -27.40861 -27.45822 -27.10457 -26.21892 -27.87060 -25.65806 -26.05175 -26.57017 -26.88917 -28.13271 -23.88089 -27.41358 -26.47338 -26.96450 -27.13387 -27.54405
21000 10 -25.72010 -25.18774 -26.30966 -24.58326 -25.85518 -25.37030 -26.20233 -25.89865 -26.80257 -25.09408 -25.68848 -25.56267 -25.20606 -26.20394 -24.50750 -24.90893 -24.78197 -25.36510 -26.97741 -23.31092 -27.40754 -26.36661 -26.68225 -28.33169 -26.06938 -26.48321 -26.90832 -26.79644 -27.43366 -27.48402 -27.12960 -26.24457 -27.89563 -25.68650 -26.07966 -26.59714 -26.91650 -28.15889 -23.92988 -27.44366 -26.50478 -26.99438 -27.16425 -27.57319
22000 10 -25.74403 -25.21376 -26.33389 -24.61505 -25.87920 -25.39540 -26.22786 -25.92406 -26.82734 -25.11873 -25.71831 -25.58861 -25.23403 -26.23245 -24.53453 -24.93730 -24.82090 -25.40054 -27.00134 -23.35591 -27.43176 -26.39170 -26.70827 -28.35592 -26.09530 -26.50910 -26.93386 -26.82185 -27.45760 -27.50878 -27.15362 -26.26922 -27.91965 -25.71373 -26.10648 -26.62307 -26.94252 -28.18387 -23.97603 -27.47231 -26.53461 -27.02288 -27.19319 -27.60101
23000 10 -25.76692 -25.23856 -26.35715 -24.64511 -25.90226 -25.41947 -26.25228 -25.94847 -26.85108 -25.14242 -25.74665 -25.61355 -25.26073 -26.25964 -24.56045 -24.96454 -24.85765 -25.43415 -27.02423 -23.39827 -27.45502 -26.41577 -26.73307 -28.37918 -26.12014 -26.53395 -26.95827 -26.84626 -27.48048 -27.53253 -27.17668 -26.29291 -27.94271 -25.73983 -26.13223 -26.64802 -26.96732 -28.20773 -24.01959 -27.49965 -26.56295 -27.05007 -27.22080 -27.62759
24000 10 -25.78881 -25.26220 -26.37947 -24.67356 -25.92439 -25.44256 -26.27562 -25.97192 -26.87384 -25.16518 -25.77358 -25.63754 -25.28623 -26.28557 -24.58531 -24.99070 -24.89237 -25.46604 -27.04612 -23.43820 -27.47735 -26.43887 -26.75671 -28.40151 -26.14397 -26.55782 -26.98161 -26.86971 -27.50237 -27.55529 -27.19881 -26.31567 -27.96484 -25.76484 -26.15697 -26.67201 -26.99096 -28.23053 -24.06074 -27.52577 -26.58988 -27.07601 -27.24719 -27.65302
25000 10 -25.80977 -25.28477 -26.40093 -24.70056 -25.94566 -25.46475 -26.29794 -25.99446 -26.89568 -25.18708 -25.79919 -25.66063 -25.31061 -26.31033 -24.60916 -25.01584 -24.92523 -25.49635 -27.06708 -23.47592 -27.49880 -26.46106 -26.77928 -28.42296 -26.16685 -26.58077 -27.00393 -26.89226 -27.52333 -27.57712 -27.22008 -26.33757 -27.98610 -25.78884 -26.18075 -26.69510 -27.01354 -28.25236 -24.09969 -27.55077 -26.61549 -27.10076 -27.27244 -27.67739
5000 11 -24.91898 -24.64305 -25.46050 -24.10078 -25.22997 -24.29141 -25.58235 -24.94458 -26.24010 -24.11187 -25.33140 -24.68036 -24.85201 -25.82863 -23.90193 -24.37491 -24.48873 -25.19536 -26.17629 -22.31988 -26.55838 -25.28772 -26.13756 -27.48254 -25.03475 -25.54309 -26.28834 -25.84237 -26.63254 -26.92155 -26.50439 -25.26236 -27.27042 -24.77312 -25.23319 -25.71482 -26.37181 -27.23731 -23.08429 -26.41200 -26.14770 -26.61906 -26.13293 -26.62313
6000 11 -25.08967 -24.78848 -25.62506 -24.13697 -25.38355 -24.46623 -25.71560 -25.11133 -26.37039 -24.27251 -25.37616 -24.83750 -24.91815 -25.91622 -23.99328 -24.43977 -24.28676 -25.02051 -26.34699 -22.28675 -26.72293 -25.46254 -26.28299 -27.64709 -25.21034 -25.71104 -26.42159 -26.00912 -26.80324 -27.05184 -26.65797 -25.42300 -27.42400 -24.93792 -25.39401 -25.87196 -26.51724 -27.40411 -23.01634 -26.57152 -26.19246 -26.70665 -26.29260 -26.78019
7000 11 -25.21572 -24.87246 -25.74594 -24.11887 -25.47980 -24.59792 -25.79913 -25.23457 -26.45399 -24.38008 -25.34340 -24.93798 -24.91546 -25.92376 -24.01274 -24.43003 -24.15752 -24.88352 -26.47304 -22.26664 -26.84381 -25.59423 -26.36697 -27.76797 -25.34307 -25.83581 -26.50512 -26.13237 -26.92929 -27.13544 -26.75422 -25.53057 -27.52025 -25.05172 -25.50017 -25.97245 -26.60123 -27.53438 -22.97011 -26.69952 -26.15970 -26.71419 -26.42080 -26.90564
8000 11 -25.31016 -24.92211 -25.83574 -24.10418 -25.53926 -24.69897 -25.85069 -25.32689 -26.50681 -24.45243 -25.30442 -25.00171 -24.90047 -25.90960 -24.01094 -24.40870 -24.10368 -24.81532 -26.56747 -22.30269 -26.93362 -25.69528 -26.41662 -27.85778 -25.44539 -25.92987 -26.55668 -26.22468 -27.02373 -27.18825 -26.81369 -25.60292 -27.57971 -25.13105 -25.57018 -26.03617 -26.65087 -27.63867 -22.98746 -26.80536 -26.12072 -26.70003 -26.52688 -27.00864
9000 11 -25.38601 -24.96378 -25.90770 -24.11662 -25.58517 -24.78100 -25.89171 -25.40118 -26.54857 -24.50934 -25.29406 -25.05125 -24.90436 -25.91154 -24.02102 -24.40899 -24.11060 -24.80763 -26.64332 -22.38117 -27.00557 -25.77730 -26.45829 -27.92973 -25.52868 -26.00584 -26.59771 -26.29897 -27.09958 -27.23002 -26.85959 -25.65983 -27.62561 -25.19397 -25.62507 -26.08572 -26.69254 -27.72554 -23.05221 -26.89550 -26.11036 -26.70197 -26.61728 -27.09598
10000 11 -25.45262 -25.00939 -25.97132 -24.15400 -25.63069 -24.85251 -25.93415 -25.46674 -26.59084 -24.56285 -25.31321 -25.09969 -24.93072 -25.93621 -24.04988 -24.43405 -24.15702 -24.84073 -26.70993 -22.48468 -27.06919 -25.84882 -26.50390 -27.99335 -25.60130 -26.07279 -26.64014 -26.36453 -27.16618 -27.27229 -26.90511 -25.71334 -27.67114 -25.25191 -25.67746 -26.13416 -26.73815 -27.80126 -23.14551 -26.97445 -26.12951 -26.72664 -26.69648 -27.17253
11000 11 -25.51395 -25.05884 -26.03029 -24.20733 -25.67763 -24.91745 -25.97954 -25.52728 -26.63510 -24.61514 -25.35135 -25.14886 -24.96993 -25.97602 -24.08865 -24.47089 -24.22280 -24.89468 -26.77126 -22.58586 -27.12817 -25.91376 -26.55335 -28.05233 -25.66717 -26.13443 -26.68553 -26.42507 -27.22752 -27.31655 -26.95205 -25.76563 -27.71808 -25.30743 -25.73008 -26.18333 -26.78760 -27.86930 -23.24212 -27.04503 -26.16765 -26.76646 -26.76727 -27.24123
12000 11 -25.57155 -25.11046 -26.08618 -24.26700 -25.72602 -24.97771 -26.02700 -25.58441 -26.68114 -24.66710 -25.39949 -25.19912 -25.01707 -26.02439 -24.13476 -24.51706 -24.29741 -24.95903 -26.82886 -22.68995 -27.18405 -25.97401 -26.60497 -28.10821 -25.72817 -26.19242 -26.73299 -26.48221 -27.28512 -27.36259 -27.00044 -25.81759 -27.76647 -25.36173 -25.78309 -26.23358 -26.83922 -27.93150 -23.34319 -27.10901 -26.21579 -26.81482 -26.83141 -27.30378
13000 11 -25.62564 -25.16178 -26.13904 -24.32760 -25.77413 -25.03384 -26.07455 -25.63830 -26.72721 -24.71767 -25.45133 -25.24886 -25.06690 -26.07586 -24.18345 -24.56687 -24.37359 -25.02633 -26.88295 -22.79088 -27.23691 -26.03014 -26.65629 -28.16107 -25.78493 -26.24701 -26.78054 -26.53609 -27.33921 -27.40865 -27.04855 -25.86816 -27.81458 -25.41409 -25.83515 -26.28333 -26.89054 -27.98880 -23.44227 -27.16752 -26.26763 -26.86629 -26.89007 -27.36120
14000 11 -25.67630 -25.21131 -26.18882 -24.38630 -25.82078 -25.08615 -26.12087 -25.68895 -26.77210 -24.76606 -25.50336 -25.29699 -25.11650 -26.12731 -24.23195 -24.61709 -24.44767 -25.09270 -26.93361 -22.88590 -27.28669 -26.08246 -26.70582 -28.21085 -25.83778 -26.29825 -26.82686 -26.58674 -27.38987 -27.45355 -27.09520 -25.91655 -27.86122 -25.46395 -25.88528 -26.33146 -26.94008 -28.04180 -23.53638 -27.22139 -26.31966 -26.91775 -26.94405 -27.41423
15000 11 -25.72368 -25.25836 -26.23558 -24.44187 -25.86535 -25.13494 -26.16526 -25.73648 -26.81518 -24.81194 -25.55379 -25.34295 -25.16440 -26.17718 -24.27889 -24.66608 -24.51801 -25.15632 -26.98100 -22.97413 -27.33345 -26.13125 -26.75287 -28.25761 -25.88705 -26.34630 -26.87125 -26.63427 -27.43725 -27.49662 -27.13977 -25.96243 -27.90579 -25.51108 -25.93304 -26.37742 -26.98712 -28.09100 -23.62441 -27.27125 -26.37009 -26.96761 -26.99402 -27.46342
16000 11 -25.76800 -25.30269 -26.27947 -24.49390 -25.90760 -25.18052 -26.20744 -25.78106 -26.85617 -24.85523 -25.60184 -25.38653 -25.20998 -26.22473 -24.32365 -24.71307 -24.58401 -25.21644 -27.02531 -23.05554 -27.37735 -26.17683 -26.79720 -28.30151 -25.93307 -26.39134 -26.91343 -26.67885 -27.48157 -27.53762 -27.18202 -26.00572 -27.94805 -25.55549 -25.97826 -26.42100 -27.03145 -28.13683 -23.70620 -27.31764 -26.41814 -27.01516 -27.04050 -27.50925
17000 11 -25.80951 -25.34430 -26.32070 -24.54237 -25.94753 -25.22319 -26.24736 -25.82292 -26.89502 -24.89598 -25.64720 -25.42772 -25.25302 -26.26971 -24.36602 -24.75775 -24.64562 -25.27289 -27.06682 -23.13053 -27.41858 -26.21949 -26.83881 -28.34274 -25.97614 -26.43363 -26.95335 -26.72071 -27.52307 -27.57647 -27.22195 -26.04647 -27.98798 -25.59728 -26.02097 -26.46219 -27.07306 -28.17965 -23.78201 -27.36097 -26.46350 -27.06014 -27.08392 -27.55212
18000 11 -25.84839 -25.38314 -26.35940 -24.58746 -25.98495 -25.26315 -26.28487 -25.86220 -26.93160 -24.93421 -25.68972 -25.46630 -25.29315 -26.31174 -24.40555 -24.79940 -24.70248 -25.32524 -27.10570 -23.19844 -27.45727 -26.25946 -26.87765 -28.38143 -26.01649 -26.47330 -26.99086 -26.75999 -27.56195 -27.61305 -27.25937 -26.08470 -28.02540 -25.63659 -26.06085 -26.50076 -27.11190 -28.21979 -23.85154 -27.40161 -26.50602 -27.10218 -27.12464 -27.59235
19000 11 -25.88474 -25.41893 -26.39557 -24.62934 -26.01943 -25.30051 -26.31966 -25.89892 -26.96559 -24.96973 -25.72924 -25.50163 -25.32958 -26.35014 -24.44127 -24.83659 -24.75358 -25.37261 -27.14205 -23.25713 -27.49345 -26.29682 -26.91344 -28.41761 -26.05426 -26.51043 -27.02565 -26.79671 -27.59830 -27.64703 -27.29385 -26.12022 -28.05987 -25.67355 -26.09695 -26.53610 -27.14769 -28.25749 -23.91374 -27.43985 -26.54554 -27.14058 -27.16296 -27.63023
20000 11 -25.91899 -25.45257 -26.42975 -24.66837 -26.05205 -25.33575 -26.35256 -25.93360 -26.99779 -25.00326 -25.76630 -25.53510 -25.36398 -26.38632 -24.47504 -24.87195 -24.80118 -25.41702 -27.17630 -23.31171 -27.52762 -26.33205 -26.94708 -28.45178 -26.08988 -26.54549 -27.05855 -26.83139 -27.63256 -27.67924 -27.32647 -26.15375 -28.09249 -25.70847 -26.13114 -26.56957 -27.18133 -28.29304 -23.97180 -27.47596 -26.58260 -27.17675 -27.19913 -27.66600
21000 11 -25.95135 -25.48425 -26.46209 -24.70483 -26.08297 -25.36906 -26.38371 -25.96644 -27.02835 -25.03499 -25.80110 -25.56686 -25.39649 -26.42044 -24.50702 -24.90558 -24.84561 -25.45870 -27.20866 -23.36256 -27.55997 -26.36536 -26.97876 -28.48413 -26.12357 -26.57869 -27.08970 -26.86423 -27.66492 -27.70979 -27.35739 -26.18548 -28.12341 -25.74151 -26.16358 -26.60133 -27.21301 -28.32666 -24.02612 -27.51014 -26.61740 -27.21087 -27.23339 -27.69988
22000 11 -25.98199 -25.51413 -26.49278 -24.73897 -26.11232 -25.40063 -26.41325 -25.99759 -27.05738 -25.06505 -25.83382 -25.59704 -25.42728 -26.45266 -24.53733 -24.93758 -24.88717 -25.49789 -27.23930 -23.41006 -27.59066 -26.39693 -27.00864 -28.51482 -26.15550 -26.61019 -27.11925 -26.89539 -27.69556 -27.73883 -27.38674 -26.21554 -28.15277 -25.77286 -26.19440 -26.63151 -27.24290 -28.35854 -24.07703 -27.54260 -26.65012 -27.24309 -27.26592 -27.73206
23000 11 -26.01107 -25.54240 -26.52196 -24.77103 -26.14024 -25.43061 -26.44133 -26.02722 -27.08502 -25.09361 -25.86464 -25.62578 -25.45647 -26.48313 -24.56611 -24.96807 -24.92613 -25.53480 -27.26838 -23.45452 -27.61983 -26.42692 -27.03691 -28.54399 -26.18583 -26.64015 -27.14732 -26.92501 -27.72464 -27.76646 -27.41466 -26.24410 -28.18069 -25.80264 -26.22375 -26.66024 -27.27116 -28.38883 -24.12486 -27.57350 -26.68094 -27.27357 -27.29688 -27.76270
24000 11 -26.03872 -25.56917 -26.54974 -24.80120 -26.16683 -25.45915 -26.46803 -26.05543 -27.11135 -25.12079 -25.89371 -25.65318 -25.48418 -26.51199 -24.59348 -24.99715 -24.96272 -25.56963 -27.29603 -23.49624 -27.64762 -26.45546 -27.06368 -28.57178 -26.21471 -26.66869 -27.17402 -26.95322 -27.75229 -27.79280 -27.44125 -26.27128 -28.20728 -25.83100 -26.25174 -26.68764 -27.29794 -28.41768 -24.16988 -27.60296 -26.71001 -27.30242 -27.32640 -27.79191
25000 11 -26.06506 -25.59460 -26.57626 -24.82967 -26.19220 -25.48637 -26.49348 -26.08236 -27.13649 -25.14669 -25.92119 -25.67934 -25.51056 -26.53937 -24.61955 -25.02493 -24.99717 -25.60255 -27.32237 -23.53548 -27.67413 -26.48268 -27.08911 -28.59829 -26.24226 -26.69592 -27.19948 -26.98015 -27.77863 -27.81794 -27.46662 -26.29718 -28.23265 -25.85805 -26.27848 -26.71381 -27.32336 -28.44520 -24.21236 -27.63112 -26.73748 -27.32981 -27.35462 -27.81983
5000 12 -24.74867 -24.31870 -25.27337 -24.04062 -24.82931 -24.10908 -25.25202 -24.75636 -25.93637 -23.64974 -24.71623 -24.24400 -24.70905 -25.36669 -23.48598 -23.98084 -24.19643 -24.92569 -26.00598 -22.02949 -26.37125 -25.10538 -25.81321 -27.29541 -24.86631 -25.36558 -25.95801 -25.65415 -26.46223 -26.61782 -26.10373 -24.80023 -26.86975 -24.36732 -24.83118 -25.27847 -26.04746 -27.16562 -22.91067 -26.38509 -25.53253 -26.15712 -26.10778 -26.58949
6000 12 -24.94561 -24.54382 -25.46389 -24.14459 -25.05273 -24.30656 -25.43978 -24.94813 -26.11714 -23.87370 -24.92765 -24.46864 -24.80434 -25.58736 -23.60906 -24.08168 -24.06165 -24.86281 -26.20292 -22.05474 -26.56176 -25.30287 -26.03833 -27.48592 -25.06406 -25.55783 -26.14578 -25.84592 -26.65918 -26.79859 -26.32715 -25.02419 -27.09318 -24.59152 -25.05603 -25.50311 -26.27258 -27.34303 -22.90445 -26.54842 -25.74395 -26.37780 -26.27116 -26.75182
7000 12 -25.09887 -24.71038 -25.61186 -24.18701 -25.21924 -24.46092 -25.58245 -25.09728 -26.25428 -24.04235 -25.06947 -24.63629 -24.82709 -25.74207 -23.66266 -24.10783 -23.99461 -24.81191 -26.35618 -22.09562 -26.70974 -25.45722 -26.20489 -27.63390 -25.21873 -25.70752 -26.28845 -25.99507 -26.81243 -26.93573 -26.49366 -25.19284 -27.25968 -24.76086 -25.22429 -25.67076 -26.43915 -27.48432 -22.93193 -26.68037 -25.88577 -26.53250 -26.40317 -26.88290
8000 12 -25.22325 -24.84089 -25.73185 -24.23386 -25.34978 -24.58662 -25.69649 -25.21835 -26.36379 -24.17581 -25.17709 -24.76787 -24.85315 -25.86007 -23.70841 -24.13565 -24.00626 -24.82298 -26.48056 -22.19611 -26.82972 -25.58293 -26.33540 -27.75388 -25.34479 -25.82915 -26.40248 -26.11615 -26.93681 -27.04524 -26.62420 -25.32630 -27.39023 -24.89518 -25.35671 -25.80234 -26.56965 -27.60118 -23.02490 -26.79077 -25.99339 -26.65051 -26.51362 -26.99251
9000 12 -25.32884 -24.95160 -25.83406 -24.30258 -25.45989 -24.69330 -25.79432 -25.32147 -26.45797 -24.28850 -25.27429 -24.87885 -24.90477 -25.96260 -23.76960 -24.18830 -24.07327 -24.88465 -26.58615 -22.33343 -26.93193 -25.68960 -26.44611 -27.85609 -25.45178 -25.93274 -26.50031 -26.21926 -27.04241 -27.13942 -26.73432 -25.43898 -27.50034 -25.00864 -25.46846 -25.91331 -26.68036 -27.70108 -23.15875 -26.88569 -26.09059 -26.75303 -26.60859 -27.08682
10000 12 -25.42138 -25.05010 -25.92413 -24.38488 -25.55735 -24.78653 -25.88197 -25.41224 -26.54274 -24.38777 -25.36751 -24.97699 -24.97433 -26.05740 -23.84265 -24.25867 -24.16757 -24.97263 -26.67869 -22.48338 -27.02201 -25.78284 -26.54461 -27.94617 -25.54526 -26.02386 -26.58796 -26.31003 -27.13495 -27.22419 -26.83177 -25.53826 -27.59780 -25.10850 -25.56722 -26.01146 -26.77886 -27.78858 -23.30820 -26.96900 -26.18380 -26.84783 -26.69194 -27.16970
11000 12 -25.50368 -25.13844 -26.00458 -24.46995 -25.64463 -24.86927 -25.96119 -25.49321 -26.61959 -24.47603 -25.45555 -25.06488 -25.04544 -26.14472 -23.91665 -24.32963 -24.26925 -25.06739 -26.76099 -22.62030 -27.10245 -25.86558 -26.63295 -28.02661 -25.62819 -26.10512 -26.66718 -26.39100 -27.21724 -27.30104 -26.91905 -25.62652 -27.68507 -25.19712 -25.65600 -26.09935 -26.86720 -27.86637 -23.45251 -27.04319 -26.27185 -26.93516 -26.76615 -27.24359
12000 12 -25.57777 -25.21850 -26.07729 -24.55227 -25.72377 -24.94362 -26.03350 -25.56634 -26.68997 -24.55566 -25.53768 -25.14456 -25.11771 -26.22543 -23.98924 -24.40194 -24.36967 -25.16193 -26.83508 -22.74981 -27.17516 -25.93993 -26.71301 -28.09932 -25.70269 -26.17845 -26.73949 -26.46413 -27.29133 -27.37142 -26.99819 -25.70615 -27.76422 -25.27700 -25.73648 -26.17902 -26.94727 -27.93637 -23.59037 -27.11004 -26.35398 -27.01586 -26.83302 -27.31022
13000 12 -25.64497 -25.29124 -26.14342 -24.62910 -25.79578 -25.01099 -26.09964 -25.63280 -26.75452 -24.62786 -25.61338 -25.21704 -25.18748 -26.29959 -24.05777 -24.47191 -24.46440 -25.25182 -26.90228 -22.86874 -27.24129 -26.00729 -26.78574 -28.16545 -25.77018 -26.24510 -26.80564 -26.53060 -27.35853 -27.43597 -27.07020 -25.77835 -27.83623 -25.34941 -25.80970 -26.25150 -27.02000 -27.99992 -23.71831 -27.17083 -26.42968 -27.09002 -26.89382 -27.37086
14000 12 -25.70631 -25.35752 -26.20392 -24.69971 -25.86156 -25.07245 -26.16034 -25.69358 -26.81388 -24.69363 -25.68283 -25.28324 -25.25326 -26.36763 -24.12139 -24.53803 -24.55197 -25.33548 -26.96362 -22.97663 -27.30179 -26.06876 -26.85203 -28.22595 -25.83175 -26.30602 -26.86634 -26.59137 -27.41988 -27.49532 -27.13598 -25.84412 -27.90201 -25.41537 -25.87657 -26.31770 -27.08628 -28.05804 -23.83563 -27.22654 -26.49913 -27.15807 -26.94955 -27.42645
15000 12 -25.76265 -25.41819 -26.25957 -24.76425 -25.92191 -25.12889 -26.21627 -25.74947 -26.86865 -24.75388 -25.74655 -25.34397 -25.31467 -26.43017 -24.18009 -24.59989 -24.63229 -25.41269 -27.01996 -23.07420 -27.35744 -26.12519 -26.91269 -28.28160 -25.88828 -26.36204 -26.92226 -26.64726 -27.47622 -27.55010 -27.19633 -25.90437 -27.96236 -25.47578 -25.93792 -26.37844 -27.14695 -28.11154 -23.94282 -27.27794 -26.56285 -27.22060 -27.00096 -27.47776
16000 12 -25.81469 -25.47397 -26.31102 -24.82325 -25.97753 -25.18101 -26.26800 -25.80114 -26.91939 -24.80933 -25.80514 -25.39996 -25.37178 -26.48780 -24.23421 -24.65754 -24.70583 -25.48376 -27.07200 -23.16251 -27.40890 -26.17732 -26.96848 -28.33305 -25.94049 -26.41383 -26.97400 -26.69893 -27.52825 -27.60083 -27.25196 -25.95982 -28.01798 -25.53140 -25.99449 -26.43443 -27.20273 -28.16108 -24.04078 -27.32564 -26.62144 -27.27823 -27.04866 -27.52538
17000 12 -25.86298 -25.52551 -26.35883 -24.87730 -26.02904 -25.22940 -26.31607 -25.84914 -26.96658 -24.86063 -25.85917 -25.45180 -25.42488 -26.54110 -24.28418 -24.71124 -24.77321 -25.54921 -27.12029 -23.24267 -27.45670 -26.22571 -27.02002 -28.38086 -25.98896 -26.46194 -27.02206 -26.74693 -27.57655 -27.64803 -27.30346 -26.01112 -28.06948 -25.58287 -26.04688 -26.48627 -27.25427 -28.20719 -24.13048 -27.37012 -26.67547 -27.33153 -27.09315 -27.56980
18000 12 -25.90799 -25.57330 -26.40341 -24.92680 -26.07673 -25.27451 -26.36085 -25.89390 -27.01059 -24.90829 -25.90916 -25.49979 -25.47383 -26.59044 -24.33003 -24.76075 -24.83460 -25.60927 -27.16530 -23.31475 -27.50128 -26.27081 -27.06781 -28.42544 -26.03415 -26.50681 -27.06685 -26.79169 -27.62155 -27.69204 -27.35115 -26.05878 -28.11718 -25.63075 -26.09529 -26.53426 -27.30206 -28.25029 -24.21269 -27.41179 -26.72546 -27.38087 -27.13483 -27.61140
19000 12 -25.95006 -25.61773 -26.44510 -24.97184 -26.12062 -25.31669 -26.40262 -25.93576 -27.05167 -24.95278 -25.95549 -25.54385 -25.51793 -26.63595 -24.37118 -24.80521 -24.88940 -25.66381 -27.20737 -23.37753 -27.54298 -26.31300 -27.11224 -28.46714 -26.07642 -26.54879 -27.10861 -26.83355 -27.66362 -27.73312 -27.39504 -26.10327 -28.16106 -25.67559 -26.13947 -26.57832 -27.34649 -28.29073 -24.28794 -27.45097 -26.77179 -27.42639 -27.17402 -27.65053
20000 12 -25.98959 -25.65927 -26.48431 -25.01354 -26.16178 -25.35634 -26.44186 -25.97512 -27.09030 -24.99443 -25.99866 -25.58519 -25.55935 -26.67853 -24.40954 -24.84704 -24.93994 -25.71447 -27.24690 -23.43540 -27.58218 -26.35265 -27.15378 -28.50634 -26.11615 -26.58826 -27.14785 -26.87292 -27.70316 -27.77174 -27.43620 -26.14492 -28.20223 -25.71759 -26.18092 -26.61966 -27.38804 -28.32883 -24.35768 -27.48794 -26.81496 -27.46896 -27.21100 -27.68746
21000 12 -26.02686 -25.69825 -26.52129 -25.05229 -26.20051 -25.39374 -26.47884 -26.01226 -27.12673 -25.03357 -26.03903 -25.62410 -25.59832 -26.71849 -24.44546 -24.88649 -24.98672 -25.76166 -27.28417 -23.48894 -27.61916 -26.39005 -27.19276 -28.54332 -26.15362 -26.62549 -27.18484 -26.91005 -27.74043 -27.80818 -27.47493 -26.18406 -28.24096 -25.75707 -26.21994 -26.65856 -27.42701 -28.36483 -24.42252 -27.52294 -26.85533 -27.50893 -27.24601 -27.72241
22000 12 -26.06210 -25.73494 -26.55628 -25.08845 -26.23708 -25.42911 -26.51381 -26.04739 -27.16120 -25.07046 -26.07690 -25.66083 -25.63508 -26.75611 -24.47918 -24.92375 -25.03015 -25.80574 -27.31941 -23.53866 -27.65415 -26.42542 -27.22945 -28.57831 -26.18907 -26.66072 -27.21980 -26.94518 -27.77567 -27.84265 -27.51150 -26.22095 -28.27752 -25.79431 -26.25678 -26.69530 -27.46371 -28.39895 -24.48295 -27.55616 -26.89320 -27.54654 -27.27924 -27.75559
23000 12 -26.09552 -25.76958 -26.58947 -25.12230 -26.27168 -25.46267 -26.54695 -26.08071 -27.19389 -25.10535 -26.11254 -25.69561 -25.66981 -26.79162 -24.51094 -24.95902 -25.07062 -25.84702 -27.35283 -23.58498 -27.68734 -26.45897 -27.26409 -28.61150 -26.22270 -26.69414 -27.25294 -26.97850 -27.80909 -27.87534 -27.54610 -26.25583 -28.31213 -25.82953 -26.29167 -26.73007 -27.49835 -28.43138 -24.53944 -27.58778 -26.92883 -27.58205 -27.31086 -27.78716
24000 12 -26.12728 -25.80237 -26.62103 -25.15408 -26.30451 -25.49457 -26.57843 -26.11240 -27.22496 -25.13840 -26.14614 -25.72860 -25.70269 -26.82521 -24.54094 -24.99247 -25.10843 -25.88576 -27.38460 -23.62826 -27.71890 -26.49087 -27.29688 -28.64306 -26.25467 -26.72592 -27.28443 -27.01019 -27.84085 -27.90641 -27.57893 -26.28889 -28.34496 -25.86292 -26.32478 -26.76307 -27.53113 -28.46226 -24.59236 -27.61793 -26.96244 -27.61565 -27.34102 -27.81727
25000 12 -26.15753 -25.83347 -26.65109 -25.18402 -26.33573 -25.52496 -26.60840 -26.14259 -27.25455 -25.16980 -26.17792 -25.75998 -25.73388 -26.85707 -24.56935 -25.02424 -25.14385 -25.92222 -27.41484 -23.66883 -27.74897 -26.52126 -27.32798 -28.67312 -26.28513 -26.75620 -27.31439 -27.04038 -27.87110 -27.93600 -27.61015 -26.32029 -28.37617 -25.89464 -26.35627 -26.79445 -27.56223 -28.49172 -24.64207 -27.64673 -26.99422 -27.64750 -27.36983 -27.84604
5000 13 -24.69580 -24.18020 -25.20890 -23.82972 -24.69278 -24.06254 -25.13455 -24.69389 -25.81977 -23.49485 -24.50355 -24.10345 -24.33301 -25.22113 -23.03201 -23.55200 -23.80288 -24.61963 -25.95311 -21.80474 -26.30677 -25.05885 -25.67471 -27.23093 -24.82232 -25.30603 -25.84055 -25.59168 -26.40937 -26.50122 -25.96721 -24.64534 -26.73323 -24.21935 -24.69446 -25.13791 -25.90896 -27.14574 -23.10831 -26.37858 -25.31985 -26.01156 -26.10164 -26.58039
6000 13 -24.90332 -24.43493 -25.41203 -23.98539 -24.94324 -24.26866 -25.34611 -24.89780 -26.02396 -23.74603 -24.76737 -24.35491 -24.48154 -25.47926 -23.18372 -23.70329 -23.85356 -24.75054 -26.16064 -21.91881 -26.50990 -25.26497 -25.92944 -27.43406 -25.02849 -25.51009 -26.05210 -25.79559 -26.61689 -26.70541 -26.21766 -24.89652 -26.98369 -24.47048 -24.94589 -25.38938 -26.16370 -27.32735 -23.19364 -26.54331 -25.58367 -26.26969 -26.26636 -26.74477
7000 13 -25.06669 -24.63110 -25.57206 -24.10742 -25.13647 -24.43115 -25.51166 -25.05845 -26.18396 -23.93998 -24.96860 -24.54889 -24.59506 -25.67709 -23.30097 -23.81860 -23.93732 -24.86473 -26.32400 -22.08635 -26.66993 -25.42746 -26.12561 -27.59409 -25.19105 -25.67090 -26.21765 -25.95625 -26.78025 -26.86540 -26.41089 -25.09047 -27.17692 -24.66447 -25.13990 -25.58336 -26.35986 -27.47255 -23.36073 -26.67655 -25.78490 -26.46752 -26.39960 -26.87774
8000 13 -25.20131 -24.79081 -25.70431 -24.24249 -25.29377 -24.56504 -25.64835 -25.19116 -26.31651 -24.09787 -25.13371 -24.70675 -24.72309 -25.83846 -23.42987 -23.94780 -24.07481 -25.00612 -26.45862 -22.30712 -26.80218 -25.56135 -26.28532 -27.72634 -25.32499 -25.80372 -26.35434 -26.08895 -26.91488 -26.99796 -26.56819 -25.24836 -27.33422 -24.82240 -25.29780 -25.74122 -26.51957 -27.59332 -23.58391 -26.78822 -25.95001 -26.62889 -26.51127 -26.98924
9000 13 -25.31567 -24.92544 -25.81699 -24.38046 -25.42633 -24.67871 -25.76495 -25.30417 -26.43001 -24.23086 -25.27432 -24.83975 -24.85639 -25.97498 -23.56176 -24.08194 -24.23026 -25.15591 -26.57298 -22.53316 -26.91486 -25.67502 -26.41995 -27.83902 -25.43868 -25.91679 -26.47094 -26.20196 -27.02923 -27.11146 -26.70075 -25.38134 -27.46678 -24.95539 -25.43081 -25.87421 -26.65420 -27.69655 -23.81478 -26.88422 -26.09062 -26.76542 -26.60726 -27.08514
10000 13 -25.41475 -25.04121 -25.91485 -24.50967 -25.54035 -24.77717 -25.86622 -25.40226 -26.52889 -24.34517 -25.39586 -24.95411 -24.98287 -26.09263 -23.68560 -24.20910 -24.38074 -25.29808 -26.67206 -22.74139 -27.01272 -25.77348 -26.53572 -27.93688 -25.53715 -26.01492 -26.57222 -26.30005 -27.12832 -27.21034 -26.81477 -25.49566 -27.58079 -25.06971 -25.54518 -25.98857 -26.76997 -27.78653 -24.02971 -26.96832 -26.21216 -26.88307 -26.69136 -27.16919
11000 13 -25.50188 -25.14211 -26.00101 -24.62473 -25.63986 -24.86377 -25.95529 -25.48861 -26.61602 -24.44482 -25.50192 -25.05392 -25.09497 -26.19529 -23.79566 -24.32162 -24.51830 -25.42548 -26.75919 -22.92256 -27.09889 -25.86008 -26.63662 -28.02305 -25.62375 -26.10130 -26.66128 -26.38640 -27.21545 -27.29747 -26.91428 -25.59531 -27.68031 -25.16934 -25.64506 -26.08839 -26.87087 -27.86613 -24.22534 -27.04308 -26.31822 -26.98572 -26.76611 -27.24391
12000 13 -25.57951 -25.23130 -26.07787 -24.72751 -25.72791 -24.94094 -26.03463 -25.56561 -26.69377 -24.53295 -25.59561 -25.14222 -25.19640 -26.28605 -23.89425 -24.42343 -24.64159 -25.53987 -26.83682 -23.08223 -27.17574 -25.93725 -26.72581 -28.09990 -25.70092 -26.17832 -26.74063 -26.46341 -27.29308 -27.37522 -27.00233 -25.68344 -27.76836 -25.25745 -25.73342 -26.17668 -26.96007 -27.93743 -24.39937 -27.11033 -26.41191 -27.07648 -26.83336 -27.31114
13000 13 -25.64941 -25.31102 -26.14713 -24.81923 -25.80667 -25.01045 -26.10603 -25.63500 -26.76383 -24.61177 -25.67921 -25.22119 -25.28788 -26.36714 -23.98248 -24.51526 -24.75153 -25.64229 -26.90672 -23.22265 -27.24500 -26.00676 -26.80553 -28.16916 -25.77043 -26.24772 -26.81202 -26.53279 -27.36298 -27.44527 -27.08109 -25.76226 -27.84712 -25.33625 -25.81245 -26.25566 -27.03979 -28.00196 -24.55392 -27.17142 -26.49551 -27.15758 -26.89444 -27.37221
14000 13 -25.71292 -25.38294 -26.21009 -24.90144 -25.87779 -25.07362 -26.17083 -25.69807 -26.82749 -24.68293 -25.75448 -25.29250 -25.37056 -26.44028 -24.06176 -24.59827 -24.84974 -25.73424 -26.97023 -23.34660 -27.30797 -26.06992 -26.87745 -28.23212 -25.83360 -26.31080 -26.87683 -26.59586 -27.42649 -27.50894 -27.15221 -25.83342 -27.91824 -25.40740 -25.88381 -26.32697 -27.11171 -28.06086 -24.69162 -27.22736 -26.57078 -27.23071 -26.95039 -27.42814
15000 13 -25.77107 -25.44837 -26.26777 -24.97557 -25.94255 -25.13147 -26.23011 -25.75584 -26.88578 -24.74770 -25.82281 -25.35742 -25.44563 -26.50677 -24.13341 -24.67364 -24.93789 -25.81719 -27.02838 -23.45666 -27.36564 -26.12778 -26.94288 -28.28980 -25.89146 -26.36858 -26.93611 -26.65363 -27.48464 -27.56722 -27.21697 -25.89819 -27.98299 -25.47217 -25.94878 -26.39188 -27.17713 -28.11501 -24.81494 -27.27896 -26.63911 -27.29720 -27.00198 -27.47972
16000 13 -25.82466 -25.50832 -26.32095 -25.04284 -26.00192 -25.18481 -26.28470 -25.80910 -26.93949 -24.80708 -25.88528 -25.41693 -25.51413 -26.56766 -24.19857 -24.74243 -25.01745 -25.89243 -27.08197 -23.55504 -27.41883 -26.18112 -27.00283 -28.34299 -25.94480 -26.42186 -26.99069 -26.70689 -27.53823 -27.62094 -27.27634 -25.95757 -28.04236 -25.53155 -26.00834 -26.45140 -27.23708 -28.16511 -24.92597 -27.32682 -26.70158 -27.35809 -27.04983 -27.52757
17000 13 -25.87434 -25.56358 -26.37027 -25.10425 -26.05669 -25.23427 -26.33524 -25.85849 -26.98927 -24.86186 -25.94276 -25.47183 -25.57694 -26.62376 -24.25819 -24.80552 -25.08965 -25.96106 -27.13165 -23.64355 -27.46814 -26.23057 -27.05809 -28.39230 -25.99425 -26.47126 -27.04124 -26.75628 -27.58790 -27.67072 -27.33111 -26.01235 -28.09713 -25.58633 -26.06329 -26.50630 -27.29234 -28.21171 -25.02648 -27.37144 -26.75906 -27.41419 -27.09446 -27.57219
18000 13 -25.92061 -25.61480 -26.41622 -25.16034 -26.10746 -25.28035 -26.38229 -25.90451 -27.03563 -24.91267 -25.99593 -25.52273 -25.63465 -26.67571 -24.31267 -24.86349 -25.15518 -26.02387 -27.17792 -23.72356 -27.51410 -26.27665 -27.10931 -28.43826 -26.04034 -26.51729 -27.08828 -26.80231 -27.63418 -27.71708 -27.38188 -26.06316 -28.14791 -25.63715 -26.11421 -26.55719 -27.34357 -28.25525 -25.11842 -27.41324 -26.81223 -27.46615 -27.13625 -27.61397
19000 13 -25.96391 -25.66251 -26.45923 -25.21106 -26.15471 -25.32347 -26.42625 -25.94758 -27.07898 -24.96002 -26.04534 -25.57007 -25.68753 -26.72404 -24.36175 -24.91657 -25.21403 -26.08142 -27.22122 -23.79611 -27.55710 -26.31978 -27.15702 -28.48126 -26.08347 -26.56037 -27.13224 -26.84537 -27.67747 -27.76042 -27.42913 -26.11051 -28.19516 -25.68453 -26.16155 -26.60453 -27.39127 -28.29612 -25.20415 -27.45254 -26.86164 -27.51448 -27.17555 -27.65327
20000 13 -26.00458 -25.70713 -26.49964 -25.25810 -26.19893 -25.36399 -26.46751 -25.98805 -27.11968 -25.00433 -26.09147 -25.61438 -25.73674 -26.76923 -24.40738 -24.96599 -25.26815 -26.13469 -27.26189 -23.86262 -27.59751 -26.36030 -27.20164 -28.52167 -26.12400 -26.60085 -27.17351 -26.88584 -27.71814 -27.80113 -27.47335 -26.15482 -28.23938 -25.72887 -26.20585 -26.64884 -27.43589 -28.33461 -25.28285 -27.48963 -26.90777 -27.55966 -27.21264 -27.69034
21000 13 -26.04292 -25.74902 -26.53774 -25.30194 -26.24048 -25.40220 -26.50639 -26.02620 -27.15805 -25.04596 -26.13472 -25.65601 -25.78271 -26.81164 -24.44997 -25.01216 -25.31817 -26.18420 -27.30023 -23.92389 -27.63561 -26.39851 -27.24353 -28.55977 -26.16221 -26.63902 -27.21238 -26.92399 -27.75648 -27.83950 -27.51491 -26.19644 -28.28093 -25.77053 -26.24748 -26.69047 -27.47779 -28.37098 -25.35539 -27.52473 -26.95102 -27.60207 -27.24774 -27.72544
22000 13 -26.07918 -25.78850 -26.57378 -25.34293 -26.27966 -25.43834 -26.54312 -26.06229 -27.19432 -25.08519 -26.17541 -25.69525 -25.82579 -26.85157 -24.48987 -25.05543 -25.36456 -26.23039 -27.33649 -23.98054 -27.67166 -26.43465 -27.28301 -28.59581 -26.19835 -26.67512 -27.24911 -26.96008 -27.79274 -27.87577 -27.55408 -26.23568 -28.32010 -25.80980 -26.28672 -26.72972 -27.51726 -28.40546 -25.42249 -27.55805 -26.99170 -27.64201 -27.28106 -27.75876
23000 13 -26.11356 -25.82580 -26.60797 -25.38141 -26.31670 -25.47262 -26.57794 -26.09652 -27.22872 -25.12229 -26.21380 -25.73237 -25.86628 -26.88930 -24.52738 -25.09612 -25.40775 -26.27361 -27.37087 -24.03315 -27.70584 -26.46893 -27.32031 -28.63000 -26.23264 -26.70936 -27.28393 -26.99431 -27.82713 -27.91016 -27.59112 -26.27278 -28.35715 -25.84693 -26.32384 -26.76683 -27.55456 -28.43822 -25.48477 -27.58977 -27.03010 -27.67973 -27.31277 -27.79046
24000 13 -26.14624 -25.86114 -26.64047 -25.41761 -26.35181 -25.50520 -26.61101 -26.12906 -27.26140 -25.15744 -26.25012 -25.76754 -25.90443 -26.92502 -24.56274 -25.13446 -25.44808 -26.31418 -27.40355 -24.08214 -27.73834 -26.50151 -27.35565 -28.66250 -26.26523 -26.74192 -27.31700 -27.02685 -27.85981 -27.94284 -27.62623 -26.30793 -28.39226 -25.88211 -26.35902 -26.80201 -27.58990 -28.46942 -25.54275 -27.62000 -27.06642 -27.71546 -27.34301 -27.82069
25000 13 -26.17737 -25.89470 -26.67143 -25.45179 -26.38517 -25.53625 -26.64249 -26.16006 -27.29252 -25.19084 -26.28456 -25.80096 -25.94048 -26.95893 -24.59615 -25.17069 -25.48586 -26.35235 -27.43468 -24.12793 -27.76930 -26.53255 -27.38921 -28.69346 -26.29628 -26.77293 -27.34848 -27.05785 -27.89094 -27.97396 -27.65959 -26.34133 -28.42561 -25.91555 -26.39244 -26.83543 -27.62346 -28.49918 -25.59690 -27.64889 -27.10086 -27.74937 -27.37189 -27.84957
5000 14 -24.68548 -24.15533 -25.19559 -23.46346 -24.66965 -24.05399 -25.11223 -24.68111 -25.79626 -23.46893 -24.46520 -24.07990 -23.96565 -25.19557 -22.61990 -23.17777 -23.45359 -24.29828 -25.94279 -21.84618 -26.29347 -25.05029 -25.64984 -27.21763 -24.81419 -25.29382 -25.81822 -25.57890 -26.39905 -26.47771 -25.94407 -24.61942 -26.71009 -24.19417 -24.67130 -25.11437 -25.88410 -27.14195 -23.49089 -26.37752 -25.28149 -25.98600 -26.10064 -26.57876
6000 14 -24.89585 -24.41706 -25.40227 -23.74667 -24.92637 -24.26238 -25.32980 -24.88842 -26.00666 -23.72641 -24.74201 -24.33761 -24.25042 -25.46243 -22.89351 -23.46479 -23.74594 -24.60265 -26.15316 -22.16523 -26.50015 -25.25868 -25.91156 -27.42431 -25.02256 -25.50119 -26.03580 -25.78621 -26.60941 -26.68811 -26.20079 -24.87690 -26.96682 -24.45154 -24.92891 -25.37207 -26.14582 -27.32463 -23.77333 -26.54251 -25.55830 -26.25286 -26.26562 -26.74359
7000 14 -25.06236 -24.62090 -25.56635 -23.99256 -25.12643 -24.42736 -25.50206 -25.05292 -26.17392 -23.92708 -24.95788 -24.53836 -24.49233 -25.67013 -23.13190 -23.70828 -24.01035 -24.86201 -26.31967 -22.52477 -26.66422 -25.42367 -26.11541 -27.58838 -25.18752 -25.66569 -26.20805 -25.95071 -26.77593 -26.85537 -26.40085 -25.07757 -27.16687 -24.65213 -25.12960 -25.57282 -26.34966 -27.47101 -24.11335 -26.67609 -25.77418 -26.46056 -26.39918 -26.87709
8000 14 -25.19928 -24.78621 -25.70157 -24.20488 -25.28876 -24.56306 -25.64364 -25.18844 -26.31186 -24.08993 -25.13297 -24.70122 -24.69896 -25.83846 -23.33818 -23.91607 -24.24453 -25.08372 -26.45659 -22.85985 -26.79944 -25.55937 -26.28072 -27.72360 -25.32319 -25.80120 -26.34964 -26.08623 -26.91285 -26.99331 -26.56318 -25.24042 -27.32921 -24.81490 -25.29240 -25.73568 -26.51497 -27.59263 -24.43525 -26.78802 -25.94927 -26.62889 -26.51109 -26.98897
9000 14 -25.31499 -24.92414 -25.81598 -24.38502 -25.42433 -24.67779 -25.76311 -25.30308 -26.42854 -24.22590 -25.27878 -24.83719 -24.87386 -25.97878 -23.51348 -24.09186 -24.44512 -25.27109 -26.57230 -23.14869 -26.91386 -25.67409 -26.41865 -27.83802 -25.43788 -25.91582 -26.46910 -26.20087 -27.02855 -27.10998 -26.69875 -25.37639 -27.46478 -24.95082 -25.42833 -25.87165 -26.65291 -27.69634 -24.71564 -26.88416 -26.09508 -26.76921 -26.60722 -27.08510
10000 14 -25.41485 -25.04185 -25.91484 -24.53843 -25.54013 -24.77686 -25.86604 -25.40210 -26.52924 -24.34203 -25.40288 -24.95330 -25.02290 -26.09841 -23.66296 -24.24162 -24.61634 -25.43036 -26.67216 -23.39353 -27.01271 -25.77316 -26.53635 -27.93687 -25.53693 -26.01484 -26.57203 -26.29990 -27.12841 -27.21069 -26.81455 -25.49251 -27.58057 -25.06689 -25.54441 -25.98777 -26.77061 -27.78659 -24.95556 -26.96834 -26.21917 -26.88884 -26.69139 -27.16926
11000 14 -25.50250 -25.14410 -26.00167 -24.67035 -25.64083 -24.86386 -25.95621 -25.48908 -26.61760 -24.44299 -25.51039 -25.05427 -25.15106 -26.20226 -23.79160 -24.37036 -24.76379 -25.56711 -26.75981 -23.60396 -27.09954 -25.86017 -26.63861 -28.02370 -25.62391 -26.10180 -26.66220 -26.38687 -27.21607 -27.29905 -26.91525 -25.59348 -27.68127 -25.16781 -25.64535 -26.08874 -26.87287 -27.86637 -25.16547 -27.04315 -26.32669 -26.99269 -26.76619 -27.24406
12000 14 -25.58049 -25.23427 -26.07898 -24.78546 -25.72970 -24.94131 -26.03631 -25.56650 -26.69619 -24.53208 -25.60495 -25.14336 -25.26316 -26.29376 -23.90397 -24.48294 -24.89207 -25.68636 -26.83780 -23.78466 -27.17685 -25.93761 -26.72878 -28.10101 -25.70134 -26.17922 -26.74230 -26.46430 -27.29406 -27.37764 -27.00412 -25.68256 -27.77014 -25.25687 -25.73442 -26.17783 -26.96303 -27.93779 -25.34729 -27.11043 -26.42125 -27.08419 -26.83347 -27.31134
13000 14 -25.65067 -25.31475 -26.14858 -24.88706 -25.80908 -25.01103 -26.10827 -25.63621 -26.76688 -24.61165 -25.68915 -25.22294 -25.36235 -26.37537 -24.00327 -24.58254 -25.00490 -25.79158 -26.90798 -23.94133 -27.24646 -26.00733 -26.80926 -28.17061 -25.77105 -26.24891 -26.81427 -26.53400 -27.36423 -27.44833 -27.08350 -25.76213 -27.84953 -25.33641 -25.81398 -26.25740 -27.04352 -28.00242 -25.50625 -27.17155 -26.50545 -27.16580 -26.89457 -27.37244
14000 14 -25.71440 -25.38732 -26.21182 -24.97769 -25.88071 -25.07437 -26.17354 -25.69953 -26.83105 -24.68343 -25.76490 -25.29472 -25.45101 -26.44890 -24.09193 -24.67155 -25.10516 -25.88539 -26.97171 -24.07849 -27.30970 -26.07067 -26.88183 -28.23386 -25.83438 -26.31223 -26.87953 -26.59732 -27.42797 -27.51250 -27.15513 -25.83392 -27.92116 -25.40817 -25.88576 -26.32919 -27.11608 -28.06139 -25.64648 -27.22751 -26.58120 -27.23933 -26.95053 -27.42840
15000 14 -25.77274 -25.45331 -26.26974 -25.05927 -25.94589 -25.13237 -26.23321 -25.75752 -26.88977 -24.74874 -25.83365 -25.36004 -25.53096 -26.51573 -24.17182 -24.75182 -25.19506 -25.96977 -27.03005 -24.19967 -27.36761 -26.12867 -26.94782 -28.29177 -25.89236 -26.37021 -26.93920 -26.65531 -27.48631 -27.57122 -27.22031 -25.89923 -27.98634 -25.47346 -25.95107 -26.39451 -27.18207 -28.11560 -25.77125 -27.27912 -26.64995 -27.30616 -27.00214 -27.48001
16000 14 -25.82651 -25.51377 -26.32313 -25.13329 -26.00564 -25.18583 -26.28813 -25.81098 -26.94387 -24.80861 -25.89652 -25.41992 -25.60364 -26.57692 -24.24437 -24.82477 -25.27631 -26.04630 -27.08382 -24.30762 -27.42100 -26.18214 -27.00827 -28.34516 -25.94582 -26.42366 -26.99413 -26.70877 -27.54007 -27.62532 -27.28006 -25.95910 -28.04609 -25.53331 -26.01093 -26.45438 -27.24253 -28.16575 -25.88308 -27.32700 -26.71281 -27.36736 -27.05001 -27.52788
17000 14 -25.87634 -25.56950 -26.37263 -25.20092 -26.06075 -25.23540 -26.33899 -25.86054 -26.99400 -24.86383 -25.95438 -25.47514 -25.67014 -26.63331 -24.31072 -24.89151 -25.35027 -26.11617 -27.13365 -24.40451 -27.47051 -26.23171 -27.06401 -28.39466 -25.99539 -26.47322 -27.04499 -26.75833 -27.58991 -27.67544 -27.33517 -26.01432 -28.10120 -25.58852 -26.06615 -26.50960 -27.29827 -28.21240 -25.98401 -27.37163 -26.77068 -27.42374 -27.09464 -27.57251
18000 14 -25.92277 -25.62117 -26.41876 -25.26304 -26.11187 -25.28159 -26.38633 -25.90672 -27.04068 -24.91504 -26.00793 -25.52635 -25.73133 -26.68555 -24.37169 -24.95292 -25.41792 -26.18034 -27.18008 -24.49253 -27.51664 -26.27790 -27.11568 -28.44080 -26.04157 -26.51940 -27.09232 -26.80451 -27.63633 -27.72213 -27.38629 -26.06553 -28.15232 -25.63971 -26.11735 -26.56082 -27.34993 -28.25599 -26.07615 -27.41344 -26.82423 -27.47599 -27.13645 -27.61431
19000 14 -25.96621 -25.66931 -26.46194 -25.32025 -26.15950 -25.32483 -26.43058 -25.94995 -27.08435 -24.96277 -26.05775 -25.57407 -25.78789 -26.73420 -24.42785 -25.00968 -25.47994 -26.23958 -27.22352 -24.57422 -27.55982 -26.32114 -27.16382 -28.48398 -26.08480 -26.56262 -27.13658 -26.84774 -27.67978 -27.76580 -27.43393 -26.11326 -28.19995 -25.68743 -26.16506 -26.60854 -27.39807 -28.29691 -26.16199 -27.45276 -26.87405 -27.52463 -27.17576 -27.65363
20000 14 -26.00702 -25.71434 -26.50252 -25.37338 -26.20409 -25.36546 -26.47213 -25.99056 -27.12537 -25.00743 -26.10430 -25.61873 -25.84048 -26.77969 -24.48004 -25.06244 -25.53732 -26.29456 -27.26433 -24.64887 -27.60039 -26.36176 -27.20885 -28.52455 -26.12542 -26.60323 -27.17812 -26.88836 -27.72059 -27.80682 -27.47851 -26.15792 -28.24453 -25.73209 -26.20971 -26.65320 -27.44310 -28.33544 -26.24063 -27.48985 -26.92060 -27.57013 -27.21286 -27.69072
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22000 14 -26.08189 -25.79649 -26.57697 -25.46935 -26.28546 -25.44000 -26.54825 -26.06509 -27.20058 -25.08894 -26.18905 -25.70024 -25.93560 -26.86264 -24.57440 -25.15787 -25.64039 -26.39374 -27.33920 -24.78069 -27.67485 -26.43630 -27.29100 -28.59901 -26.19995 -26.67776 -27.25424 -26.96288 -27.79545 -27.88203 -27.55988 -26.23943 -28.32591 -25.81359 -26.29121 -26.73471 -27.52525 -28.40637 -26.37994 -27.55830 -27.00535 -27.65307 -27.28130 -27.75916
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������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/RHei_porter2012_old.dat�����������������������������������������������������0000664�0000000�0000000�00000401243�12714613141�0021304�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������5000 1 -25.37986 -25.05930 -27.34444 -24.65219 -27.10733 -25.27153 -26.47831 -25.85342 -26.97222 -24.93447 -26.05358 -25.50680 -26.87080 -26.64927 -24.45690 -25.00420 -25.37463 -26.20751 -26.63717 -24.31211 -28.44232 -26.26784 -26.55381 -29.36648 -25.68998 -26.16758 -27.18431 -26.75121 -27.09342 -27.65367 -28.38175 -26.08496 -29.14777 -25.29245 -25.77053 -26.54126 -26.78807 -27.71838 -28.11119 -27.36849 -26.86988 -27.43970 -26.77658 -27.25353
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7000 1 -25.47009 -25.15121 -27.44357 -24.74995 -27.20757 -25.39649 -26.54242 -25.98061 -27.03830 -25.06682 -26.12336 -25.64161 -26.97626 -26.71491 -24.60850 -25.15795 -25.45573 -26.27396 -26.72740 -24.42840 -28.54144 -26.39279 -26.64572 -29.46560 -25.85004 -26.32765 -27.24842 -26.87840 -27.18366 -27.71975 -28.48199 -26.21731 -29.24801 -25.46706 -25.94505 -26.67608 -26.87998 -27.80836 -28.23713 -27.48895 -26.93966 -27.50534 -26.92547 -27.40247
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8000 3 -25.50285 -25.18244 -27.47971 -24.77722 -27.24425 -25.44651 -26.55704 -26.03125 -27.05578 -25.11967 -26.13512 -25.69566 -27.01356 -26.72692 -24.66836 -25.22154 -25.42192 -26.25488 -26.76016 -24.14152 -28.57759 -26.44281 -26.67695 -29.50175 -25.91816 -26.39560 -27.26303 -26.92904 -27.21642 -27.73723 -28.51867 -26.27016 -29.28469 -25.54669 -26.02430 -26.73012 -26.91120 -27.84188 -28.23525 -27.53696 -26.95141 -27.51735 -26.98707 -27.46240
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25000 3 -25.79570 -25.46072 -27.79039 -25.03793 -27.56511 -25.87602 -26.62584 -26.47759 -27.20357 -25.53732 -26.20372 -26.14559 -27.34260 -26.85390 -25.03363 -25.66358 -25.44584 -26.33345 -27.05301 -24.12425 -28.88826 -26.87233 -26.95523 -29.81242 -26.44146 -26.89637 -27.33183 -27.37538 -27.50927 -27.88502 -28.83953 -26.68781 -29.60556 -26.07226 -26.49759 -27.18006 -27.18948 -28.14201 -28.56468 -27.95955 -27.02002 -27.64434 -27.50438 -27.87595
5000 4 -25.36957 -25.04878 -27.33341 -24.63918 -27.09672 -25.26427 -26.47121 -25.84541 -26.96239 -24.92835 -26.04355 -25.50035 -26.86035 -26.63749 -24.45601 -25.00437 -25.32945 -26.17626 -26.62688 -23.85430 -28.43129 -26.26057 -26.54329 -29.35544 -25.68849 -26.16639 -27.17721 -26.74320 -27.08314 -27.64384 -28.37114 -26.07884 -29.13717 -25.30048 -25.77931 -26.53482 -26.77754 -27.70859 -28.02821 -27.36073 -26.85985 -27.42792 -26.77099 -27.24766
6000 4 -25.41891 -25.09744 -27.38742 -24.68610 -27.15120 -25.33216 -26.50189 -25.91444 -26.99599 -24.99980 -26.07385 -25.57316 -26.91626 -26.66719 -24.53494 -25.08562 -25.32770 -26.18212 -26.67622 -23.82674 -28.48530 -26.32847 -26.59195 -29.40946 -25.77504 -26.25278 -27.20789 -26.81223 -27.13248 -27.67743 -28.42562 -26.15029 -29.19164 -25.39422 -25.87267 -26.60762 -26.82621 -27.75812 -28.06554 -27.42624 -26.89015 -27.45762 -26.85175 -27.32780
7000 4 -25.45999 -25.13660 -27.43250 -24.72096 -27.19662 -25.39025 -26.52078 -25.97345 -27.02000 -25.06023 -26.09032 -25.63490 -26.96192 -26.68533 -24.59851 -25.15285 -25.30884 -26.17255 -26.71730 -23.78195 -28.53038 -26.38656 -26.63111 -29.45454 -25.84890 -26.32617 -27.22677 -26.87124 -27.17356 -27.70144 -28.47104 -26.21072 -29.23707 -25.47329 -25.95090 -26.66937 -26.86536 -27.79992 -28.09255 -27.48245 -26.90662 -27.47576 -26.92123 -27.39547
8000 4 -25.49444 -25.16809 -27.47019 -24.74659 -27.23464 -25.44055 -26.52951 -26.02446 -27.03597 -25.11174 -26.09555 -25.68776 -26.99935 -26.69430 -24.64931 -25.20862 -25.28306 -26.15509 -26.75175 -23.75412 -28.56807 -26.43686 -26.66260 -29.49222 -25.91265 -26.38903 -27.23550 -26.92225 -27.20801 -27.71741 -28.50906 -26.26223 -29.27509 -25.54060 -26.01659 -26.72223 -26.89685 -27.83564 -28.11505 -27.53122 -26.91185 -27.48474 -26.98178 -27.45244
9000 4 -25.52342 -25.19350 -27.50159 -24.76549 -27.26645 -25.48440 -26.53046 -26.06885 -27.04570 -25.15576 -26.09286 -25.73323 -27.03010 -26.69689 -24.68944 -25.25481 -25.25706 -26.13558 -26.78073 -23.73795 -28.59947 -26.48070 -26.68801 -29.52363 -25.96800 -26.44296 -27.23645 -26.96664 -27.23698 -27.72714 -28.54087 -26.30625 -29.30690 -25.59808 -26.07142 -26.76769 -26.92227 -27.86636 -28.13471 -27.57379 -26.90916 -27.48732 -27.03492 -27.49987
10000 4 -25.54791 -25.21426 -27.52767 -24.77977 -27.29309 -25.52280 -26.52621 -26.10766 -27.05102 -25.19344 -26.08540 -25.77246 -27.05551 -26.69565 -24.72088 -25.29301 -25.23417 -26.11735 -26.80522 -23.73001 -28.62555 -26.51911 -26.70877 -29.54971 -26.01618 -26.48919 -27.23220 -27.00545 -27.26147 -27.73247 -28.56751 -26.34393 -29.33353 -25.64719 -26.11678 -26.80693 -26.94302 -27.89291 -28.15254 -27.61110 -26.90170 -27.48608 -27.08177 -27.53883
11000 4 -25.56853 -25.23085 -27.54918 -24.79035 -27.31534 -25.55624 -26.51787 -26.14161 -27.05305 -25.22514 -26.07424 -25.80626 -27.07671 -26.69208 -24.74352 -25.32434 -25.21169 -26.10190 -26.82584 -23.71209 -28.64705 -26.55255 -26.72536 -29.57121 -26.05794 -26.52854 -27.22386 -27.03940 -27.28210 -27.73450 -28.58976 -26.37563 -29.35579 -25.68876 -26.15353 -26.84073 -26.95961 -27.91581 -28.16927 -27.64373 -26.89054 -27.48251 -27.12303 -27.56991
12000 4 -25.58615 -25.24471 -27.56702 -24.79895 -27.33411 -25.58561 -26.50805 -26.17154 -27.05347 -25.25208 -26.06230 -25.83563 -27.09467 -26.68801 -24.76033 -25.35022 -25.19360 -26.08998 -26.84347 -23.70120 -28.66489 -26.58192 -26.73922 -29.58905 -26.09429 -26.56208 -27.21404 -27.06934 -27.29972 -27.73492 -28.60853 -26.40257 -29.37456 -25.72411 -26.18316 -26.87009 -26.97348 -27.93570 -28.18508 -27.67244 -26.87860 -27.47844 -27.15955 -27.59449
13000 4 -25.60144 -25.25668 -27.58199 -24.80647 -27.35014 -25.61155 -26.49809 -26.19815 -27.05326 -25.27512 -26.05085 -25.86134 -27.11020 -26.68440 -24.77290 -25.37181 -25.17981 -26.08160 -26.85875 -23.69571 -28.67986 -26.60786 -26.75119 -29.60402 -26.12606 -26.59076 -27.20408 -27.09594 -27.31500 -27.73470 -28.62456 -26.42561 -29.39059 -25.75427 -26.20695 -26.89581 -26.98545 -27.95312 -28.20030 -27.69784 -26.86715 -27.47483 -27.19200 -27.61372
14000 4 -25.61493 -25.26739 -27.59476 -24.81352 -27.36408 -25.63463 -26.48886 -26.22200 -27.05309 -25.29500 -26.04066 -25.88409 -27.12396 -26.68180 -24.78250 -25.39008 -25.16995 -26.07652 -26.87224 -23.69442 -28.69263 -26.63094 -26.76190 -29.61679 -26.15399 -26.61543 -27.19485 -27.11979 -27.32849 -27.73454 -28.63850 -26.44549 -29.40452 -25.78017 -26.22607 -26.91856 -26.99615 -27.96850 -28.21514 -27.72047 -26.85695 -27.47223 -27.22097 -27.62875
15000 4 -25.62707 -25.27731 -27.60589 -24.82050 -27.37645 -25.65537 -26.48088 -26.24360 -27.05341 -25.31239 -26.03210 -25.90448 -27.13645 -26.68047 -24.79017 -25.40585 -25.16358 -26.07440 -26.88438 -23.69644 -28.70376 -26.65167 -26.77182 -29.62792 -26.17873 -26.63684 -27.18688 -27.14139 -27.34064 -27.73486 -28.65087 -26.46288 -29.41690 -25.80265 -26.24161 -26.93895 -27.00607 -27.98225 -28.22975 -27.74082 -26.84839 -27.47090 -27.24702 -27.64058
16000 4 -25.63824 -25.28678 -27.61584 -24.82765 -27.38768 -25.67419 -26.47439 -26.26340 -27.05446 -25.32786 -26.02532 -25.92299 -27.14807 -26.68051 -24.79666 -25.41978 -25.16023 -26.07486 -26.89555 -23.70109 -28.71372 -26.67049 -26.78129 -29.63788 -26.20086 -26.65565 -27.18039 -27.16119 -27.35180 -27.73591 -28.66210 -26.47835 -29.42813 -25.82240 -26.25445 -26.95746 -27.01555 -27.99468 -28.24422 -27.75930 -26.84162 -27.47094 -27.27061 -27.65006
17000 4 -25.64869 -25.29604 -27.62498 -24.83512 -27.39809 -25.69146 -26.46948 -26.28173 -27.05636 -25.34184 -26.02032 -25.94002 -27.15908 -26.68189 -24.80253 -25.43237 -25.15947 -26.07750 -26.90600 -23.70785 -28.72286 -26.68777 -26.79055 -29.64701 -26.22087 -26.67243 -27.17547 -27.17952 -27.36226 -27.73781 -28.67251 -26.49233 -29.43854 -25.84003 -26.26532 -26.97449 -27.02480 -28.00606 -28.25861 -27.77625 -26.83662 -27.47232 -27.29215 -27.65789
18000 4 -25.65856 -25.30493 -27.63351 -24.84273 -27.40790 -25.70724 -26.46556 -26.29880 -27.05898 -25.35439 -26.01665 -25.95581 -27.16968 -26.68436 -24.80752 -25.44392 -25.16005 -26.08186 -26.91587 -23.71455 -28.73138 -26.70355 -26.79944 -29.65554 -26.23902 -26.68750 -27.17156 -27.19659 -27.37212 -27.74043 -28.68232 -26.50488 -29.44835 -25.85581 -26.27462 -26.99027 -27.03370 -28.01656 -28.27308 -27.79189 -26.83295 -27.47479 -27.31191 -27.66442
19000 4 -25.66771 -25.31274 -27.64147 -24.84988 -27.41721 -25.72107 -26.46116 -26.31465 -27.06194 -25.36490 -26.01330 -25.97039 -27.17994 -26.68740 -24.81029 -25.45442 -25.15952 -26.08737 -26.92502 -23.71686 -28.73934 -26.71737 -26.80725 -29.66350 -26.25518 -26.70091 -27.16716 -27.21244 -27.38128 -27.74339 -28.69163 -26.51539 -29.45766 -25.86960 -26.28230 -27.00486 -27.04151 -28.02613 -28.28793 -27.80621 -26.82960 -27.47783 -27.32993 -27.66952
20000 4 -25.67661 -25.32058 -27.64920 -24.85740 -27.42625 -25.73397 -26.45810 -26.32969 -27.06569 -25.37470 -26.01137 -25.98423 -27.19004 -26.69147 -24.81320 -25.46444 -25.16071 -26.09422 -26.93392 -23.72104 -28.74708 -26.73028 -26.81509 -29.67124 -26.27017 -26.71334 -27.16409 -27.22748 -27.39018 -27.74714 -28.70067 -26.52519 -29.46669 -25.88233 -26.28931 -27.01869 -27.04935 -28.03516 -28.30267 -27.81968 -26.82767 -27.48191 -27.34672 -27.67416
21000 4 -25.68534 -25.32852 -27.65683 -24.86530 -27.43513 -25.74615 -26.45627 -26.34408 -27.07018 -25.38400 -26.01074 -25.99748 -27.20005 -26.69646 -24.81642 -25.47415 -25.16338 -26.10218 -26.94265 -23.72676 -28.75471 -26.74246 -26.82303 -29.67887 -26.28421 -26.72501 -27.16226 -27.24187 -27.39891 -27.75163 -28.70955 -26.53449 -29.47558 -25.89428 -26.29589 -27.03195 -27.05728 -28.04378 -28.31729 -27.83247 -26.82704 -27.48690 -27.36250 -27.67859
22000 4 -25.69396 -25.33657 -27.66443 -24.87353 -27.44392 -25.75776 -26.45556 -26.35794 -27.07533 -25.39294 -26.01126 -26.01027 -27.21001 -26.70224 -24.82002 -25.48367 -25.16728 -26.11105 -26.95127 -23.73371 -28.76230 -26.75406 -26.83108 -29.68646 -26.29750 -26.73611 -27.16155 -27.25573 -27.40753 -27.75677 -28.71834 -26.54343 -29.48437 -25.90563 -26.30225 -27.04474 -27.06533 -28.05206 -28.33180 -27.84469 -26.82755 -27.49267 -27.37743 -27.68295
23000 4 -25.70253 -25.34474 -27.67204 -24.88207 -27.45266 -25.76890 -26.45586 -26.37136 -27.08105 -25.40163 -26.01279 -26.02269 -27.21994 -26.70870 -24.82403 -25.49306 -25.17224 -26.12066 -26.95984 -23.74167 -28.76991 -26.76520 -26.83925 -29.69407 -26.31019 -26.74679 -27.16185 -27.26915 -27.41609 -27.76249 -28.72708 -26.55212 -29.49311 -25.91653 -26.30851 -27.05716 -27.07351 -28.06008 -28.34619 -27.85647 -26.82909 -27.49913 -27.39166 -27.68738
24000 4 -25.71105 -25.35304 -27.67968 -24.89085 -27.46138 -25.77967 -26.45704 -26.38441 -27.08726 -25.41017 -26.01520 -26.03481 -27.22986 -26.71571 -24.82846 -25.50239 -25.17806 -26.13084 -26.96836 -23.75044 -28.77755 -26.77597 -26.84755 -29.70171 -26.32239 -26.75713 -27.16304 -27.28220 -27.42461 -27.76871 -28.73580 -26.56065 -29.50183 -25.92709 -26.31476 -27.06928 -27.08180 -28.06789 -28.36042 -27.86786 -26.83150 -27.50615 -27.40529 -27.69193
25000 4 -25.71955 -25.36145 -27.68738 -24.89986 -27.47010 -25.79014 -26.45902 -26.39714 -27.09389 -25.41859 -26.01837 -26.04668 -27.23977 -26.72320 -24.83329 -25.51169 -25.18462 -26.14148 -26.97686 -23.75986 -28.78526 -26.78644 -26.85596 -29.70941 -26.33419 -26.76721 -27.16501 -27.29493 -27.43311 -27.77534 -28.74452 -26.56908 -29.51055 -25.93739 -26.32105 -27.08114 -27.09021 -28.07554 -28.37451 -27.87894 -26.83467 -27.51363 -27.41841 -27.69665
5000 5 -25.35913 -25.03827 -27.32275 -24.62721 -27.08635 -25.25529 -26.46441 -25.83595 -26.95333 -24.91952 -26.03469 -25.49129 -26.84992 -26.62730 -24.44775 -24.99675 -25.30143 -26.15548 -26.61644 -23.71052 -28.42062 -26.25160 -26.53278 -29.34478 -25.68053 -26.15873 -27.17040 -26.73375 -27.07269 -27.63478 -28.36077 -26.07001 -29.12680 -25.29456 -25.77412 -26.52575 -26.76703 -27.69830 -27.98026 -27.35173 -26.85099 -27.41774 -26.76182 -27.23846
6000 5 -25.40983 -25.08760 -27.37811 -24.67291 -27.14208 -25.32455 -26.49415 -25.90630 -26.98674 -24.99211 -26.06278 -25.56523 -26.90651 -26.65535 -24.52653 -25.07828 -25.28670 -26.15188 -26.66714 -23.69521 -28.47599 -26.32085 -26.58211 -29.40015 -25.76826 -26.24619 -27.20015 -26.80409 -27.12339 -27.66819 -28.41650 -26.14260 -29.18253 -25.38905 -25.86802 -26.59969 -26.81637 -27.74935 -28.01460 -27.41865 -26.87908 -27.44578 -26.84399 -27.31969
7000 5 -25.45146 -25.12641 -27.42367 -24.70535 -27.18791 -25.38333 -26.51017 -25.96592 -27.00925 -25.05287 -26.07497 -25.62733 -26.95185 -26.67029 -24.58853 -25.14478 -25.25739 -26.13347 -26.70877 -23.65891 -28.52155 -26.37963 -26.62092 -29.44570 -25.84261 -26.31988 -27.21617 -26.86371 -27.16502 -27.69070 -28.46233 -26.20336 -29.22835 -25.46810 -25.94588 -26.66180 -26.85517 -27.79199 -28.03945 -27.47560 -26.89127 -27.46072 -26.91423 -27.38743
8000 5 -25.48583 -25.15681 -27.46111 -24.72798 -27.22563 -25.43377 -26.51477 -26.01697 -27.02280 -25.10402 -26.07492 -25.67990 -26.98825 -26.67528 -24.63668 -25.19898 -25.22443 -26.10908 -26.74314 -23.63871 -28.55898 -26.43007 -26.65132 -29.48314 -25.90626 -26.38232 -27.22077 -26.91476 -27.19940 -27.70425 -28.50005 -26.25451 -29.26608 -25.53470 -26.01028 -26.71437 -26.88557 -27.82804 -28.06078 -27.52457 -26.89122 -27.46572 -26.97501 -27.44349
9000 5 -25.51425 -25.18070 -27.49168 -24.74380 -27.25660 -25.47731 -26.51114 -26.06093 -27.02967 -25.14713 -26.06691 -25.72455 -27.01750 -26.67385 -24.67345 -25.24297 -25.19411 -26.08478 -26.77156 -23.62903 -28.58956 -26.47361 -26.67521 -29.51371 -25.96098 -26.43521 -27.21713 -26.95872 -27.22782 -27.71112 -28.53102 -26.29761 -29.29705 -25.59084 -26.06301 -26.75902 -26.90946 -27.85868 -28.07988 -27.56690 -26.88321 -27.46428 -27.02793 -27.48914
10000 5 -25.53788 -25.19976 -27.51653 -24.75525 -27.28204 -25.51506 -26.50250 -26.09897 -27.03212 -25.18348 -26.05476 -25.76260 -27.04120 -26.66902 -24.70124 -25.27857 -25.16895 -26.06356 -26.79519 -23.62663 -28.61441 -26.51137 -26.69427 -29.53856 -26.00812 -26.47990 -27.20849 -26.99676 -27.25144 -27.71357 -28.55646 -26.33397 -29.32248 -25.63813 -26.10561 -26.79707 -26.92852 -27.88485 -28.09756 -27.60360 -26.87106 -27.45946 -27.07417 -27.52562
11000 5 -25.55729 -25.21432 -27.53640 -24.76291 -27.30274 -25.54743 -26.48971 -26.13178 -27.03117 -25.21330 -26.03903 -25.79479 -27.06043 -26.66205 -24.71950 -25.30684 -25.14430 -26.04575 -26.81460 -23.61179 -28.63428 -26.54374 -26.70883 -29.55844 -26.04834 -26.51714 -27.19570 -27.02957 -27.27086 -27.71262 -28.57716 -26.36379 -29.34318 -25.67730 -26.13889 -26.82926 -26.94308 -27.90702 -28.11376 -27.63525 -26.85533 -27.45248 -27.11444 -27.55348
12000 5 -25.57359 -25.22623 -27.55247 -24.76902 -27.31984 -25.57551 -26.47611 -26.16038 -27.02896 -25.23814 -26.02342 -25.82237 -27.07646 -26.65524 -24.73211 -25.32961 -25.12514 -26.03251 -26.83090 -23.60384 -28.65035 -26.57182 -26.72074 -29.57451 -26.08288 -26.54830 -27.18211 -27.05817 -27.28715 -27.71041 -28.59426 -26.38862 -29.36029 -25.70997 -26.16476 -26.85684 -26.95499 -27.92602 -28.12934 -27.66275 -26.83972 -27.44568 -27.14971 -27.57452
13000 5 -25.58753 -25.23643 -27.56566 -24.77452 -27.33421 -25.60004 -26.46314 -26.18556 -27.02658 -25.25899 -26.00918 -25.84624 -27.09020 -26.64957 -24.74084 -25.34820 -25.11107 -26.02360 -26.84485 -23.60115 -28.66354 -26.59634 -26.73094 -29.58770 -26.11267 -26.57446 -27.16913 -27.08335 -27.30110 -27.70802 -28.60863 -26.40948 -29.37466 -25.73736 -26.18476 -26.88070 -26.96519 -27.94244 -28.14459 -27.68680 -26.82548 -27.44000 -27.18073 -27.59019
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6000 7 -25.37185 -25.05005 -25.94179 -24.63471 -25.63278 -25.29271 -26.47610 -25.86244 -26.84189 -24.96033 -26.03918 -25.52397 -25.22564 -26.44767 -24.49393 -25.04125 -25.24192 -25.83587 -26.62916 -23.61401 -27.03966 -26.28902 -26.54456 -27.96382 -25.73603 -26.21562 -27.18209 -26.76023 -27.08541 -27.52334 -26.90720 -26.11081 -27.67322 -25.35769 -25.83973 -26.55843 -26.77881 -27.71142 -24.87133 -27.37932 -26.85548 -27.23811 -26.81166 -27.28747
7000 7 -25.41859 -25.09339 -25.99285 -24.67045 -25.68374 -25.35608 -26.49398 -25.92606 -26.87351 -25.02537 -26.05259 -25.58965 -25.27509 -26.47547 -24.55900 -25.10959 -25.21125 -25.84564 -26.67590 -23.58403 -27.09073 -26.35239 -26.58790 -28.01489 -25.81453 -26.29291 -27.19997 -26.82385 -27.13215 -27.55496 -26.95816 -26.17586 -27.72419 -25.44030 -25.92028 -26.62411 -26.82216 -27.75942 -24.87641 -27.44145 -26.86889 -27.26591 -26.88635 -27.35905
8000 7 -25.45659 -25.12679 -26.03419 -24.69487 -25.72496 -25.40971 -26.49843 -25.97955 -26.89358 -25.07933 -26.05190 -25.64418 -25.31384 -26.49081 -24.60855 -25.16369 -25.17740 -25.84458 -26.71390 -23.56895 -27.13207 -26.40601 -26.62130 -28.05623 -25.88087 -26.35741 -27.20443 -26.87734 -27.17015 -27.57502 -26.99938 -26.22982 -27.76540 -25.50893 -25.98569 -26.67865 -26.85555 -27.79932 -24.88310 -27.49408 -26.86820 -27.28124 -26.95012 -27.41728
9000 7 -25.48761 -25.15266 -26.06754 -24.71167 -25.75824 -25.45543 -26.49359 -26.02477 -26.90491 -25.12419 -26.04249 -25.68960 -25.34427 -26.49741 -24.64561 -25.20622 -25.14686 -25.83844 -26.74492 -23.56347 -27.16542 -26.45174 -26.64717 -28.08957 -25.93724 -26.41117 -27.19959 -26.92256 -27.20117 -27.58636 -27.03267 -26.27468 -27.79869 -25.56600 -26.03811 -26.72407 -26.88142 -27.83277 -24.89147 -27.53897 -26.85879 -27.28784 -27.00499 -27.46383
10000 7 -25.51311 -25.17304 -26.09436 -24.72366 -25.78517 -25.49465 -26.48339 -26.06318 -26.91022 -25.16156 -26.02883 -25.72754 -25.36837 -26.49859 -24.67302 -25.23949 -25.12203 -25.83083 -26.77042 -23.56460 -27.19224 -26.49095 -26.66755 -28.11640 -25.98523 -26.45584 -27.18938 -26.96097 -27.22667 -27.59167 -27.05959 -26.31205 -27.82561 -25.61340 -26.07946 -26.76200 -26.90180 -27.86098 -24.90131 -27.57743 -26.84512 -27.28903 -27.05241 -27.50028
11000 7 -25.53389 -25.18848 -26.11566 -24.73168 -25.80677 -25.52791 -26.46900 -26.09564 -26.91085 -25.19177 -26.01174 -25.75893 -25.38747 -26.49593 -24.69041 -25.26472 -25.09808 -25.82291 -26.79120 -23.55291 -27.21353 -26.52421 -26.68298 -28.13769 -26.02570 -26.49236 -27.17500 -26.99343 -27.24746 -27.59230 -27.08119 -26.34226 -27.84721 -25.65205 -26.11079 -26.79340 -26.91724 -27.88464 -24.90804 -27.61020 -26.82804 -27.28636 -27.09324 -27.52745
12000 7 -25.55122 -25.20103 -26.13278 -24.73812 -25.82439 -25.55648 -26.45410 -26.12342 -26.90933 -25.21665 -25.99516 -25.78529 -25.40310 -26.49205 -24.70205 -25.28424 -25.07992 -25.81664 -26.80853 -23.54777 -27.23065 -26.55279 -26.69554 -28.15481 -26.06005 -26.52234 -27.16009 -27.02121 -27.26479 -27.59077 -27.09881 -26.36714 -27.86484 -25.68381 -26.13438 -26.81975 -26.92979 -27.90473 -24.91650 -27.63838 -26.81146 -27.28248 -27.12863 -27.54742
13000 7 -25.56598 -25.21176 -26.14679 -24.74397 -25.83906 -25.58123 -26.44017 -26.14746 -26.90701 -25.23731 -25.98035 -25.80768 -25.41631 -26.48822 -24.70987 -25.29963 -25.06702 -25.81250 -26.82329 -23.54760 -27.24466 -26.57754 -26.70627 -28.16882 -26.08939 -26.54707 -27.14616 -27.04525 -27.27955 -27.58845 -27.11348 -26.38780 -27.87950 -25.71007 -26.15202 -26.84215 -26.94052 -27.92195 -24.92641 -27.66280 -26.79665 -27.27866 -27.15946 -27.56186
14000 7 -25.57887 -25.22142 -26.15854 -24.74988 -25.85160 -25.60291 -26.42805 -26.16855 -26.90480 -25.25475 -25.96793 -25.82705 -25.42794 -26.48522 -24.71540 -25.31215 -25.05873 -25.81061 -26.83618 -23.55130 -27.25642 -26.59922 -26.71593 -28.18058 -26.11467 -26.56768 -27.13404 -27.06634 -27.29243 -27.58625 -27.12602 -26.40524 -27.89204 -25.73203 -26.16525 -26.86152 -26.95018 -27.93692 -24.93753 -27.68419 -26.78422 -27.27566 -27.18653 -27.57225
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16000 7 -25.60115 -25.23953 -26.17793 -24.76310 -25.87279 -25.63955 -26.41050 -26.20447 -26.90274 -25.28311 -25.95078 -25.85958 -25.44861 -26.48302 -24.72358 -25.33217 -25.05339 -25.81315 -26.85846 -23.56715 -27.27581 -26.63585 -26.73404 -28.19997 -26.15627 -26.60029 -27.11649 -27.10226 -27.31471 -27.58419 -27.14721 -26.43360 -27.91324 -25.76699 -26.18353 -26.89405 -26.96829 -27.96203 -24.96265 -27.72029 -26.76708 -27.27345 -27.23208 -27.58562
17000 7 -25.61127 -25.24855 -26.18649 -24.77068 -25.88230 -25.65548 -26.40510 -26.22027 -26.90331 -25.29520 -25.94587 -25.87381 -25.45838 -26.48400 -24.72747 -25.34091 -25.05518 -25.81716 -26.86858 -23.57816 -27.28437 -26.65178 -26.74306 -28.20853 -26.17388 -26.61374 -27.11109 -27.11806 -27.32484 -27.58476 -27.15672 -26.44569 -27.92275 -25.78149 -26.19036 -26.90828 -26.97731 -27.97291 -24.97629 -27.73595 -26.76217 -27.27444 -27.25164 -27.59033
18000 7 -25.62091 -25.25736 -26.19462 -24.77863 -25.89139 -25.66998 -26.40110 -26.23496 -26.90477 -25.30605 -25.94266 -25.88703 -25.46796 -26.48606 -24.73094 -25.34912 -25.05829 -25.82244 -26.87822 -23.58880 -27.29249 -26.66629 -26.75187 -28.21665 -26.18980 -26.62581 -27.10709 -27.13275 -27.33448 -27.58621 -27.16581 -26.45654 -27.93184 -25.79448 -26.19624 -26.92150 -26.98613 -27.98294 -24.99009 -27.75036 -26.75896 -27.27649 -27.26950 -27.59424
19000 7 -25.62986 -25.26500 -26.20226 -24.78610 -25.90006 -25.68240 -26.39658 -26.24844 -26.90645 -25.31483 -25.93979 -25.89912 -25.47728 -26.48844 -24.73225 -25.35646 -25.05996 -25.82822 -26.88717 -23.59453 -27.30014 -26.67870 -26.75951 -28.22429 -26.20379 -26.63641 -27.10257 -27.14623 -27.34343 -27.58790 -27.17448 -26.46532 -27.94051 -25.80563 -26.20087 -26.93359 -26.99377 -27.99203 -25.00315 -27.76346 -26.75608 -27.27887 -27.28563 -27.59704
20000 7 -25.63869 -25.27288 -26.20987 -24.79418 -25.90867 -25.69407 -26.39377 -26.26134 -26.90917 -25.32319 -25.93867 -25.91077 -25.48669 -26.49195 -24.73421 -25.36386 -25.06345 -25.83516 -26.89600 -23.60202 -27.30775 -26.69038 -26.76739 -28.23191 -26.21686 -26.64641 -27.09977 -27.15913 -27.35226 -27.59061 -27.18310 -26.47368 -27.94912 -25.81613 -26.20541 -26.94523 -27.00165 -28.00067 -25.01668 -27.77585 -26.75496 -27.28239 -27.30071 -27.59988
21000 7 -25.64749 -25.28104 -26.21756 -24.80281 -25.91732 -25.70521 -26.39251 -26.27383 -26.91282 -25.33132 -25.93908 -25.92212 -25.49623 -26.49648 -24.73688 -25.37142 -25.06846 -25.84309 -26.90480 -23.61095 -27.31543 -26.70151 -26.77555 -28.23959 -26.22925 -26.65603 -27.09850 -27.17162 -27.36106 -27.59427 -27.19174 -26.48181 -27.95777 -25.82621 -26.21005 -26.95658 -27.00980 -28.00900 -25.03058 -27.78772 -26.75538 -27.28691 -27.31497 -27.60294
22000 7 -25.65630 -25.28945 -26.22535 -24.81191 -25.92604 -25.71594 -26.39259 -26.28600 -26.91731 -25.33936 -25.94083 -25.93327 -25.50591 -26.50188 -24.74025 -25.37918 -25.07473 -25.85182 -26.91361 -23.62099 -27.32323 -26.71224 -26.78396 -28.24738 -26.24114 -26.66541 -27.09859 -27.18379 -27.36987 -27.59875 -27.20046 -26.48985 -27.96648 -25.83602 -26.21491 -26.96774 -27.01821 -28.01710 -25.04474 -27.79919 -26.75713 -27.29231 -27.32857 -27.60633
23000 7 -25.66515 -25.29811 -26.23329 -24.82142 -25.93485 -25.72638 -26.39386 -26.29795 -26.92252 -25.34739 -25.94372 -25.94430 -25.51573 -26.50803 -24.74432 -25.38719 -25.08205 -25.86120 -26.92246 -23.63193 -27.33117 -26.72268 -26.79262 -28.25533 -26.25267 -26.67466 -27.09986 -27.19574 -27.37872 -27.60397 -27.20927 -26.49787 -27.97530 -25.84568 -26.22005 -26.97877 -27.02688 -28.02503 -25.05907 -27.81035 -26.76002 -27.29846 -27.34164 -27.61011
24000 7 -25.67405 -25.30699 -26.24138 -24.83125 -25.94376 -25.73660 -26.39615 -26.30970 -26.92837 -25.35545 -25.94758 -25.95524 -25.52567 -26.51481 -24.74901 -25.39541 -25.09021 -25.87111 -26.93136 -23.64356 -27.33925 -26.73290 -26.80150 -28.26341 -26.26391 -26.68385 -27.10215 -27.20749 -27.38761 -27.60982 -27.21818 -26.50594 -27.98421 -25.85526 -26.22550 -26.98971 -27.03576 -28.03283 -25.07349 -27.82126 -26.76388 -27.30524 -27.35428 -27.61428
25000 7 -25.68299 -25.31607 -26.24961 -24.84136 -25.95277 -25.74665 -26.39932 -26.32131 -26.93475 -25.36358 -25.95227 -25.96612 -25.53572 -26.52212 -24.75428 -25.40386 -25.09907 -25.88142 -26.94030 -23.65573 -27.34748 -26.74296 -26.81058 -28.27164 -26.27495 -26.69302 -27.10531 -27.21910 -27.39656 -27.61620 -27.22719 -26.51407 -27.99322 -25.86480 -26.23127 -27.00058 -27.04483 -28.04055 -25.08795 -27.83198 -26.76857 -27.31255 -27.36657 -27.61885
5000 8 -25.26954 -24.94703 -25.84108 -24.53267 -25.52400 -25.17320 -26.41495 -25.73750 -26.77550 -24.84245 -25.97476 -25.40461 -25.11463 -26.37852 -24.36877 -24.91451 -25.17516 -25.75082 -26.52685 -23.39117 -26.93896 -26.16951 -26.44154 -27.86312 -25.60381 -26.08718 -27.12094 -26.63529 -26.98310 -27.45695 -26.79842 -25.99294 -27.56445 -25.21746 -25.70473 -26.43907 -26.67579 -27.61567 -24.35860 -27.20023 -26.79106 -27.16895 -26.69301 -27.16569
6000 8 -25.33444 -25.00804 -25.91073 -24.58292 -25.59281 -25.25596 -26.44751 -25.81969 -26.82193 -24.92740 -26.00035 -25.48860 -25.17926 -26.41836 -24.45589 -24.99896 -25.12881 -25.75170 -26.59175 -23.38547 -27.00861 -26.25227 -26.50255 -27.93277 -25.70406 -26.18529 -27.15350 -26.71748 -27.04801 -27.50338 -26.86723 -26.07789 -27.63326 -25.32364 -25.80764 -26.52306 -26.73680 -27.68233 -24.33859 -27.28536 -26.81665 -27.20879 -26.78836 -27.25803
7000 8 -25.38464 -25.05190 -25.96432 -24.61224 -25.64508 -25.32303 -26.45555 -25.88533 -26.84761 -24.99485 -25.99860 -25.55408 -25.22433 -26.43394 -24.51813 -25.05763 -25.07241 -25.72903 -26.64195 -23.35650 -27.06219 -26.31934 -26.54641 -27.98635 -25.78559 -26.26352 -27.16155 -26.78312 -27.09821 -27.52905 -26.91951 -26.14534 -27.68553 -25.40852 -25.88731 -26.58854 -26.78066 -27.73487 -24.29905 -27.35432 -26.81490 -27.22437 -26.86641 -27.33020
8000 8 -25.42341 -25.08267 -26.00481 -24.62761 -25.68401 -25.37787 -26.44541 -25.93767 -26.85690 -25.04831 -25.97937 -25.60449 -25.25456 -26.43222 -24.56059 -25.09573 -25.02063 -25.69786 -26.68072 -23.34433 -27.10268 -26.37417 -26.57718 -28.02684 -25.85226 -26.32522 -27.15140 -26.83547 -27.13697 -27.53834 -26.95843 -26.19880 -27.72446 -25.47619 -25.94702 -26.63895 -26.81144 -27.77646 -24.27770 -27.41065 -26.79567 -27.22265 -26.93091 -27.38485
9000 8 -25.45313 -25.10398 -26.03458 -24.63477 -25.71222 -25.42276 -26.42468 -25.97909 -26.85498 -25.09032 -25.95209 -25.64259 -25.27401 -26.42046 -24.58790 -25.11829 -24.97875 -25.66698 -26.71044 -23.34260 -27.13245 -26.41907 -26.59849 -28.05661 -25.90660 -26.37284 -27.13067 -26.87688 -27.16669 -27.53643 -26.98664 -26.24081 -27.75267 -25.52953 -25.98962 -26.67705 -26.83274 -27.80926 -24.26808 -27.45663 -26.76839 -27.21090 -26.98427 -27.42420
10000 8 -25.47591 -25.11891 -26.05589 -24.63779 -25.73220 -25.45956 -26.39976 -26.01166 -26.84670 -25.12312 -25.92335 -25.67098 -25.28620 -26.40446 -24.60447 -25.13008 -24.94732 -25.64032 -26.73322 -23.34787 -27.15377 -26.45587 -26.61342 -28.07793 -25.95070 -26.40874 -27.10576 -26.90945 -27.18948 -27.52815 -27.00662 -26.27361 -27.77265 -25.57110 -26.01828 -26.70545 -26.84767 -27.83504 -24.26644 -27.49409 -26.73965 -27.19489 -27.02835 -27.45081
11000 8 -25.49328 -25.12882 -26.07065 -24.63868 -25.74592 -25.48922 -26.37346 -26.03690 -26.83473 -25.14756 -25.89508 -25.69138 -25.29353 -26.38712 -24.61089 -25.13317 -24.92125 -25.61797 -26.75059 -23.34248 -27.16853 -26.48552 -26.62333 -28.09269 -25.98590 -26.43474 -27.07946 -26.93470 -27.20684 -27.51618 -27.02034 -26.29805 -27.78637 -25.60256 -26.03549 -26.72584 -26.85758 -27.85507 -24.26157 -27.52435 -26.71138 -27.17755 -27.06446 -27.46680
12000 8 -25.50694 -25.13634 -26.08093 -24.63961 -25.75553 -25.51353 -26.34955 -26.05682 -26.82247 -25.16622 -25.87071 -25.70639 -25.29836 -26.37145 -24.61275 -25.13235 -24.90332 -25.60134 -26.76425 -23.34367 -27.17880 -26.50984 -26.63085 -28.10296 -26.01423 -26.45350 -27.05554 -26.95462 -27.22051 -27.50391 -27.02995 -26.31671 -27.79597 -25.62659 -26.04500 -26.74086 -26.86511 -27.87085 -24.26280 -27.54902 -26.68701 -27.16188 -27.09425 -27.47543
13000 8 -25.51815 -25.14282 -26.08832 -24.64153 -25.76258 -25.53379 -26.32929 -26.07294 -26.81150 -25.18079 -25.85095 -25.71783 -25.30213 -26.35858 -24.61243 -25.12991 -24.89226 -25.59003 -26.77546 -23.34984 -27.18619 -26.53009 -26.63733 -28.11035 -26.03730 -26.46713 -27.03528 -26.97073 -27.23172 -27.49294 -27.03700 -26.33128 -27.80303 -25.64521 -26.04962 -26.75230 -26.87158 -27.88352 -24.26862 -27.56943 -26.66725 -27.14902 -27.11906 -27.47925
14000 8 -25.52785 -25.14912 -26.09404 -24.64486 -25.76827 -25.55106 -26.31311 -26.08646 -26.80265 -25.19259 -25.83583 -25.72708 -25.30581 -26.34894 -24.61155 -25.12734 -24.88689 -25.58340 -26.78516 -23.35981 -27.19191 -26.54736 -26.64363 -28.11607 -26.05648 -26.47734 -27.01910 -26.98425 -27.24141 -27.48409 -27.04269 -26.34308 -27.80871 -25.66007 -26.05146 -26.76155 -26.87788 -27.89401 -24.27792 -27.58668 -26.65213 -27.13938 -27.14007 -27.48027
15000 8 -25.53673 -25.15578 -26.09898 -24.64976 -25.77340 -25.56621 -26.30095 -26.09832 -26.79625 -25.20269 -25.82503 -25.73515 -25.30994 -26.34250 -24.61109 -25.12552 -24.88620 -25.58080 -26.79404 -23.37271 -27.19686 -26.56252 -26.65029 -28.12102 -26.07290 -26.48546 -27.00694 -26.99612 -27.25029 -27.47770 -27.04782 -26.35317 -27.81385 -25.67249 -26.05207 -26.76962 -26.88454 -27.90305 -24.28990 -27.60166 -26.64133 -27.13294 -27.15825 -27.47998
16000 8 -25.54526 -25.16307 -26.10374 -24.65620 -25.77852 -25.57993 -26.29251 -26.10922 -26.79233 -25.21182 -25.81808 -25.74273 -25.31484 -26.33905 -24.61160 -25.12488 -24.88931 -25.58159 -26.80257 -23.38789 -27.20162 -26.57624 -26.65758 -28.12578 -26.08741 -26.49246 -26.99850 -27.00701 -27.25882 -27.47378 -27.05294 -26.36231 -27.81897 -25.68341 -26.05244 -26.77720 -26.89184 -27.91120 -24.30395 -27.61509 -26.63438 -27.12948 -27.17439 -27.47938
17000 8 -25.55374 -25.17112 -26.10870 -24.66406 -25.78395 -25.59271 -26.28739 -26.11961 -26.79074 -25.22051 -25.81447 -25.75027 -25.32062 -26.33827 -24.61334 -25.12564 -24.89550 -25.58519 -26.81105 -23.40480 -27.20657 -26.58902 -26.66563 -28.13073 -26.10068 -26.49898 -26.99338 -27.01740 -27.26731 -27.47219 -27.05837 -26.37099 -27.82440 -25.69351 -26.05320 -26.78473 -26.89988 -27.91882 -24.31956 -27.62747 -26.63077 -27.12870 -27.18907 -27.47910
18000 8 -25.56227 -25.17955 -26.11400 -24.67295 -25.78979 -25.60455 -26.28452 -26.12963 -26.79093 -25.22868 -25.81335 -25.75779 -25.32714 -26.33946 -24.61568 -25.12739 -24.90333 -25.59069 -26.81958 -23.42136 -27.21188 -26.60086 -26.67406 -28.13603 -26.11297 -26.50529 -26.99051 -27.02742 -27.27583 -27.47238 -27.06421 -26.37917 -27.83024 -25.70302 -26.05448 -26.79225 -26.90832 -27.92613 -24.33556 -27.63909 -26.62965 -27.12989 -27.20266 -27.47934
19000 8 -25.57068 -25.18734 -26.11960 -24.68211 -25.79597 -25.61476 -26.28194 -26.13898 -26.79183 -25.23547 -25.81341 -25.76487 -25.33395 -26.34145 -24.61687 -25.12911 -24.91026 -25.59678 -26.82799 -23.43354 -27.21747 -26.61106 -26.68185 -28.14163 -26.12411 -26.51122 -26.98793 -27.03677 -27.28425 -27.47328 -27.07039 -26.38596 -27.83642 -25.71170 -26.05595 -26.79934 -26.91610 -27.93310 -24.34991 -27.64998 -26.62971 -27.13189 -27.21520 -27.47986
20000 8 -25.57937 -25.19579 -26.12577 -24.69219 -25.80273 -25.62473 -26.28153 -26.14843 -26.79439 -25.24249 -25.81555 -25.77240 -25.34157 -26.34520 -24.61939 -25.13218 -24.91897 -25.60451 -26.83668 -23.44721 -27.22364 -26.62104 -26.69030 -28.14780 -26.13498 -26.51750 -26.98752 -27.04623 -27.29293 -27.47584 -27.07715 -26.39298 -27.84318 -25.72045 -26.05839 -26.80687 -26.92455 -27.94010 -24.36531 -27.66062 -26.63185 -27.13563 -27.22728 -27.48132
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22000 8 -25.59760 -25.21440 -26.13976 -24.71453 -25.81794 -25.64449 -26.28597 -26.16794 -26.80354 -25.25750 -25.82476 -25.78886 -25.35890 -26.35683 -24.62797 -25.14181 -24.94035 -25.62369 -26.85491 -23.47765 -27.23763 -26.64080 -26.70891 -28.16179 -26.15646 -26.53139 -26.99196 -27.06573 -27.31116 -27.48498 -27.09236 -26.40799 -27.85838 -25.73861 -26.06604 -26.82333 -26.94316 -27.95443 -24.39820 -27.68163 -26.64106 -27.14727 -27.25062 -27.48703
23000 8 -25.60709 -25.22439 -26.14750 -24.72650 -25.82626 -25.65441 -26.29027 -26.17801 -26.80971 -25.26553 -25.83126 -25.79774 -25.36840 -26.36426 -24.63376 -25.14807 -24.95248 -25.63463 -26.86441 -23.49390 -27.24537 -26.65072 -26.71890 -28.16953 -26.16722 -26.53899 -26.99626 -27.07580 -27.32066 -27.49116 -27.10068 -26.41602 -27.86671 -25.74806 -26.07112 -26.83221 -26.95315 -27.96181 -24.41528 -27.69211 -26.64756 -27.15469 -27.26206 -27.49116
24000 8 -25.61680 -25.23473 -26.15565 -24.73884 -25.83498 -25.66439 -26.29563 -26.18827 -26.81670 -25.27390 -25.83873 -25.80698 -25.37831 -26.37248 -24.64035 -25.15509 -24.96527 -25.64621 -26.87411 -23.51056 -27.25352 -26.66069 -26.72924 -28.17768 -26.17803 -26.54699 -27.00162 -27.08606 -27.33036 -27.49815 -27.10940 -26.42438 -27.87543 -25.75776 -26.07691 -26.84144 -26.96349 -27.96932 -24.43256 -27.70261 -26.65503 -27.16292 -27.27341 -27.49602
25000 8 -25.62667 -25.24535 -26.16415 -24.75145 -25.84404 -25.67444 -26.30188 -26.19870 -26.82436 -25.28256 -25.84696 -25.81653 -25.38858 -26.38135 -24.64765 -25.16276 -24.97857 -25.65827 -26.88398 -23.52749 -27.26202 -26.67074 -26.73986 -28.18618 -26.18890 -26.55535 -27.00787 -27.09649 -27.34023 -27.50581 -27.11846 -26.43304 -27.88448 -25.76768 -26.08332 -26.85099 -26.97411 -27.97695 -24.44994 -27.71313 -26.66326 -27.17179 -27.28469 -27.50152
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6000 9 -25.29022 -24.92526 -25.91393 -24.44476 -25.53428 -25.14595 -26.32982 -25.68823 -26.74592 -24.85548 -25.86230 -25.39959 -25.06920 -26.31151 -24.36522 -24.88107 -24.77628 -25.46409 -26.54753 -22.84964 -27.01181 -26.14226 -26.41977 -27.93597 -25.65308 -26.13012 -27.03581 -26.58602 -27.00378 -27.42736 -26.80870 -26.00597 -27.57473 -25.25618 -25.73815 -26.43405 -26.65403 -27.68066 -23.60076 -27.00259 -26.67860 -27.10194 -26.65525 -27.11403
7000 9 -25.33783 -24.95042 -25.96123 -24.42574 -25.57327 -25.21335 -26.28143 -25.74673 -26.72892 -24.91622 -25.78056 -25.44688 -25.07425 -26.25446 -24.39395 -24.88114 -24.64661 -25.34173 -26.59514 -22.80241 -27.05910 -26.20966 -26.44493 -27.98326 -25.73127 -26.19794 -26.98742 -26.64452 -27.05140 -27.41037 -26.84769 -26.06671 -27.61371 -25.33466 -25.80138 -26.48135 -26.67918 -27.73787 -23.52699 -27.08714 -26.59686 -27.04489 -26.74299 -27.18839
8000 9 -25.36353 -24.95201 -25.98267 -24.39180 -25.58574 -25.25824 -26.20809 -25.77896 -26.68336 -24.95153 -25.68829 -25.46470 -25.05490 -26.17855 -24.39037 -24.84977 -24.55210 -25.24143 -26.62084 -22.78358 -27.08054 -26.25455 -26.44652 -28.00470 -25.78413 -26.23572 -26.91408 -26.67675 -27.07710 -27.36480 -26.86016 -26.10202 -27.62618 -25.38399 -25.82912 -26.49916 -26.68078 -27.77200 -23.48838 -27.14837 -26.50459 -26.96898 -26.80750 -27.23155
9000 9 -25.37337 -24.94132 -25.98508 -24.35776 -25.58037 -25.28521 -26.13349 -25.79127 -26.62877 -24.96768 -25.60687 -25.46266 -25.02616 -26.10621 -24.37037 -24.80764 -24.48834 -25.16743 -26.63068 -22.78333 -27.08295 -26.28151 -26.43583 -28.00711 -25.81625 -26.24998 -26.83948 -26.68906 -27.08694 -27.31022 -26.85479 -26.11816 -27.62082 -25.41042 -25.83112 -26.49712 -26.67009 -27.78815 -23.47274 -27.19025 -26.42317 -26.89665 -26.85266 -27.24942
10000 9 -25.37396 -24.92742 -25.97660 -24.33078 -25.56633 -25.29982 -26.06982 -25.79145 -26.57813 -24.97197 -25.54329 -25.45086 -24.99809 -26.04715 -24.34631 -24.76766 -24.44917 -25.11690 -26.63127 -22.79636 -27.07448 -26.29612 -26.42193 -27.99864 -25.83364 -26.24946 -26.77582 -26.68924 -27.08753 -27.25957 -26.84075 -26.12246 -27.60677 -25.42176 -25.81910 -26.48533 -26.65618 -27.79245 -23.47341 -27.21755 -26.35959 -26.83758 -26.88303 -27.25061
11000 9 -25.37100 -24.91477 -25.96412 -24.31399 -25.55024 -25.30654 -26.02046 -25.78578 -26.53611 -24.96900 -25.49709 -25.43546 -24.97524 -26.00289 -24.32125 -24.73151 -24.42696 -25.08409 -26.62831 -22.80602 -27.06200 -26.30285 -26.40928 -27.98615 -25.84184 -26.24136 -26.72646 -26.68357 -27.08457 -27.21756 -26.82466 -26.11948 -27.59068 -25.42458 -25.80142 -26.46993 -26.64354 -27.79049 -23.47610 -27.23508 -26.31339 -26.79332 -26.90327 -27.24322
12000 9 -25.36823 -24.90708 -25.95246 -24.30671 -25.53673 -25.31036 -25.98585 -25.77969 -26.50558 -24.96498 -25.46700 -25.42249 -24.96011 -25.97332 -24.30269 -24.70560 -24.41994 -25.06706 -26.62554 -22.82603 -27.05034 -26.30666 -26.40159 -27.97449 -25.84622 -26.23221 -26.69185 -26.67748 -27.08180 -27.18703 -26.81115 -26.11547 -27.57718 -25.42492 -25.78520 -26.45695 -26.63584 -27.78679 -23.49022 -27.24732 -26.28330 -26.76375 -26.91779 -27.23382
13000 9 -25.36772 -24.90512 -25.94409 -24.30778 -25.52775 -25.31411 -25.96416 -25.77592 -26.48593 -24.96273 -25.45022 -25.41410 -24.95270 -25.95628 -24.29155 -24.68958 -24.42452 -25.06234 -26.62503 -22.85356 -27.04196 -26.31042 -26.39963 -27.96612 -25.85010 -26.22531 -26.67016 -26.67371 -27.08129 -27.16738 -26.80217 -26.11322 -27.56820 -25.42607 -25.77338 -26.44856 -26.63388 -27.78403 -23.51267 -27.25741 -26.26651 -26.74671 -26.92975 -27.22610
14000 9 -25.37027 -24.90859 -25.93988 -24.31567 -25.52376 -25.31933 -25.95310 -25.77561 -26.47563 -24.96348 -25.44400 -25.41083 -24.95211 -25.94937 -24.28738 -24.68213 -24.43778 -25.06698 -26.62758 -22.88639 -27.03776 -26.31563 -26.40310 -27.96192 -25.85528 -26.22207 -26.65910 -26.67340 -27.08384 -27.15708 -26.79818 -26.11397 -27.56421 -25.42961 -25.76685 -26.44530 -26.63735 -27.78353 -23.54107 -27.26728 -26.26029 -26.73980 -26.94114 -27.22174
15000 9 -25.37594 -24.91672 -25.93984 -24.32888 -25.52443 -25.32662 -25.95048 -25.77895 -26.47295 -24.96754 -25.44593 -25.41237 -24.95715 -25.95039 -24.28919 -24.68171 -24.45739 -25.07863 -26.63325 -22.92278 -27.03772 -26.32292 -26.41123 -27.96187 -25.86252 -26.22277 -26.65647 -26.67674 -27.08951 -27.15439 -26.79885 -26.11803 -27.56488 -25.43604 -25.76543 -26.44684 -26.64548 -27.78570 -23.57354 -27.27794 -26.26223 -26.74082 -26.95304 -27.22119
16000 9 -25.38440 -24.92859 -25.94350 -24.34606 -25.52909 -25.33606 -25.95434 -25.78561 -26.47624 -24.97466 -25.45402 -25.41804 -24.96662 -25.95744 -24.29584 -24.68682 -24.48151 -25.09537 -26.64171 -22.96137 -27.04138 -26.33236 -26.42310 -27.96554 -25.87194 -26.22711 -26.66034 -26.68340 -27.09797 -27.15769 -26.80351 -26.12515 -27.56954 -25.44524 -25.76846 -26.45250 -26.65735 -27.79046 -23.60863 -27.28977 -26.27032 -26.74787 -26.96589 -27.22424
17000 9 -25.39518 -24.94333 -25.95025 -24.36607 -25.53700 -25.34742 -25.96311 -25.79508 -26.48411 -24.98440 -25.46666 -25.42705 -24.97947 -25.96898 -24.30625 -24.69615 -24.50870 -25.11570 -26.65249 -23.00112 -27.04813 -26.34373 -26.43784 -27.97228 -25.88336 -26.23455 -26.66911 -26.69287 -27.10874 -27.16556 -26.81142 -26.13489 -27.57745 -25.45684 -25.77517 -26.46151 -26.67209 -27.79749 -23.64523 -27.30283 -26.28296 -26.75942 -26.97978 -27.23040
18000 9 -25.40777 -24.95980 -25.95942 -24.38797 -25.54737 -25.36007 -25.97501 -25.80656 -26.49495 -24.99586 -25.48238 -25.43832 -24.99451 -25.98334 -24.31891 -24.70802 -24.53726 -25.13798 -26.66508 -23.03992 -27.05729 -26.35637 -26.45431 -27.98145 -25.89635 -26.24434 -26.68101 -26.70435 -27.12133 -27.17640 -26.82179 -26.14634 -27.58781 -25.47029 -25.78461 -26.47278 -26.68856 -27.80638 -23.68166 -27.31695 -26.29868 -26.77377 -26.99462 -27.23910
19000 9 -25.42171 -24.97650 -25.97035 -24.41090 -25.55942 -25.37283 -25.98782 -25.81897 -26.50677 -25.00757 -25.49976 -25.45040 -25.01034 -25.99845 -24.33166 -24.72019 -24.56487 -25.16012 -26.67902 -23.07421 -27.06822 -26.36914 -26.47101 -27.99238 -25.91030 -26.25558 -26.69381 -26.71676 -27.13528 -27.18822 -26.83384 -26.15806 -27.59986 -25.48492 -25.79578 -26.48486 -26.70527 -27.81674 -23.71544 -27.33194 -26.31606 -26.78888 -27.01021 -27.24979
20000 9 -25.43663 -24.99425 -25.98271 -24.43453 -25.57290 -25.38661 -26.00257 -25.83272 -26.52047 -25.02062 -25.51874 -25.46403 -25.02748 -26.01527 -24.34614 -24.73426 -24.59318 -25.18337 -26.69394 -23.10862 -27.08059 -26.38291 -26.48876 -28.00474 -25.92525 -26.26832 -26.70856 -26.73051 -27.15019 -27.20191 -26.84732 -26.17111 -27.61334 -25.50068 -25.80865 -26.49849 -26.72301 -27.82820 -23.74933 -27.34758 -26.33503 -26.80570 -27.02638 -27.26199
21000 9 -25.45220 -25.01266 -25.99612 -24.45848 -25.58741 -25.40112 -26.01867 -25.84746 -26.53549 -25.03466 -25.53874 -25.47879 -25.04548 -26.03324 -24.36185 -24.74970 -24.62175 -25.20724 -26.70951 -23.14278 -27.09400 -26.39743 -26.50717 -28.01816 -25.94095 -26.28218 -26.72467 -26.74525 -27.16577 -27.21694 -26.86183 -26.18514 -27.62785 -25.51722 -25.82276 -26.51325 -26.74142 -27.84045 -23.78296 -27.36366 -26.35504 -26.82367 -27.04292 -27.27532
22000 9 -25.46819 -25.03143 -26.01027 -24.48245 -25.60261 -25.41616 -26.03567 -25.86287 -26.55141 -25.04938 -25.55935 -25.49433 -25.06401 -26.05192 -24.37840 -24.76606 -24.65025 -25.23138 -26.72550 -23.17639 -27.10814 -26.41246 -26.52594 -28.03230 -25.95713 -26.29683 -26.74167 -26.76066 -27.18175 -27.23286 -26.87703 -26.19987 -27.64306 -25.53428 -25.83774 -26.52879 -26.76019 -27.85326 -23.81606 -27.38001 -26.37565 -26.84236 -27.05969 -27.28945
23000 9 -25.48438 -25.05034 -26.02490 -24.50624 -25.61827 -25.43152 -26.05323 -25.87873 -26.56791 -25.06458 -25.58026 -25.51038 -25.08280 -26.07102 -24.39548 -24.78303 -24.67844 -25.25550 -26.74169 -23.20929 -27.12278 -26.42783 -26.54485 -28.04694 -25.97361 -26.31202 -26.75922 -26.77652 -27.19795 -27.24935 -26.89269 -26.21507 -27.65872 -25.55166 -25.85331 -26.54485 -26.77910 -27.86641 -23.84847 -27.39649 -26.39656 -26.86146 -27.07655 -27.30413
24000 9 -25.50063 -25.06922 -26.03983 -24.52969 -25.63417 -25.44707 -26.07108 -25.89485 -26.58472 -25.08006 -25.60123 -25.52674 -25.10166 -26.09028 -24.41287 -24.80035 -24.70616 -25.27942 -26.75794 -23.24134 -27.13770 -26.44337 -26.56373 -28.06186 -25.99024 -26.32753 -26.77707 -26.79264 -27.21420 -27.26616 -26.90859 -26.23055 -27.67462 -25.56916 -25.86924 -26.56121 -26.79799 -27.87976 -23.88005 -27.41299 -26.41753 -26.88071 -27.09338 -27.31914
25000 9 -25.51683 -25.08796 -26.05489 -24.55271 -25.65018 -25.46268 -26.08903 -25.91108 -26.60166 -25.09569 -25.62208 -25.54325 -25.12045 -26.10953 -24.43039 -24.81784 -24.73329 -25.30300 -26.77414 -23.27249 -27.15277 -26.45899 -26.58247 -28.07693 -26.00690 -26.34322 -26.79502 -26.80887 -27.23040 -27.28311 -26.92460 -26.24618 -27.69063 -25.58668 -25.88536 -26.57772 -26.81672 -27.89318 -23.91074 -27.42940 -26.43838 -26.89996 -27.11010 -27.33433
5000 10 -25.17052 -24.77529 -25.77518 -24.27278 -25.44685 -24.72865 -26.03213 -25.31545 -26.55175 -24.56121 -25.75323 -25.09628 -24.90679 -26.19423 -24.16117 -24.67661 -24.70430 -25.39796 -26.42783 -22.56720 -26.87305 -25.72495 -26.26980 -27.79721 -25.39484 -25.86954 -26.73813 -26.21324 -26.88409 -27.23320 -26.72127 -25.71169 -27.48730 -25.03537 -25.52100 -26.13075 -26.50405 -27.45107 -23.32123 -26.53891 -26.56953 -26.98466 -26.24920 -26.74804
6000 10 -25.27973 -24.84523 -25.88625 -24.26881 -25.53470 -24.85251 -26.07020 -25.43246 -26.60853 -24.66904 -25.67475 -25.19307 -24.94270 -26.15572 -24.22884 -24.70852 -24.48128 -25.20084 -26.53704 -22.49871 -26.98413 -25.84881 -26.33974 -27.90828 -25.52353 -25.99166 -26.77620 -26.33025 -26.99329 -27.28997 -26.80912 -25.81953 -27.57514 -25.16067 -25.63649 -26.22754 -26.57399 -27.58414 -23.21734 -26.68471 -26.49105 -26.94615 -26.39558 -26.88850
7000 10 -25.34384 -24.86024 -25.95085 -24.21301 -25.57032 -24.93364 -26.03707 -25.50336 -26.60294 -24.72872 -25.53803 -25.23538 -24.91631 -26.04842 -24.22581 -24.66489 -24.31619 -25.02790 -26.60115 -22.43637 -27.04872 -25.92995 -26.35475 -27.97288 -25.60960 -26.06792 -26.74306 -26.40115 -27.05741 -27.28438 -26.84474 -25.87921 -27.61077 -25.23877 -25.69850 -26.26985 -26.58900 -27.67682 -23.12681 -26.79742 -26.35433 -26.83886 -26.50907 -26.99337
8000 10 -25.37168 -24.84266 -25.97680 -24.15021 -25.56741 -24.97882 -25.96897 -25.53565 -26.55920 -24.75022 -25.41084 -25.23722 -24.86567 -25.93583 -24.18730 -24.59643 -24.20950 -24.90628 -26.62899 -22.41658 -27.07467 -25.97512 -26.33717 -27.99883 -25.65945 -26.10526 -26.67496 -26.43344 -27.08525 -27.24065 -26.84183 -25.90071 -27.60786 -25.27782 -25.71761 -26.27169 -26.57142 -27.73520 -23.08629 -26.88361 -26.22713 -26.72626 -26.59637 -27.06807
9000 10 -25.37841 -24.81806 -25.97979 -24.10479 -25.54786 -25.00013 -25.90278 -25.54431 -26.50887 -24.75101 -25.31929 -25.22138 -24.82013 -25.85020 -24.14597 -24.53768 -24.15235 -24.83366 -26.63572 -22.42945 -27.07766 -25.99643 -26.31257 -28.00182 -25.68462 -26.11797 -26.60878 -26.44210 -27.09198 -27.19031 -26.82228 -25.90150 -27.58831 -25.29294 -25.71409 -26.25584 -26.54682 -27.76901 -23.08331 -26.94925 -26.13559 -26.64063 -26.66338 -27.11961
10000 10 -25.37909 -24.80212 -25.97612 -24.08331 -25.52949 -25.01131 -25.85614 -25.54529 -26.47098 -24.74753 -25.26515 -25.20635 -24.79240 -25.79791 -24.11855 -24.50137 -24.13390 -24.80088 -26.63640 -22.46724 -27.07400 -26.00762 -26.29663 -27.99816 -25.69863 -26.12180 -26.56213 -26.44309 -27.09266 -27.15243 -26.80391 -25.89802 -27.56993 -25.29991 -25.70669 -26.24082 -26.53089 -27.79006 -23.10863 -27.00093 -26.08145 -26.58835 -26.71653 -27.15692
11000 10 -25.38297 -24.79881 -25.97540 -24.08473 -25.51989 -25.02137 -25.83162 -25.54807 -26.44983 -24.74704 -25.24146 -25.19903 -24.78306 -25.77394 -24.10434 -24.48254 -24.14195 -24.79611 -26.64028 -22.50986 -27.07327 -26.01768 -26.29332 -27.99743 -25.71074 -26.12629 -26.53761 -26.44586 -27.09654 -27.13128 -26.79431 -25.89753 -27.56034 -25.30774 -25.70402 -26.23350 -26.52758 -27.80745 -23.14392 -27.04450 -26.05776 -26.56437 -26.76148 -27.18770
12000 10 -25.39324 -24.80830 -25.98173 -24.10253 -25.52136 -25.03526 -25.82619 -25.55716 -26.44527 -24.75440 -25.24057 -25.20278 -24.78978 -25.77202 -24.10619 -24.48263 -24.16953 -24.81232 -26.65055 -22.56632 -27.07961 -26.03157 -26.30281 -28.00376 -25.72608 -26.13643 -26.53218 -26.45495 -27.10680 -27.12672 -26.79578 -25.90489 -27.56181 -25.32122 -25.71050 -26.23725 -26.53706 -27.82616 -23.19444 -27.08402 -26.05687 -26.56245 -26.80222 -27.21686
13000 10 -25.40958 -24.82738 -25.99489 -24.13118 -25.53202 -25.05372 -25.83467 -25.57259 -26.45328 -24.76897 -25.25506 -25.21577 -24.80787 -25.78520 -24.11989 -24.49612 -24.20929 -24.84197 -26.66689 -22.63032 -27.09276 -26.05002 -26.32189 -28.01692 -25.74558 -26.15250 -26.54066 -26.47038 -27.12315 -27.13473 -26.80644 -25.91946 -27.57247 -25.34044 -25.72514 -26.25023 -26.55615 -27.84757 -23.25359 -27.12157 -26.07136 -26.57563 -26.84079 -27.24637
14000 10 -25.43049 -24.85282 -26.01329 -24.16631 -25.54928 -25.07590 -25.85247 -25.59293 -26.46992 -24.78894 -25.27928 -25.23537 -24.83329 -25.80805 -24.14151 -24.51835 -24.25591 -24.87957 -26.68780 -22.69743 -27.11116 -26.07221 -26.34733 -28.03532 -25.76856 -26.17327 -26.55846 -26.49072 -27.14406 -27.15136 -26.82370 -25.93943 -27.58972 -25.36408 -25.74580 -26.26984 -26.58158 -27.87143 -23.31672 -27.15794 -26.09558 -26.59849 -26.87802 -27.27662
15000 10 -25.45438 -24.88202 -26.03523 -24.20481 -25.57083 -25.10063 -25.87612 -25.61660 -26.49207 -24.81250 -25.30928 -25.25929 -24.86301 -25.83672 -24.16802 -24.54592 -24.30583 -24.92141 -26.71169 -22.76480 -27.13311 -26.09694 -26.37653 -28.05727 -25.79392 -26.19723 -26.58211 -26.51439 -27.16795 -27.17352 -26.84525 -25.96299 -27.61127 -25.39065 -25.77042 -26.29375 -26.61078 -27.89698 -23.38081 -27.19332 -26.12558 -26.62715 -26.91413 -27.30735
16000 10 -25.47997 -24.91317 -26.05934 -24.24465 -25.59494 -25.12686 -25.90320 -25.64228 -26.51751 -24.83818 -25.34242 -25.28576 -24.89496 -25.86860 -24.19727 -24.57647 -24.35677 -24.96506 -26.73728 -22.83072 -27.15721 -26.12316 -26.40768 -28.08137 -25.82068 -26.22312 -26.60919 -26.54007 -27.19354 -27.19895 -26.86936 -25.98867 -27.63539 -25.41889 -25.79741 -26.32023 -26.64193 -27.92343 -23.44400 -27.22768 -26.15872 -26.65904 -26.94911 -27.33814
17000 10 -25.50633 -24.94503 -26.08458 -24.28454 -25.62040 -25.15378 -25.93206 -25.66898 -26.54471 -24.86495 -25.37696 -25.31356 -24.92778 -25.90201 -24.22784 -24.60844 -24.40732 -25.00902 -26.76364 -22.89421 -27.18245 -26.15008 -26.43954 -28.10661 -25.84806 -26.24998 -26.63805 -26.56677 -27.21990 -27.22615 -26.89482 -26.01544 -27.66085 -25.44788 -25.82561 -26.34803 -26.67379 -27.95017 -23.50523 -27.26095 -26.19326 -26.69244 -26.98291 -27.36863
18000 10 -25.53279 -24.97650 -26.11013 -24.32368 -25.64625 -25.18064 -25.96128 -25.69584 -26.57229 -24.89173 -25.41169 -25.34152 -24.96028 -25.93537 -24.25822 -24.64014 -24.45609 -25.05182 -26.79011 -22.95353 -27.20800 -26.17695 -26.47101 -28.13216 -25.87541 -26.27701 -26.66727 -26.59363 -27.24636 -27.25374 -26.92067 -26.04222 -27.68670 -25.47689 -25.85395 -26.37599 -26.70526 -27.97677 -23.56310 -27.29306 -26.22799 -26.72580 -27.01549 -27.39856
19000 10 -25.55886 -25.00630 -26.13522 -24.36159 -25.67164 -25.20666 -25.98922 -25.72199 -26.59870 -24.91720 -25.44556 -25.36828 -24.99116 -25.96688 -24.28646 -24.66931 -24.50124 -25.09164 -26.81617 -23.00565 -27.23309 -26.20296 -26.50081 -28.15725 -25.90214 -26.30338 -26.69521 -26.61978 -27.27242 -27.28015 -26.94606 -26.06769 -27.71209 -25.50532 -25.88124 -26.40275 -26.73506 -28.00293 -23.61552 -27.32401 -26.26186 -26.75731 -27.04687 -27.42777
20000 10 -25.58437 -25.03533 -26.16000 -24.39804 -25.69674 -25.23220 -26.01684 -25.74778 -26.62490 -24.94237 -25.47866 -25.39478 -25.02135 -25.99784 -24.31439 -24.69822 -24.54458 -25.13019 -26.84168 -23.05534 -27.25787 -26.22851 -26.52984 -28.18203 -25.92836 -26.32938 -26.72283 -26.64557 -27.29794 -27.30635 -26.97116 -26.09285 -27.73719 -25.53319 -25.90821 -26.42924 -26.76409 -28.02844 -23.66557 -27.35375 -26.29495 -26.78828 -27.07699 -27.45609
21000 10 -25.60920 -25.06344 -26.18429 -24.43296 -25.72134 -25.25715 -26.04388 -25.77304 -26.65063 -24.96705 -25.51076 -25.42079 -25.05066 -26.02802 -24.34175 -24.72661 -24.58605 -25.16731 -26.86651 -23.10258 -27.28216 -26.25345 -26.55795 -28.20632 -25.95392 -26.35484 -26.74987 -26.67083 -27.32277 -27.33208 -26.99576 -26.11754 -27.76179 -25.56035 -25.93464 -26.45526 -26.79220 -28.05319 -23.71323 -27.38230 -26.32706 -26.81846 -27.10590 -27.48347
22000 10 -25.63325 -25.09056 -26.20796 -24.46633 -25.74532 -25.28140 -26.07019 -25.79766 -26.67574 -24.99112 -25.54175 -25.44619 -25.07901 -26.05727 -24.36840 -24.75430 -24.62562 -25.20294 -26.89056 -23.14743 -27.30584 -26.27771 -26.58507 -28.23000 -25.97876 -26.37964 -26.77618 -26.69546 -27.34682 -27.35719 -27.01974 -26.14161 -27.78577 -25.58673 -25.96042 -26.48066 -26.81932 -28.07713 -23.75857 -27.40971 -26.35805 -26.84770 -27.13364 -27.50989
23000 10 -25.65650 -25.11666 -26.23097 -24.49818 -25.76862 -25.30493 -26.09567 -25.82160 -26.70013 -25.01454 -25.57157 -25.47091 -25.10635 -26.08552 -24.39426 -24.78122 -24.66336 -25.23709 -26.91381 -23.19001 -27.32885 -26.30124 -26.61117 -28.25301 -26.00284 -26.40375 -26.80167 -26.71939 -27.37007 -27.38158 -27.04304 -26.16503 -27.80907 -25.61227 -25.98548 -26.50538 -26.84542 -28.10025 -23.80168 -27.43604 -26.38787 -26.87595 -27.16027 -27.53536
24000 10 -25.67893 -25.14174 -26.25328 -24.52856 -25.79119 -25.32771 -26.12030 -25.84480 -26.72375 -25.03725 -25.60021 -25.49490 -25.13268 -26.11274 -24.41930 -24.80731 -24.69932 -25.26977 -26.93624 -23.23043 -27.35115 -26.32402 -26.63625 -28.27531 -26.02614 -26.42711 -26.82629 -26.74259 -27.39250 -27.40520 -27.06561 -26.18774 -27.83163 -25.63696 -26.00977 -26.52937 -26.87050 -28.12254 -23.84267 -27.46131 -26.41651 -26.90317 -27.18583 -27.55990
25000 10 -25.70056 -25.16584 -26.27487 -24.55755 -25.81303 -25.34976 -26.14405 -25.86728 -26.74660 -25.05926 -25.62770 -25.51816 -25.15802 -26.13895 -24.44351 -24.83256 -24.73361 -25.30105 -26.95787 -23.26883 -27.37275 -26.34606 -26.66035 -28.29691 -26.04867 -26.44974 -26.85004 -26.76507 -27.41413 -27.42805 -27.08745 -26.20975 -27.85348 -25.66083 -26.03331 -26.55262 -26.89460 -28.14402 -23.88168 -27.48561 -26.44400 -26.92938 -27.21040 -27.58354
5000 11 -24.93223 -24.65737 -25.47403 -24.11089 -25.24541 -24.30432 -25.59952 -24.95807 -26.25609 -24.12708 -25.34953 -24.69591 -24.86362 -25.84548 -23.91418 -24.38740 -24.49845 -25.20540 -26.18954 -22.32943 -26.57191 -25.30062 -26.15188 -27.49606 -25.04759 -25.55652 -26.30551 -25.85586 -26.64580 -26.93754 -26.51983 -25.27757 -27.28586 -24.78857 -25.24895 -25.73037 -26.38613 -27.24612 -23.09387 -26.41689 -26.16583 -26.63592 -26.13772 -26.62897
6000 11 -25.10138 -24.80025 -25.63704 -24.14367 -25.39679 -24.47772 -25.73045 -25.12330 -26.38426 -24.28578 -25.38863 -24.85092 -24.92651 -25.92855 -24.00263 -24.44875 -24.29072 -25.02493 -26.35869 -22.29015 -26.73492 -25.47403 -26.29476 -27.65908 -25.22177 -25.72297 -26.43645 -26.02109 -26.81495 -27.06571 -26.67121 -25.43627 -27.43724 -24.95154 -25.40775 -25.88539 -26.52901 -27.41185 -23.01970 -26.57577 -26.20493 -26.71898 -26.29677 -26.78527
7000 11 -25.22476 -24.87872 -25.75516 -24.11633 -25.48831 -24.60709 -25.80897 -25.24384 -26.46334 -24.38935 -25.34390 -24.94681 -24.91524 -25.92583 -24.01425 -24.42970 -24.14797 -24.87467 -26.48207 -22.25607 -26.85303 -25.60339 -26.37323 -27.77719 -25.35222 -25.84509 -26.51497 -26.14163 -26.93833 -27.14479 -26.76273 -25.53984 -27.52876 -25.06166 -25.50958 -25.98128 -26.60748 -27.54064 -22.95933 -26.70307 -26.16020 -26.71626 -26.42428 -26.90979
8000 11 -25.31378 -24.91694 -25.83923 -24.08393 -25.53763 -24.70353 -25.85011 -25.33061 -26.50655 -24.45314 -25.28453 -25.00065 -24.88321 -25.89301 -23.99635 -24.39020 -24.07139 -24.78396 -26.57109 -22.26886 -26.93710 -25.69983 -26.41145 -27.86126 -25.45005 -25.93377 -26.55610 -26.22840 -27.02735 -27.18800 -26.81205 -25.60363 -27.57807 -25.13311 -25.57026 -26.03511 -26.64570 -27.64220 -22.95315 -26.80780 -26.10083 -26.68345 -26.52930 -27.01120
9000 11 -25.38087 -24.94193 -25.90186 -24.07331 -25.56798 -24.77806 -25.87545 -25.39591 -26.53359 -24.49668 -25.24858 -25.03496 -24.86428 -25.87070 -23.98434 -24.36639 -24.05030 -24.74845 -26.63818 -22.31879 -26.99973 -25.77437 -26.43644 -27.92389 -25.52608 -26.00101 -26.58145 -26.29370 -27.09443 -27.21504 -26.84240 -25.64717 -27.60842 -25.18360 -25.61064 -26.06942 -26.67070 -27.72461 -22.98896 -26.89619 -26.06488 -26.66114 -26.61803 -27.09598
10000 11 -25.43696 -24.96977 -25.95430 -24.08798 -25.59620 -24.84046 -25.90064 -25.45068 -26.55941 -24.53502 -25.24270 -25.06635 -24.86766 -25.87123 -23.99067 -24.36724 -24.06948 -24.75444 -26.69427 -22.39452 -27.05218 -25.83676 -26.46428 -27.97634 -25.58985 -26.05748 -26.60663 -26.34847 -27.15052 -27.24086 -26.87062 -25.68551 -27.63665 -25.22729 -25.64666 -26.10081 -26.69854 -27.79476 -23.05396 -26.97293 -26.05900 -26.66167 -26.69511 -27.16927
11000 11 -25.48813 -25.00373 -26.00245 -24.12276 -25.62738 -24.89640 -25.93052 -25.50073 -26.58866 -24.57326 -25.26006 -25.09989 -24.88742 -25.89077 -24.01004 -24.38330 -24.11259 -24.78574 -26.74544 -22.47243 -27.10033 -25.89270 -26.49824 -28.02449 -25.64697 -26.10890 -26.63652 -26.39852 -27.20170 -27.27011 -26.90180 -25.72375 -27.66782 -25.26943 -25.68424 -26.13436 -26.73250 -27.85714 -23.12669 -27.04122 -26.07636 -26.68120 -26.76372 -27.23461
12000 11 -25.53725 -25.04361 -26.04929 -24.16900 -25.66328 -24.94899 -25.96583 -25.54908 -26.62279 -24.61397 -25.29278 -25.13771 -24.91996 -25.92393 -24.04144 -24.41363 -24.17013 -24.83299 -26.79456 -22.55886 -27.14716 -25.94530 -26.53812 -28.07132 -25.70051 -26.15831 -26.67182 -26.44687 -27.25082 -27.30423 -26.93771 -25.76446 -27.70373 -25.31289 -25.72524 -26.17217 -26.77237 -27.91440 -23.20937 -27.10314 -26.10908 -26.71437 -26.82592 -27.29418
13000 11 -25.58477 -25.08668 -26.09511 -24.22061 -25.70215 -24.99906 -26.00448 -25.59611 -26.66004 -24.65614 -25.33387 -25.17818 -24.95949 -25.96469 -24.07960 -24.45201 -24.23416 -24.88802 -26.84208 -22.64703 -27.19298 -25.99537 -26.58119 -28.11714 -25.75136 -26.20619 -26.71047 -26.49391 -27.29834 -27.34148 -26.97657 -25.80663 -27.74260 -25.35705 -25.76830 -26.21265 -26.81544 -27.96768 -23.29490 -27.15996 -26.15017 -26.75512 -26.88296 -27.34916
14000 11 -25.63051 -25.13070 -26.13960 -24.27370 -25.74217 -25.04673 -26.04452 -25.64161 -26.69862 -24.69848 -25.37874 -25.21962 -25.00210 -26.00889 -24.12083 -24.49420 -24.29988 -24.94586 -26.88782 -22.73308 -27.23747 -26.04304 -26.62521 -28.16163 -25.79967 -26.25235 -26.75051 -26.53940 -27.34408 -27.38007 -27.01659 -25.84897 -27.78262 -25.40091 -25.81192 -26.25409 -26.85947 -28.01752 -23.37918 -27.21246 -26.19504 -26.79932 -26.93566 -27.40025
15000 11 -25.67426 -25.17423 -26.18243 -24.32606 -25.78208 -25.09202 -26.08457 -25.68529 -26.73728 -24.74006 -25.42462 -25.26083 -25.04541 -26.05402 -24.16285 -24.53763 -24.36463 -25.00368 -26.93157 -22.81508 -27.28030 -26.08832 -26.66874 -28.20446 -25.84550 -26.29660 -26.79056 -26.58308 -27.38783 -27.41872 -27.05650 -25.89055 -27.82252 -25.44371 -25.85502 -26.29529 -26.90299 -28.06427 -23.46012 -27.26125 -26.24092 -26.84445 -26.98461 -27.44792
16000 11 -25.71591 -25.21644 -26.22340 -24.37653 -25.82109 -25.13493 -26.12381 -25.72700 -26.77520 -24.78033 -25.46996 -25.30105 -25.08808 -26.09861 -24.20435 -24.58080 -24.42704 -25.05997 -26.97322 -22.89226 -27.32128 -26.13124 -26.71095 -28.24544 -25.88889 -26.33880 -26.82980 -26.62479 -27.42947 -27.45665 -27.09551 -25.93082 -27.86154 -25.48500 -25.89693 -26.33552 -26.94520 -28.10817 -23.53677 -27.30678 -26.28626 -26.88904 -27.03029 -27.49255
17000 11 -25.75544 -25.25690 -26.26246 -24.42457 -25.85878 -25.17556 -26.16177 -25.76671 -26.81195 -24.81898 -25.51391 -25.33989 -25.12940 -26.14187 -24.24463 -24.62291 -24.48648 -25.11396 -27.01275 -22.96443 -27.36033 -26.17186 -26.75141 -28.28449 -25.92994 -26.37894 -26.86776 -26.66450 -27.46900 -27.49339 -27.13320 -25.96947 -27.89923 -25.52454 -25.93731 -26.37435 -26.98566 -28.14948 -23.60886 -27.34942 -26.33021 -26.93231 -27.07306 -27.53446
18000 11 -25.79284 -25.29523 -26.29949 -24.47001 -25.89465 -25.21393 -26.19800 -25.80434 -26.84708 -24.85573 -25.55594 -25.37676 -25.16858 -26.18306 -24.28284 -24.66281 -24.54219 -25.16487 -27.05015 -23.03053 -27.39737 -26.21023 -26.78974 -28.32153 -25.96871 -26.41696 -26.90399 -26.70214 -27.50640 -27.52852 -27.16907 -26.00622 -27.93509 -25.56223 -25.97543 -26.41122 -27.02399 -28.18840 -23.67571 -27.38950 -26.37224 -26.97349 -27.11325 -27.57391
19000 11 -25.82804 -25.33087 -26.33434 -24.51281 -25.92791 -25.24998 -26.23188 -25.83973 -26.87999 -24.89016 -25.59564 -25.41068 -25.20450 -26.22112 -24.31770 -24.69872 -24.59291 -25.21151 -27.08535 -23.08820 -27.43222 -26.24628 -26.82538 -28.35638 -26.00519 -26.45274 -26.93788 -26.73753 -27.54160 -27.56143 -27.20233 -26.04065 -27.96836 -25.59805 -26.00993 -26.44515 -27.05964 -28.22510 -23.73603 -27.42727 -26.41194 -27.01155 -27.15113 -27.61115
20000 11 -25.86142 -25.36467 -26.36748 -24.55307 -25.95971 -25.28415 -26.26423 -25.87337 -26.91147 -24.92293 -25.63332 -25.44313 -25.23879 -26.25740 -24.35102 -24.73324 -24.64064 -25.25569 -27.11873 -23.14226 -27.46536 -26.28046 -26.85918 -28.38951 -26.03976 -26.48674 -26.97023 -26.77117 -27.57498 -27.59292 -27.23414 -26.07342 -28.00016 -25.63213 -26.04289 -26.47759 -27.09343 -28.25981 -23.79274 -27.46297 -26.44961 -27.04783 -27.18693 -27.64639
21000 11 -25.89311 -25.39672 -26.39902 -24.59096 -25.99010 -25.31660 -26.29510 -25.90538 -26.94158 -24.95414 -25.66903 -25.47415 -25.27149 -26.29193 -24.38283 -24.76636 -24.68558 -25.29751 -27.15042 -23.19297 -27.49689 -26.31291 -26.89123 -28.42105 -26.07258 -26.51909 -27.00109 -26.80317 -27.60667 -27.62302 -27.26452 -26.10463 -28.03054 -25.66459 -26.07439 -26.50862 -27.12549 -28.29273 -23.84610 -27.49682 -26.48533 -27.08236 -27.22087 -27.67982
22000 11 -25.92323 -25.42713 -26.42907 -24.62665 -26.01913 -25.34745 -26.32454 -25.93587 -26.97035 -24.98387 -25.70288 -25.50381 -25.30265 -26.32477 -24.41317 -24.79810 -24.72790 -25.33711 -27.18054 -23.24057 -27.52694 -26.34376 -26.92164 -28.45110 -26.10378 -26.54990 -27.03053 -26.83366 -27.63679 -27.65179 -27.29355 -26.13436 -28.05957 -25.69551 -26.10449 -26.53828 -27.15589 -28.32400 -23.89636 -27.52897 -26.51918 -27.11520 -27.25311 -27.71160
23000 11 -25.95191 -25.45601 -26.45773 -24.66032 -26.04688 -25.37684 -26.35264 -25.96496 -26.99786 -25.01223 -25.73496 -25.53220 -25.33237 -26.35603 -24.44214 -24.82851 -24.76781 -25.37464 -27.20922 -23.28534 -27.55560 -26.37315 -26.95052 -28.47976 -26.13351 -26.57929 -27.05864 -26.86275 -27.66547 -27.67931 -27.32130 -26.16272 -28.08732 -25.72501 -26.13328 -26.56666 -27.18477 -28.35376 -23.94377 -27.55960 -26.55126 -27.14646 -27.28382 -27.74189
24000 11 -25.97924 -25.48346 -26.48510 -24.69212 -26.07342 -25.40487 -26.37948 -25.99273 -27.02418 -25.03930 -25.76539 -25.55937 -25.36071 -26.38578 -24.46979 -24.85764 -24.80549 -25.41023 -27.23656 -23.32750 -27.58298 -26.40118 -26.97797 -28.50714 -26.16187 -26.60735 -27.08548 -26.89052 -27.69281 -27.70563 -27.34784 -26.18979 -28.11387 -25.75318 -26.16084 -26.59383 -27.21222 -28.38214 -23.98855 -27.58882 -26.58169 -27.17621 -27.31313 -27.77079
25000 11 -26.00535 -25.50960 -26.51129 -24.72223 -26.09884 -25.43166 -26.40515 -26.01930 -27.04939 -25.06518 -25.79429 -25.58541 -25.38778 -26.41413 -24.49622 -24.88558 -24.84113 -25.44403 -27.26266 -23.36729 -27.60917 -26.42796 -27.00411 -28.53332 -26.18896 -26.63420 -27.11114 -26.91709 -27.71892 -27.73084 -27.37326 -26.21567 -28.13928 -25.78011 -26.18726 -26.61988 -27.23836 -28.40925 -24.03093 -27.61676 -26.61059 -27.20457 -27.34115 -27.79843
5000 12 -24.75379 -24.32692 -25.27901 -24.05093 -24.83715 -24.11379 -25.25973 -24.76191 -25.94393 -23.65785 -24.72619 -24.25184 -24.72001 -25.37510 -23.49680 -23.99176 -24.20599 -24.93627 -26.01110 -22.03709 -26.37688 -25.11010 -25.82143 -27.30104 -24.87097 -25.37106 -25.96572 -25.65970 -26.46736 -26.62538 -26.11157 -24.80834 -26.87760 -24.37541 -24.83903 -25.28631 -26.05568 -27.16859 -22.91826 -26.38654 -25.54249 -26.16554 -26.10920 -26.59133
6000 12 -24.94986 -24.55075 -25.46859 -24.15108 -25.05937 -24.31046 -25.44628 -24.95275 -26.12350 -23.88063 -24.93563 -24.47528 -24.81154 -25.59419 -23.61685 -24.08894 -24.06405 -24.86646 -26.20717 -22.05595 -26.56646 -25.30677 -26.04526 -27.49062 -25.06790 -25.56239 -26.15227 -25.85054 -26.66343 -26.80495 -26.33379 -25.03112 -27.09981 -24.59845 -25.06267 -25.50975 -26.27952 -27.34542 -22.90546 -26.54956 -25.75193 -26.38463 -26.27228 -26.75327
7000 12 -25.10180 -24.71467 -25.61507 -24.18330 -25.22345 -24.46365 -25.58668 -25.10045 -26.25837 -24.04705 -25.07224 -24.64054 -24.82360 -25.74499 -23.66152 -24.10451 -23.98208 -24.80099 -26.35911 -22.08203 -26.71294 -25.45996 -26.20918 -27.63710 -25.22143 -25.71065 -26.29267 -25.99824 -26.81537 -26.93982 -26.49787 -25.19754 -27.26390 -24.76561 -25.22859 -25.67500 -26.44343 -27.48601 -22.91777 -26.68120 -25.88854 -26.53542 -26.40397 -26.88392
8000 12 -25.22402 -24.84029 -25.73253 -24.21359 -25.34948 -24.58753 -25.69665 -25.21911 -26.36372 -24.17650 -25.17016 -24.76768 -24.83204 -25.85543 -23.69196 -24.11475 -23.97199 -24.79081 -26.48133 -22.16071 -26.83041 -25.58383 -26.33480 -27.75457 -25.34572 -25.82993 -26.40264 -26.11690 -26.93759 -27.04517 -26.62390 -25.32699 -27.38993 -24.89607 -25.35669 -25.80214 -26.56905 -27.60185 -22.98829 -26.79119 -25.98646 -26.64587 -26.51403 -26.99298
9000 12 -25.32693 -24.94485 -25.83158 -24.26469 -25.45378 -24.69196 -25.78936 -25.31921 -26.45261 -24.28414 -25.25587 -24.87292 -24.86461 -25.94856 -23.73630 -24.14834 -24.01652 -24.83049 -26.58424 -22.27541 -26.92946 -25.68827 -26.43936 -27.85362 -25.45054 -25.93061 -26.49535 -26.21700 -27.04049 -27.13406 -26.72820 -25.43463 -27.49423 -25.00468 -25.46289 -25.90739 -26.67361 -27.70055 -23.09863 -26.88567 -26.07217 -26.73899 -26.60858 -27.08665
10000 12 -25.41692 -25.03768 -25.91867 -24.33265 -25.54572 -24.78308 -25.87224 -25.40713 -26.53242 -24.37868 -25.33907 -24.96563 -24.91825 -26.03487 -23.79532 -24.20273 -24.09222 -24.90030 -26.67423 -22.40662 -27.01654 -25.77939 -26.53219 -27.94070 -25.54198 -26.01899 -26.57823 -26.30492 -27.13049 -27.21387 -26.82014 -25.52917 -27.58617 -25.10001 -25.55641 -26.00010 -26.76644 -27.78694 -23.22819 -26.96857 -26.15537 -26.82531 -26.69154 -27.16895
11000 12 -25.49712 -25.12152 -25.99666 -24.40766 -25.62848 -24.86408 -25.94760 -25.48578 -26.60524 -24.46304 -25.41971 -25.04909 -24.97733 -26.11562 -23.85904 -24.26151 -24.18029 -24.98170 -26.75443 -22.52975 -27.09453 -25.86039 -26.61603 -28.01869 -25.62325 -26.09801 -26.65360 -26.38357 -27.21069 -27.28669 -26.90290 -25.61353 -27.66892 -25.18487 -25.64100 -26.08355 -26.85028 -27.86382 -23.35734 -27.04243 -26.23601 -26.90605 -26.76544 -27.24236
12000 12 -25.56967 -25.19838 -26.06756 -24.48357 -25.70430 -24.93714 -26.01713 -25.55720 -26.67269 -24.53980 -25.49690 -25.12550 -25.04129 -26.19174 -23.92475 -24.32534 -24.27135 -25.06702 -26.82698 -22.64971 -27.16543 -25.93345 -26.69289 -28.08959 -25.69652 -26.16971 -26.72313 -26.45499 -27.28323 -27.35414 -26.97872 -25.69029 -27.74475 -25.26199 -25.71846 -26.15997 -26.92715 -27.93315 -23.48414 -27.10903 -26.31320 -26.98217 -26.83208 -27.30866
13000 12 -25.63575 -25.26890 -26.13239 -24.55652 -25.77393 -25.00357 -26.08133 -25.62243 -26.73517 -24.60994 -25.56943 -25.19565 -25.10540 -26.26280 -23.98881 -24.38948 -24.35977 -25.15064 -26.89306 -22.76212 -27.23026 -25.99988 -26.76341 -28.15442 -25.76311 -26.23517 -26.78732 -26.52023 -27.34931 -27.41662 -27.04835 -25.76043 -27.81438 -25.33240 -25.78955 -26.23011 -26.99766 -27.99620 -23.60396 -27.16965 -26.38572 -27.05324 -26.89272 -27.36905
14000 12 -25.69628 -25.33364 -26.19194 -24.62487 -25.83799 -25.06434 -26.14065 -25.68232 -26.79306 -24.67422 -25.63688 -25.26017 -25.16733 -26.32878 -24.04954 -24.45157 -24.44312 -25.23006 -26.95359 -22.86557 -27.28981 -26.06065 -26.82815 -28.21397 -25.82403 -26.29525 -26.84664 -26.58011 -27.40984 -27.47450 -27.11241 -25.82471 -27.87844 -25.39690 -25.85493 -26.29463 -27.06241 -28.05396 -23.71520 -27.22523 -26.45318 -27.11921 -26.94832 -27.42446
15000 12 -25.75201 -25.39323 -26.24689 -24.68823 -25.89708 -25.12026 -26.19557 -25.73755 -26.84676 -24.73334 -25.69936 -25.31967 -25.22610 -26.38991 -24.10639 -24.51061 -24.52065 -25.30442 -27.00932 -22.96009 -27.34476 -26.11657 -26.88774 -28.26892 -25.88007 -26.35065 -26.90157 -26.63534 -27.46557 -27.52820 -27.17150 -25.88383 -27.93753 -25.45622 -25.91523 -26.35414 -27.12199 -28.10719 -23.81773 -27.27654 -26.51566 -27.18035 -26.99964 -27.47563
16000 12 -25.80357 -25.44824 -26.29781 -24.74671 -25.95177 -25.17199 -26.24658 -25.78872 -26.89670 -24.78795 -25.75720 -25.37474 -25.28141 -26.44661 -24.15931 -24.56628 -24.59237 -25.37360 -27.06088 -23.04631 -27.39568 -26.16829 -26.94275 -28.31984 -25.93190 -26.40196 -26.95257 -26.68651 -27.51714 -27.57815 -27.22619 -25.93843 -27.99221 -25.51100 -25.97104 -26.40921 -27.17700 -28.15652 -23.91204 -27.32416 -26.57350 -27.23704 -27.04727 -27.52314
17000 12 -25.85149 -25.49920 -26.34519 -24.80067 -26.00255 -25.22005 -26.29409 -25.83633 -26.94330 -24.83857 -25.81081 -25.42588 -25.33328 -26.49928 -24.20853 -24.61859 -24.65862 -25.43783 -27.10880 -23.12503 -27.44307 -26.21636 -26.99371 -28.36723 -25.98007 -26.44970 -27.00009 -26.73412 -27.56506 -27.62474 -27.27697 -25.98906 -28.04299 -25.56180 -26.02286 -26.46034 -27.22796 -28.20246 -23.99884 -27.36858 -26.62711 -27.28971 -27.09171 -27.56747
18000 12 -25.89619 -25.54656 -26.38944 -24.85037 -26.04962 -25.26489 -26.33844 -25.88077 -26.98683 -24.88571 -25.86060 -25.47325 -25.38138 -26.54817 -24.25391 -24.66709 -24.71941 -25.49718 -27.15350 -23.19617 -27.48731 -26.26120 -27.04107 -28.41147 -26.02500 -26.49427 -27.04443 -26.77856 -27.60976 -27.66828 -27.32404 -26.03620 -28.09007 -25.60916 -26.07077 -26.50772 -27.27532 -28.24542 -24.07872 -27.41019 -26.67689 -27.33861 -27.13333 -27.60901
19000 12 -25.93799 -25.59068 -26.43084 -24.89582 -26.09282 -25.30684 -26.37983 -25.92236 -27.02750 -24.92979 -25.90691 -25.51660 -25.42483 -26.59331 -24.29472 -24.71071 -24.77407 -25.55140 -27.19531 -23.25848 -27.52871 -26.30315 -27.08519 -28.45287 -26.06705 -26.53599 -27.08582 -26.82015 -27.65156 -27.70895 -27.36724 -26.08028 -28.13327 -25.65365 -26.11423 -26.55107 -27.31944 -28.28573 -24.15220 -27.44933 -26.72321 -27.38374 -27.17248 -27.64808
20000 12 -25.97729 -25.63197 -26.46979 -24.93800 -26.13340 -25.34628 -26.41876 -25.96149 -27.06579 -24.97111 -25.95014 -25.55733 -25.46583 -26.63562 -24.33287 -24.75194 -24.82470 -25.60199 -27.23460 -23.31608 -27.56766 -26.34259 -27.12648 -28.49182 -26.10659 -26.57524 -27.12475 -26.85928 -27.69086 -27.74724 -27.40783 -26.12160 -28.17385 -25.69536 -26.15506 -26.59179 -27.36073 -28.32372 -24.22049 -27.48626 -26.76644 -27.42605 -27.20943 -27.68494
21000 12 -26.01436 -25.67074 -26.50655 -24.97729 -26.17164 -25.38349 -26.45548 -25.99842 -27.10194 -25.00995 -25.99063 -25.59571 -25.50456 -26.67540 -24.36866 -24.79097 -24.87172 -25.64931 -27.27167 -23.36950 -27.60442 -26.37980 -27.16525 -28.52858 -26.14389 -26.61228 -27.16147 -26.89621 -27.72792 -27.78339 -27.44606 -26.16044 -28.21209 -25.73459 -26.19354 -26.63017 -27.39950 -28.35962 -24.28413 -27.52122 -26.80693 -27.46583 -27.24440 -27.71985
22000 12 -26.04942 -25.70726 -26.54134 -25.01400 -26.20778 -25.41870 -26.49022 -26.03337 -27.13617 -25.04658 -26.02865 -25.63198 -25.54120 -26.71290 -24.40230 -24.82796 -24.91552 -25.69366 -27.30673 -23.41918 -27.63922 -26.41501 -27.20177 -28.56337 -26.17918 -26.64735 -27.19621 -26.93116 -27.76298 -27.81761 -27.48220 -26.19707 -28.24822 -25.77161 -26.22990 -26.66645 -27.43602 -28.39366 -24.34358 -27.55442 -26.84495 -27.50333 -27.27760 -27.75298
23000 12 -26.08267 -25.74175 -26.57436 -25.04841 -26.24201 -25.45210 -26.52316 -26.06653 -27.16864 -25.08123 -26.06445 -25.66636 -25.57593 -26.74834 -24.43404 -24.86308 -24.95644 -25.73533 -27.33998 -23.46555 -27.67223 -26.44841 -27.23626 -28.59639 -26.21267 -26.68062 -27.22915 -26.96432 -27.79624 -27.85009 -27.51643 -26.23172 -28.28246 -25.80663 -26.26437 -26.70082 -27.47051 -28.42600 -24.39927 -27.58600 -26.88074 -27.53877 -27.30920 -27.78452
24000 12 -26.11428 -25.77440 -26.60576 -25.08075 -26.27452 -25.48386 -26.55446 -26.09807 -27.19953 -25.11407 -26.09823 -25.69900 -25.60889 -26.78190 -24.46404 -24.89646 -24.99476 -25.77455 -27.37159 -23.50893 -27.70364 -26.48017 -27.26891 -28.62779 -26.24452 -26.71227 -27.26046 -26.99586 -27.82785 -27.88097 -27.54894 -26.26456 -28.31496 -25.83984 -26.29710 -26.73346 -27.50316 -28.45681 -24.45154 -27.61613 -26.91453 -27.57233 -27.33934 -27.81460
25000 12 -26.14441 -25.80540 -26.63570 -25.11125 -26.30545 -25.51414 -26.58428 -26.12814 -27.22896 -25.14528 -26.13020 -25.73007 -25.64024 -26.81376 -24.49247 -24.92825 -25.03074 -25.81156 -27.40172 -23.54964 -27.73357 -26.51045 -27.29991 -28.65773 -26.27488 -26.74244 -27.29028 -27.02593 -27.85797 -27.91041 -27.57987 -26.29577 -28.34590 -25.87141 -26.32827 -26.76454 -27.53416 -28.48622 -24.50073 -27.64493 -26.94650 -27.60420 -27.36815 -27.84336
5000 13 -24.69696 -24.18212 -25.21023 -23.84370 -24.69457 -24.06357 -25.13635 -24.69519 -25.82158 -23.49672 -24.50596 -24.10523 -24.34687 -25.22308 -23.04605 -23.56584 -23.81600 -24.63335 -25.95427 -21.81447 -26.30810 -25.05988 -25.67663 -27.23226 -24.82334 -25.30731 -25.84234 -25.59298 -26.41052 -26.50303 -25.96899 -24.64720 -26.73502 -24.22120 -24.69625 -25.13970 -25.91088 -27.14635 -23.11804 -26.37881 -25.32226 -26.01351 -26.10186 -26.58072
6000 13 -24.90414 -24.43633 -25.41297 -23.99396 -24.94453 -24.26938 -25.34741 -24.89872 -26.02528 -23.74739 -24.76906 -24.35621 -24.48977 -25.48064 -23.19266 -23.71154 -23.85784 -24.75728 -26.16145 -21.92009 -26.51084 -25.26569 -25.93084 -27.43500 -25.02920 -25.51099 -26.05340 -25.79651 -26.61770 -26.70673 -26.21895 -24.89788 -26.98498 -24.47184 -24.94718 -25.39067 -26.16509 -27.32777 -23.19455 -26.54347 -25.58536 -26.27107 -26.26651 -26.74499
7000 13 -25.06699 -24.63151 -25.57239 -24.10454 -25.13688 -24.43143 -25.51207 -25.05878 -26.18433 -23.94046 -24.96861 -24.54930 -24.59138 -25.67726 -23.29882 -23.81497 -23.92589 -24.85794 -26.32430 -22.07169 -26.67026 -25.42774 -26.12602 -27.59442 -25.19133 -25.67123 -26.21806 -25.95657 -26.78055 -26.86578 -26.41130 -25.09095 -27.17732 -24.66497 -25.14032 -25.58377 -26.36028 -27.47272 -23.34502 -26.67661 -25.78491 -26.46770 -26.39966 -26.87783
8000 13 -25.20107 -24.79011 -25.70397 -24.22806 -25.29316 -24.56488 -25.64775 -25.19085 -26.31579 -24.09737 -25.13172 -24.70615 -24.70727 -25.83719 -23.41647 -23.93205 -24.04786 -24.98588 -26.45838 -22.27638 -26.80184 -25.56118 -26.28462 -27.72600 -25.32483 -25.80343 -26.35374 -26.08864 -26.91464 -26.99724 -26.56758 -25.24786 -27.33360 -24.82193 -25.29722 -25.74062 -26.51887 -27.59326 -23.55110 -26.78820 -25.94802 -26.62763 -26.51125 -26.98921
9000 13 -25.31503 -24.92389 -25.81616 -24.35791 -25.42493 -24.67822 -25.76359 -25.30339 -26.42846 -24.22962 -25.27085 -24.83836 -24.83179 -25.97261 -23.54039 -24.05742 -24.19188 -25.12601 -26.57234 -22.49037 -26.91403 -25.67452 -26.41840 -27.83819 -25.43821 -25.91605 -26.46959 -26.20118 -27.02860 -27.10991 -26.69935 -25.38011 -27.46538 -24.95420 -25.42947 -25.87283 -26.65266 -27.69632 -23.76854 -26.88415 -26.08715 -26.76305 -26.60720 -27.08503
10000 13 -25.41387 -25.03912 -25.91370 -24.48207 -25.53843 -24.77648 -25.86439 -25.40119 -26.52680 -24.34346 -25.39151 -24.95221 -24.95262 -26.08956 -23.65927 -24.17892 -24.33469 -25.26195 -26.67118 -22.69032 -27.01158 -25.77278 -26.53363 -27.93573 -25.53649 -26.01390 -26.57038 -26.29898 -27.12743 -27.20825 -26.81285 -25.49395 -27.57888 -25.06805 -25.54334 -25.98668 -26.76788 -27.78619 -23.97357 -26.96821 -26.20780 -26.87999 -26.69126 -27.16903
11000 13 -25.50084 -25.13967 -25.99967 -24.59408 -25.63762 -24.86295 -25.95315 -25.48735 -26.61359 -24.44279 -25.49705 -25.05170 -25.06089 -26.19178 -23.76625 -24.28760 -24.46742 -25.38537 -26.75815 -22.86619 -27.09754 -25.85925 -26.63418 -28.02170 -25.62297 -26.10010 -26.65914 -26.38514 -27.21441 -27.29504 -26.91204 -25.59328 -27.67806 -25.16737 -25.64291 -26.08617 -26.86844 -27.86573 -24.16209 -27.04295 -26.31335 -26.98221 -26.76599 -27.24372
12000 13 -25.57837 -25.22865 -26.07640 -24.69497 -25.72545 -24.94004 -26.03230 -25.56424 -26.69112 -24.53072 -25.59046 -25.13979 -25.15980 -26.28227 -23.86290 -24.38687 -24.58752 -25.49721 -26.83568 -23.02228 -27.17427 -25.93634 -26.72316 -28.09843 -25.70006 -26.17701 -26.73830 -26.46203 -27.29194 -27.37257 -26.99987 -25.68121 -27.76590 -25.25528 -25.73108 -26.17426 -26.95741 -27.93700 -24.33065 -27.11019 -26.40676 -27.07271 -26.83323 -27.31093
13000 13 -25.64821 -25.30822 -26.14558 -24.78546 -25.80407 -25.00949 -26.10357 -25.63354 -26.76104 -24.60939 -25.67390 -25.21863 -25.24953 -26.36320 -23.94981 -24.47693 -24.69525 -25.59792 -26.90552 -23.16016 -27.24345 -26.00580 -26.80273 -28.16761 -25.76952 -26.24633 -26.80956 -26.53134 -27.36177 -27.44248 -27.07849 -25.75988 -27.84452 -25.33395 -25.80999 -26.25309 -27.03699 -28.00150 -24.48080 -27.17127 -26.49020 -27.15363 -26.89431 -27.37199
14000 13 -25.71166 -25.38004 -26.20848 -24.86680 -25.87509 -25.07262 -26.16829 -25.69656 -26.82459 -24.68044 -25.74908 -25.28983 -25.33094 -26.43622 -24.02813 -24.55865 -24.79188 -25.68867 -26.96898 -23.28225 -27.30635 -26.06893 -26.87455 -28.23051 -25.83265 -26.30937 -26.87428 -26.59435 -27.42523 -27.50604 -27.14951 -25.83093 -27.91554 -25.40499 -25.88127 -26.32430 -27.10880 -28.06038 -24.61486 -27.22721 -26.56538 -27.22666 -26.95024 -27.42791
15000 13 -25.76977 -25.44539 -26.26611 -24.94026 -25.93976 -25.13044 -26.22750 -25.75429 -26.88280 -24.74513 -25.81735 -25.35467 -25.40506 -26.50264 -24.09902 -24.63305 -24.87884 -25.77077 -27.02708 -23.39088 -27.36399 -26.12675 -26.93989 -28.28814 -25.89048 -26.36711 -26.93349 -26.65208 -27.48334 -27.56425 -27.21418 -25.89562 -27.98021 -25.46967 -25.94617 -26.38914 -27.17415 -28.11451 -24.73508 -27.27880 -26.63365 -27.29307 -27.00183 -27.47949
16000 13 -25.82333 -25.50526 -26.31926 -25.00699 -25.99907 -25.18375 -26.28203 -25.80752 -26.93645 -24.80444 -25.87979 -25.41413 -25.47281 -26.56347 -24.16356 -24.70108 -24.95748 -25.84539 -27.08064 -23.48813 -27.41713 -26.18006 -26.99977 -28.34129 -25.94380 -26.42035 -26.98802 -26.70531 -27.53690 -27.61790 -27.27349 -25.95493 -28.03952 -25.52899 -26.00569 -26.44859 -27.23403 -28.16460 -24.84347 -27.32665 -26.69609 -27.35390 -27.04968 -27.52733
17000 13 -25.87298 -25.56047 -26.36854 -25.06794 -26.05379 -25.23319 -26.33253 -25.85688 -26.98618 -24.85916 -25.93725 -25.46898 -25.53504 -26.61952 -24.22262 -24.76356 -25.02895 -25.91356 -27.13029 -23.57571 -27.46641 -26.22949 -27.05498 -28.39057 -25.99323 -26.46973 -27.03852 -26.75467 -27.58655 -27.66763 -27.32821 -26.00965 -28.09423 -25.58371 -26.06059 -26.50345 -27.28923 -28.21119 -24.94169 -27.37128 -26.75355 -27.40995 -27.09430 -27.57194
18000 13 -25.91923 -25.61164 -26.41447 -25.12360 -26.10451 -25.27925 -26.37953 -25.90287 -27.03249 -24.90991 -25.99040 -25.51982 -25.59227 -26.67144 -24.27657 -24.82103 -25.09391 -25.97604 -27.17654 -23.65500 -27.51234 -26.27555 -27.10615 -28.43650 -26.03930 -26.51574 -27.08552 -26.80066 -27.63280 -27.71394 -27.37893 -26.06040 -28.14496 -25.63447 -26.11148 -26.55429 -27.34041 -28.25472 -25.03169 -27.41307 -26.80670 -27.46187 -27.13609 -27.61372
19000 13 -25.96251 -25.65931 -26.45744 -25.17385 -26.15170 -25.32236 -26.42346 -25.94591 -27.07579 -24.95722 -26.03981 -25.56710 -25.64472 -26.71974 -24.32507 -24.87367 -25.15235 -26.03336 -27.21982 -23.72715 -27.55532 -26.31866 -27.15382 -28.47948 -26.08241 -26.55880 -27.12945 -26.84370 -27.67607 -27.75724 -27.42612 -26.10771 -28.19215 -25.68182 -26.15875 -26.60157 -27.38807 -28.29558 -25.11597 -27.45237 -26.85611 -27.51017 -27.17539 -27.65301
20000 13 -26.00315 -25.70389 -26.49782 -25.22045 -26.19587 -25.36286 -26.46469 -25.98635 -27.11646 -25.00150 -26.08594 -25.61135 -25.69358 -26.76489 -24.37013 -24.92270 -25.20612 -26.08646 -27.26046 -23.79331 -27.59570 -26.35916 -27.19840 -28.51986 -26.12292 -26.59925 -27.17068 -26.88414 -27.71672 -27.79790 -27.47029 -26.15198 -28.23632 -25.72613 -26.20299 -26.64582 -27.43266 -28.33406 -25.19341 -27.48945 -26.90224 -27.55533 -27.21247 -27.69009
21000 13 -26.04147 -25.74575 -26.53590 -25.26385 -26.23737 -25.40105 -26.50353 -26.02449 -27.15478 -25.04308 -26.12918 -25.65293 -25.73924 -26.80727 -24.41218 -24.96855 -25.25581 -26.13585 -27.29878 -23.85426 -27.63378 -26.39735 -27.24026 -28.55794 -26.16112 -26.63740 -27.20952 -26.92228 -27.75504 -27.83623 -27.51179 -26.19357 -28.27782 -25.76775 -26.24457 -26.68740 -27.47452 -28.37043 -25.26486 -27.52455 -26.94548 -27.59771 -27.24757 -27.72518
22000 13 -26.07771 -25.78519 -26.57192 -25.30443 -26.27649 -25.43717 -26.54023 -26.06055 -27.19102 -25.08228 -26.16985 -25.69213 -25.78206 -26.84718 -24.45156 -25.01154 -25.30191 -26.18195 -27.33502 -23.91064 -27.66979 -26.43348 -27.27970 -28.59395 -26.19725 -26.67348 -27.24622 -26.95834 -27.79128 -27.87247 -27.55091 -26.23277 -28.31694 -25.80699 -26.28377 -26.72659 -27.51395 -28.40489 -25.33102 -27.55787 -26.98615 -27.63762 -27.28089 -27.75849
23000 13 -26.11208 -25.82246 -26.60609 -25.34250 -26.31349 -25.47144 -26.57502 -26.09477 -27.22538 -25.11934 -26.20823 -25.72920 -25.82232 -26.88489 -24.48857 -25.05197 -25.34484 -26.22511 -27.36939 -23.96298 -27.70396 -26.46774 -27.31697 -28.62812 -26.23153 -26.70771 -27.28101 -26.99256 -27.82564 -27.90682 -27.58791 -26.26983 -28.35394 -25.84408 -26.32083 -26.76366 -27.55122 -28.43765 -25.39248 -27.58958 -27.02453 -27.67532 -27.31260 -27.79020
24000 13 -26.14475 -25.85778 -26.63857 -25.37832 -26.34857 -25.50402 -26.60807 -26.12730 -27.25803 -25.15447 -26.24455 -25.76434 -25.86028 -26.92060 -24.52345 -25.09010 -25.38493 -26.26564 -27.40206 -24.01174 -27.73645 -26.50032 -27.35229 -28.66061 -26.26411 -26.74026 -27.31406 -27.02509 -27.85832 -27.93948 -27.62299 -26.30496 -28.38902 -25.87925 -26.35598 -26.79881 -27.58654 -28.46885 -25.44975 -27.61983 -27.06085 -27.71103 -27.34285 -27.82044
25000 13 -26.17589 -25.89133 -26.66954 -25.41213 -26.38192 -25.53507 -26.63954 -26.15831 -27.28914 -25.18786 -26.27901 -25.79775 -25.89616 -26.95451 -24.55642 -25.12615 -25.42248 -26.30380 -27.43320 -24.05731 -27.76741 -26.53138 -27.38584 -28.69157 -26.29518 -26.77128 -27.34554 -27.05610 -27.88945 -27.97059 -27.65634 -26.33835 -28.42237 -25.91268 -26.38939 -26.83221 -27.62010 -28.49864 -25.50327 -27.64874 -27.09531 -27.74495 -27.37176 -27.84934
5000 14 -24.68555 -24.15566 -25.19574 -23.47150 -24.66992 -24.05400 -25.11254 -24.68124 -25.79661 -23.46923 -24.46579 -24.08018 -23.97317 -25.19593 -22.62793 -23.18529 -23.46160 -24.30582 -25.94286 -21.85378 -26.29361 -25.05031 -25.65017 -27.21777 -24.81420 -25.29394 -25.81853 -25.57903 -26.39911 -26.47805 -25.94434 -24.61972 -26.71036 -24.19447 -24.67157 -25.11464 -25.88443 -27.14183 -23.49855 -26.37728 -25.28209 -25.98636 -26.10040 -26.57854
6000 14 -24.89586 -24.41718 -25.40232 -23.74981 -24.92648 -24.26237 -25.32992 -24.88846 -26.00680 -23.72653 -24.74222 -24.33771 -24.25357 -25.46257 -22.89669 -23.46795 -23.74824 -24.60562 -26.15317 -22.16477 -26.50019 -25.25867 -25.91169 -27.42435 -25.02255 -25.50122 -26.03592 -25.78625 -26.60942 -26.68825 -26.20090 -24.87701 -26.96692 -24.45166 -24.92902 -25.37218 -26.14594 -27.32456 -23.77266 -26.54239 -25.55852 -26.25300 -26.26549 -26.74348
7000 14 -25.06230 -24.62083 -25.56628 -23.99159 -25.12637 -24.42729 -25.50199 -25.05286 -26.17385 -23.92702 -24.95775 -24.53830 -24.49184 -25.67005 -23.13102 -23.70779 -24.00739 -24.86109 -26.31961 -22.51618 -26.66416 -25.42360 -26.11534 -27.58832 -25.18745 -25.66563 -26.20798 -25.95065 -26.77586 -26.85530 -26.40079 -25.07751 -27.16681 -24.65207 -25.12954 -25.57277 -26.34959 -27.47094 -24.10410 -26.67601 -25.77404 -26.46048 -26.39910 -26.87701
8000 14 -25.19918 -24.78603 -25.70144 -24.20162 -25.28861 -24.56297 -25.64348 -25.18831 -26.31167 -24.08977 -25.13265 -24.70107 -24.69641 -25.83825 -23.33506 -23.91352 -24.23829 -25.08059 -26.45649 -22.84526 -26.79931 -25.55927 -26.28054 -27.72347 -25.32309 -25.80108 -26.34947 -26.08610 -26.91274 -26.99312 -26.56303 -25.24026 -27.32906 -24.81475 -25.29225 -25.73553 -26.51480 -27.59255 -24.41930 -26.78795 -25.94895 -26.62868 -26.51102 -26.98891
9000 14 -25.31486 -24.92392 -25.81583 -24.38056 -25.42414 -24.67768 -25.76290 -25.30293 -26.42829 -24.22570 -25.27837 -24.83699 -24.87018 -25.97851 -23.50916 -24.08819 -24.43692 -25.26673 -26.57217 -23.12971 -26.91370 -25.67398 -26.41843 -27.83786 -25.43778 -25.91568 -26.46889 -26.20072 -27.02843 -27.10974 -26.69856 -25.37619 -27.46458 -24.95062 -25.42813 -25.87146 -26.65268 -27.69627 -24.69440 -26.88411 -26.09467 -26.76895 -26.60717 -27.08504
10000 14 -25.41471 -25.04159 -25.91467 -24.53328 -25.53991 -24.77674 -25.86580 -25.40194 -26.52897 -24.34180 -25.40243 -24.95309 -25.01856 -26.09812 -23.65797 -24.23729 -24.60689 -25.42528 -26.67202 -23.37120 -27.01254 -25.77305 -26.53610 -27.93670 -25.53682 -26.01468 -26.57179 -26.29973 -27.12828 -27.21042 -26.81433 -25.49229 -27.58035 -25.06667 -25.54419 -25.98755 -26.77035 -27.78652 -24.92990 -26.96829 -26.21873 -26.88855 -26.69134 -27.16921
11000 14 -25.50236 -25.14383 -26.00149 -24.66479 -25.64060 -24.86374 -25.95596 -25.48891 -26.61731 -24.44275 -25.50992 -25.05404 -25.14624 -26.20195 -23.78620 -24.36555 -24.75358 -25.56155 -26.75967 -23.57928 -27.09937 -25.86005 -26.63834 -28.02353 -25.62380 -26.10164 -26.66195 -26.38670 -27.21593 -27.29876 -26.91502 -25.59324 -27.68104 -25.16758 -25.64512 -26.08850 -26.87260 -27.86630 -25.13634 -27.04311 -26.32622 -26.99238 -26.76615 -27.24401
12000 14 -25.58035 -25.23399 -26.07880 -24.77960 -25.72946 -24.94119 -26.03605 -25.56633 -26.69589 -24.53183 -25.60447 -25.14312 -25.25800 -26.29343 -23.89828 -24.47778 -24.88133 -25.68046 -26.83766 -23.75811 -27.17668 -25.93750 -26.72850 -28.10083 -25.70123 -26.17905 -26.74204 -26.46413 -27.29392 -27.37734 -27.00388 -25.68232 -27.76990 -25.25663 -25.73419 -26.17759 -26.96276 -27.93772 -25.31515 -27.11039 -26.42077 -27.08387 -26.83343 -27.31129
13000 14 -25.65053 -25.31447 -26.14840 -24.88098 -25.80884 -25.01091 -26.10801 -25.63603 -26.76658 -24.61139 -25.68867 -25.22269 -25.35692 -26.37504 -23.99735 -24.57711 -24.99377 -25.78542 -26.90784 -23.91326 -27.24628 -26.00722 -26.80898 -28.17043 -25.77094 -26.24875 -26.81400 -26.53383 -27.36409 -27.44802 -27.08326 -25.76188 -27.84928 -25.33616 -25.81374 -26.25716 -27.04323 -28.00235 -25.47146 -27.17151 -26.50497 -27.16547 -26.89454 -27.37240
14000 14 -25.71426 -25.38703 -26.21164 -24.97142 -25.88046 -25.07425 -26.17327 -25.69936 -26.83074 -24.68317 -25.76442 -25.29447 -25.44536 -26.44856 -24.08581 -24.66590 -25.09371 -25.87902 -26.97157 -24.04913 -27.30951 -26.07056 -26.88154 -28.23367 -25.83426 -26.31206 -26.87927 -26.59715 -27.42783 -27.51219 -27.15488 -25.83366 -27.92091 -25.40792 -25.88551 -26.32894 -27.11579 -28.06132 -25.60935 -27.22748 -26.58072 -27.23900 -26.95050 -27.42836
15000 14 -25.77260 -25.45302 -26.26955 -25.05282 -25.94564 -25.13225 -26.23294 -25.75735 -26.88946 -24.74848 -25.83317 -25.35979 -25.52514 -26.51539 -24.16552 -24.74599 -25.18334 -25.96324 -27.02991 -24.16920 -27.36743 -26.12855 -26.94753 -28.29158 -25.89225 -26.37004 -26.93893 -26.65514 -27.48617 -27.57091 -27.22006 -25.89897 -27.98608 -25.47321 -25.95082 -26.39426 -27.18178 -28.11553 -25.73202 -27.27909 -26.64946 -27.30582 -27.00211 -27.47996
16000 14 -25.82636 -25.51347 -26.32294 -25.12669 -26.00538 -25.18571 -26.28786 -25.81080 -26.94355 -24.80835 -25.89603 -25.41966 -25.59765 -26.57658 -24.23791 -24.81877 -25.26436 -26.03961 -27.08367 -24.27619 -27.42082 -26.18202 -27.00798 -28.34497 -25.94571 -26.42349 -26.99385 -26.70859 -27.53993 -27.62500 -27.27980 -25.95884 -28.04583 -25.53305 -26.01068 -26.45413 -27.24223 -28.16569 -25.84199 -27.32696 -26.71233 -27.36701 -27.04998 -27.52784
17000 14 -25.87620 -25.56920 -26.37244 -25.19417 -26.06049 -25.23529 -26.33872 -25.86036 -26.99367 -24.86356 -25.95389 -25.47488 -25.66400 -26.63296 -24.30410 -24.88537 -25.33810 -26.10936 -27.13351 -24.37221 -27.47032 -26.23159 -27.06371 -28.39448 -25.99527 -26.47305 -27.04471 -26.75815 -27.58976 -27.67512 -27.33491 -26.01405 -28.10094 -25.58825 -26.06589 -26.50935 -27.29797 -28.21234 -25.94124 -27.37160 -26.77019 -27.42339 -27.09461 -27.57247
18000 14 -25.92262 -25.62087 -26.41857 -25.25612 -26.11160 -25.28148 -26.38605 -25.90654 -27.04035 -24.91477 -26.00745 -25.52609 -25.72506 -26.68520 -24.36490 -24.94665 -25.40555 -26.17341 -27.17993 -24.45952 -27.51645 -26.27778 -27.11538 -28.44061 -26.04146 -26.51923 -27.09204 -26.80433 -27.63619 -27.72180 -27.38602 -26.06526 -28.15205 -25.63945 -26.11710 -26.56055 -27.34963 -28.25593 -26.03195 -27.41341 -26.82375 -27.47564 -27.13642 -27.61428
19000 14 -25.96606 -25.66901 -26.46175 -25.31316 -26.15924 -25.32471 -26.43030 -25.94977 -27.08402 -24.96249 -26.05727 -25.57380 -25.78150 -26.73385 -24.42087 -25.00328 -25.46736 -26.23255 -27.22337 -24.54077 -27.55963 -26.32102 -27.16352 -28.48379 -26.08469 -26.56245 -27.13630 -26.84756 -27.67963 -27.76547 -27.43366 -26.11298 -28.19968 -25.68716 -26.16480 -26.60827 -27.39777 -28.29684 -26.11672 -27.45273 -26.87357 -27.52428 -27.17573 -27.65359
20000 14 -26.00688 -25.71403 -26.50233 -25.36611 -26.20381 -25.36534 -26.47184 -25.99038 -27.12503 -25.00715 -26.10381 -25.61846 -25.83398 -26.77934 -24.47288 -25.05593 -25.52454 -26.28742 -27.26419 -24.61502 -27.60020 -26.36164 -27.20854 -28.52436 -26.12531 -26.60306 -27.17784 -26.88817 -27.72044 -27.80648 -27.47824 -26.15764 -28.24426 -25.73182 -26.20945 -26.65293 -27.44280 -28.33538 -26.19442 -27.48982 -26.92011 -27.56977 -27.21283 -27.69068
21000 14 -26.04535 -25.75632 -26.54059 -25.41550 -26.24570 -25.40364 -26.51097 -26.02868 -27.16369 -25.04911 -26.14747 -25.66041 -25.88296 -26.82204 -24.52142 -25.10507 -25.57766 -26.33856 -27.30266 -24.68321 -27.63846 -26.39995 -27.25083 -28.56262 -26.16361 -26.64136 -27.21697 -26.92647 -27.75892 -27.84514 -27.52012 -26.19960 -28.28614 -25.77377 -26.25140 -26.69488 -27.48509 -28.37179 -26.26595 -27.52494 -26.96377 -27.61248 -27.24794 -27.72580
22000 14 -26.08174 -25.79618 -26.57678 -25.46174 -26.28518 -25.43988 -26.54796 -26.06491 -27.20024 -25.08866 -26.18856 -25.69996 -25.92887 -26.86227 -24.56688 -25.15113 -25.62720 -26.38641 -27.33905 -24.74611 -27.67465 -26.43618 -27.29069 -28.59881 -26.19984 -26.67758 -27.25395 -26.96270 -27.79530 -27.88169 -27.55960 -26.23915 -28.32563 -25.81331 -26.29094 -26.73443 -27.52494 -28.40631 -26.33207 -27.55827 -27.00486 -27.65271 -27.28127 -27.75913
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��������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/RHeii.dat�������������������������������������������������������������������0000664�0000000�0000000�00000640301�12714613141�0016717�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#data file e2Bd from intrat (Storey & Hummer 1995, MNRAS, 272, 41), edited to put all emissivities for each Te and ne on one line, and to only go up to ne=1e8, Te=30kK
10 7
1.000E+02 2 5.000E+02 B 223 25
0.000E+00 7.116E-26 3.021E-26 1.839E-26 1.302E-26 1.000E-26 8.089E-27 6.771E-27 5.811E-27 5.080E-27 4.505E-27 4.040E-27 3.655E-27 3.331E-27 3.053E-27 2.812E-27 2.598E-27 2.407E-27 2.232E-27 2.068E-27 1.909E-27 1.746E-27 1.561E-27 1.292E-27 0.000E+00 7.933E-26 3.376E-26 2.061E-26 1.463E-26 1.128E-26 9.148E-27 7.683E-27 6.614E-27 5.801E-27 5.161E-27 4.644E-27 4.216E-27 3.855E-27 3.546E-27 3.275E-27 3.035E-27 2.818E-27 2.616E-27 2.421E-27 2.221E-27 1.992E-27 1.653E-27 0.000E+00 8.888E-26 3.792E-26 2.322E-26 1.654E-26 1.279E-26 1.041E-26 8.776E-27 7.583E-27 6.675E-27 5.962E-27 5.385E-27 4.907E-27 4.505E-27 4.159E-27 3.855E-27 3.583E-27 3.333E-27 3.093E-27 2.847E-27 2.563E-27 2.136E-27 0.000E+00 1.001E-25 4.283E-26 2.632E-26 1.882E-26 1.461E-26 1.194E-26 1.010E-26 8.763E-27 7.747E-27 6.948E-27 6.304E-27 5.771E-27 5.321E-27 4.934E-27 4.591E-27 4.280E-27 3.984E-27 3.682E-27 3.330E-27 2.788E-27 0.000E+00 1.134E-25 4.866E-26 3.002E-26 2.156E-26 1.681E-26 1.379E-26 1.172E-26 1.022E-26 9.078E-27 8.183E-27 7.462E-27 6.867E-27 6.365E-27 5.930E-27 5.541E-27 5.177E-27 4.806E-27 4.371E-27 3.681E-27 0.000E+00 1.292E-25 5.567E-26 3.449E-26 2.488E-26 1.949E-26 1.608E-26 1.374E-26 1.204E-26 1.076E-26 9.754E-27 8.949E-27 8.286E-27 7.727E-27 7.238E-27 6.788E-27 6.336E-27 5.801E-27 4.921E-27 0.000E+00 1.484E-25 6.416E-26 3.995E-26 2.898E-26 2.283E-26 1.894E-26 1.628E-26 1.436E-26 1.291E-26 1.179E-26 1.090E-26 1.016E-26 9.543E-27 8.988E-27 8.441E-27 7.788E-27 6.666E-27 0.000E+00 1.717E-25 7.458E-26 4.671E-26 3.408E-26 2.702E-26 2.257E-26 1.953E-26 1.736E-26 1.574E-26 1.449E-26 1.351E-26 1.271E-26 1.203E-26 1.137E-26 1.059E-26 9.161E-27 0.000E+00 2.005E-25 8.752E-26 5.517E-26 4.054E-26 3.238E-26 2.725E-26 2.379E-26 2.134E-26 1.953E-26 1.818E-26 1.713E-26 1.628E-26 1.551E-26 1.459E-26 1.279E-26 0.000E+00 2.365E-25 1.038E-25 6.595E-26 4.886E-26 3.936E-26 3.345E-26 2.950E-26 2.675E-26 2.479E-26 2.337E-26 2.231E-26 2.143E-26 2.042E-26 1.818E-26 0.000E+00 2.822E-25 1.248E-25 7.994E-26 5.979E-26 4.868E-26 4.185E-26 3.738E-26 3.438E-26 3.236E-26 3.101E-26 3.005E-26 2.902E-26 2.633E-26 0.000E+00 3.413E-25 1.521E-25 9.849E-26 7.453E-26 6.146E-26 5.360E-26 4.867E-26 4.559E-26 4.378E-26 4.281E-26 4.199E-26 3.897E-26 0.000E+00 4.193E-25 1.887E-25 1.237E-25 9.498E-26 7.960E-26 7.072E-26 6.560E-26 6.298E-26 6.209E-26 6.197E-26 5.908E-26 0.000E+00 5.249E-25 2.390E-25 1.592E-25 1.244E-25 1.065E-25 9.697E-26 9.263E-26 9.194E-26 9.350E-26 9.201E-26 0.000E+00 6.722E-25 3.106E-25 2.109E-25 1.688E-25 1.486E-25 1.401E-25 1.395E-25 1.447E-25 1.478E-25 0.000E+00 8.850E-25 4.166E-25 2.903E-25 2.399E-25 2.200E-25 2.183E-25 2.307E-25 2.461E-25 0.000E+00 1.207E-24 5.822E-25 4.205E-25 3.641E-25 3.553E-25 3.812E-25 4.276E-25 0.000E+00 1.722E-24 8.601E-25 6.549E-25 6.106E-25 6.591E-25 7.823E-25 0.000E+00 2.613E-24 1.376E-24 1.142E-24 1.211E-24 1.527E-24 0.000E+00 4.332E-24 2.496E-24 2.433E-24 3.245E-24 0.000E+00 8.270E-24 5.724E-24 7.774E-24 0.000E+00 2.059E-23 2.252E-23 0.000E+00 1.017E-22 6.751E-22
1.000E+03 2 5.000E+02 B 155 25
0.000E+00 7.711E-26 3.278E-26 1.997E-26 1.412E-26 1.082E-26 8.708E-27 7.244E-27 6.166E-27 5.340E-27 4.684E-27 4.150E-27 3.705E-27 3.329E-27 3.006E-27 2.726E-27 2.478E-27 2.258E-27 2.060E-27 1.878E-27 1.708E-27 1.544E-27 1.371E-27 1.145E-27 0.000E+00 8.572E-26 3.652E-26 2.230E-26 1.582E-26 1.216E-26 9.815E-27 8.190E-27 6.995E-27 6.077E-27 5.348E-27 4.753E-27 4.257E-27 3.836E-27 3.474E-27 3.157E-27 2.876E-27 2.624E-27 2.393E-27 2.179E-27 1.970E-27 1.752E-27 1.464E-27 0.000E+00 9.580E-26 4.092E-26 2.506E-26 1.783E-26 1.375E-26 1.114E-26 9.328E-27 7.996E-27 6.971E-27 6.157E-27 5.491E-27 4.935E-27 4.461E-27 4.051E-27 3.690E-27 3.368E-27 3.075E-27 2.802E-27 2.538E-27 2.259E-27 1.890E-27 0.000E+00 1.077E-25 4.612E-26 2.834E-26 2.024E-26 1.566E-26 1.274E-26 1.071E-26 9.216E-27 8.067E-27 7.152E-27 6.404E-27 5.776E-27 5.240E-27 4.773E-27 4.359E-27 3.984E-27 3.636E-27 3.299E-27 2.943E-27 2.466E-27 0.000E+00 1.218E-25 5.233E-26 3.228E-26 2.314E-26 1.799E-26 1.469E-26 1.240E-26 1.072E-26 9.427E-27 8.395E-27 7.549E-27 6.838E-27 6.227E-27 5.691E-27 5.209E-27 4.764E-27 4.333E-27 3.875E-27 3.256E-27 0.000E+00 1.387E-25 5.979E-26 3.704E-26 2.668E-26 2.083E-26 1.710E-26 1.451E-26 1.260E-26 1.114E-26 9.969E-27 9.009E-27 8.199E-27 7.498E-27 6.876E-27 6.304E-27 5.751E-27 5.162E-27 4.353E-27 0.000E+00 1.591E-25 6.885E-26 4.286E-26 3.103E-26 2.436E-26 2.011E-26 1.716E-26 1.499E-26 1.333E-26 1.200E-26 1.091E-26 9.979E-27 9.168E-27 8.432E-27 7.723E-27 6.964E-27 5.900E-27 0.000E+00 1.839E-25 7.996E-26 5.006E-26 3.646E-26 2.880E-26 2.392E-26 2.055E-26 1.808E-26 1.618E-26 1.467E-26 1.342E-26 1.236E-26 1.141E-26 1.050E-26 9.523E-27 8.120E-27 0.000E+00 2.146E-25 9.378E-26 5.909E-26 4.333E-26 3.448E-26 2.885E-26 2.498E-26 2.215E-26 1.999E-26 1.828E-26 1.686E-26 1.562E-26 1.446E-26 1.322E-26 1.136E-26 0.000E+00 2.530E-25 1.112E-25 7.060E-26 5.219E-26 4.187E-26 3.536E-26 3.090E-26 2.767E-26 2.523E-26 2.330E-26 2.168E-26 2.021E-26 1.863E-26 1.619E-26 0.000E+00 3.018E-25 1.336E-25 8.553E-26 6.383E-26 5.173E-26 4.415E-26 3.903E-26 3.539E-26 3.267E-26 3.053E-26 2.869E-26 2.673E-26 2.353E-26 0.000E+00 3.649E-25 1.628E-25 1.053E-25 7.950E-26 6.524E-26 5.643E-26 5.061E-26 4.660E-26 4.370E-26 4.141E-26 3.909E-26 3.499E-26 0.000E+00 4.483E-25 2.019E-25 1.323E-25 1.012E-25 8.436E-26 7.423E-26 6.783E-26 6.371E-26 6.090E-26 5.838E-26 5.334E-26 0.000E+00 5.611E-25 2.557E-25 1.701E-25 1.325E-25 1.126E-25 1.013E-25 9.493E-26 9.150E-26 8.925E-26 8.367E-26 0.000E+00 7.183E-25 3.322E-25 2.253E-25 1.795E-25 1.567E-25 1.454E-25 1.409E-25 1.401E-25 1.356E-25 0.000E+00 9.456E-25 4.455E-25 3.099E-25 2.546E-25 2.307E-25 2.236E-25 2.268E-25 2.280E-25 0.000E+00 1.289E-24 6.224E-25 4.484E-25 3.851E-25 3.687E-25 3.807E-25 4.006E-25 0.000E+00 1.840E-24 9.191E-25 6.969E-25 6.409E-25 6.687E-25 7.424E-25 0.000E+00 2.792E-24 1.469E-24 1.209E-24 1.247E-24 1.470E-24 0.000E+00 4.629E-24 2.659E-24 2.540E-24 3.170E-24 0.000E+00 8.832E-24 6.043E-24 7.713E-24 0.000E+00 2.191E-23 2.271E-23 0.000E+00 1.046E-22 7.006E-22
1.000E+04 2 5.000E+02 B 110 25
0.000E+00 9.540E-26 4.112E-26 2.508E-26 1.757E-26 1.322E-26 1.040E-26 8.432E-27 6.986E-27 5.885E-27 5.022E-27 4.332E-27 3.769E-27 3.303E-27 2.913E-27 2.581E-27 2.297E-27 2.051E-27 1.836E-27 1.645E-27 1.472E-27 1.312E-27 1.151E-27 9.532E-28 0.000E+00 1.035E-25 4.454E-26 2.725E-26 1.919E-26 1.454E-26 1.151E-26 9.390E-27 7.825E-27 6.627E-27 5.683E-27 4.924E-27 4.301E-27 3.782E-27 3.344E-27 2.971E-27 2.649E-27 2.367E-27 2.118E-27 1.894E-27 1.685E-27 1.478E-27 1.222E-27 0.000E+00 1.136E-25 4.881E-26 2.994E-26 2.119E-26 1.614E-26 1.286E-26 1.055E-26 8.842E-27 7.528E-27 6.487E-27 5.644E-27 4.949E-27 4.367E-27 3.873E-27 3.448E-27 3.078E-27 2.751E-27 2.458E-27 2.186E-27 1.915E-27 1.582E-27 0.000E+00 1.258E-25 5.410E-26 3.328E-26 2.364E-26 1.811E-26 1.451E-26 1.197E-26 1.009E-26 8.633E-27 7.475E-27 6.533E-27 5.750E-27 5.091E-27 4.526E-27 4.037E-27 3.607E-27 3.220E-27 2.862E-27 2.507E-27 2.070E-27 0.000E+00 1.407E-25 6.059E-26 3.739E-26 2.668E-26 2.053E-26 1.654E-26 1.373E-26 1.163E-26 1.000E-26 8.705E-27 7.641E-27 6.752E-27 5.997E-27 5.346E-27 4.774E-27 4.262E-27 3.789E-27 3.318E-27 2.741E-27 0.000E+00 1.588E-25 6.857E-26 4.246E-26 3.043E-26 2.355E-26 1.907E-26 1.592E-26 1.356E-26 1.173E-26 1.026E-26 9.044E-27 8.023E-27 7.149E-27 6.385E-27 5.703E-27 5.072E-27 4.446E-27 3.675E-27 0.000E+00 1.809E-25 7.839E-26 4.875E-26 3.512E-26 2.732E-26 2.226E-26 1.869E-26 1.602E-26 1.393E-26 1.225E-26 1.085E-26 9.664E-27 8.635E-27 7.721E-27 6.876E-27 6.036E-27 4.997E-27 0.000E+00 2.081E-25 9.057E-26 5.661E-26 4.101E-26 3.210E-26 2.632E-26 2.224E-26 1.918E-26 1.679E-26 1.484E-26 1.322E-26 1.182E-26 1.058E-26 9.447E-27 8.314E-27 6.900E-27 0.000E+00 2.420E-25 1.058E-25 6.653E-26 4.852E-26 3.824E-26 3.158E-26 2.688E-26 2.335E-26 2.057E-26 1.830E-26 1.639E-26 1.471E-26 1.317E-26 1.163E-26 9.692E-27 0.000E+00 2.845E-25 1.251E-25 7.923E-26 5.822E-26 4.626E-26 3.852E-26 3.305E-26 2.895E-26 2.571E-26 2.304E-26 2.074E-26 1.865E-26 1.656E-26 1.387E-26 0.000E+00 3.387E-25 1.500E-25 9.576E-26 7.101E-26 5.695E-26 4.788E-26 4.150E-26 3.671E-26 3.290E-26 2.971E-26 2.686E-26 2.401E-26 2.028E-26 0.000E+00 4.089E-25 1.825E-25 1.177E-25 8.824E-26 7.158E-26 6.090E-26 5.342E-26 4.781E-26 4.331E-26 3.942E-26 3.556E-26 3.035E-26 0.000E+00 5.018E-25 2.261E-25 1.476E-25 1.121E-25 9.223E-26 7.963E-26 7.091E-26 6.439E-26 5.904E-26 5.387E-26 4.664E-26 0.000E+00 6.277E-25 2.861E-25 1.896E-25 1.464E-25 1.226E-25 1.078E-25 9.789E-26 9.046E-26 8.371E-26 7.384E-26 0.000E+00 8.032E-25 3.713E-25 2.507E-25 1.977E-25 1.695E-25 1.529E-25 1.423E-25 1.339E-25 1.210E-25 0.000E+00 1.057E-24 4.977E-25 3.443E-25 2.793E-25 2.472E-25 2.307E-25 2.211E-25 2.061E-25 0.000E+00 1.441E-24 6.949E-25 4.970E-25 4.195E-25 3.886E-25 3.795E-25 3.678E-25 0.000E+00 2.055E-24 1.025E-24 7.691E-25 6.891E-25 6.824E-25 6.935E-25 0.000E+00 3.119E-24 1.635E-24 1.323E-24 1.303E-24 1.400E-24 0.000E+00 5.169E-24 2.945E-24 2.715E-24 3.086E-24 0.000E+00 9.850E-24 6.588E-24 7.684E-24 0.000E+00 2.427E-23 2.318E-23 0.000E+00 1.103E-22 7.577E-22
1.000E+05 2 5.000E+02 B 77 25
0.000E+00 2.274E-25 9.019E-26 4.829E-26 2.996E-26 2.031E-26 1.460E-26 1.096E-26 8.492E-27 6.749E-27 5.473E-27 4.513E-27 3.773E-27 3.192E-27 2.727E-27 2.350E-27 2.040E-27 1.782E-27 1.564E-27 1.377E-27 1.215E-27 1.069E-27 9.295E-28 7.644E-28 0.000E+00 2.198E-25 8.998E-26 4.957E-26 3.144E-26 2.168E-26 1.581E-26 1.200E-26 9.387E-27 7.520E-27 6.140E-27 5.092E-27 4.278E-27 3.634E-27 3.116E-27 2.693E-27 2.343E-27 2.050E-27 1.799E-27 1.583E-27 1.389E-27 1.204E-27 9.875E-28 0.000E+00 2.152E-25 9.055E-26 5.128E-26 3.325E-26 2.333E-26 1.725E-26 1.324E-26 1.046E-26 8.448E-27 6.945E-27 5.794E-27 4.892E-27 4.174E-27 3.591E-27 3.112E-27 2.712E-27 2.374E-27 2.081E-27 1.821E-27 1.575E-27 1.288E-27 0.000E+00 2.147E-25 9.225E-26 5.358E-26 3.548E-26 2.533E-26 1.899E-26 1.475E-26 1.176E-26 9.577E-27 7.928E-27 6.652E-27 5.645E-27 4.835E-27 4.174E-27 3.625E-27 3.162E-27 2.765E-27 2.413E-27 2.081E-27 1.697E-27 0.000E+00 2.195E-25 9.552E-26 5.671E-26 3.830E-26 2.779E-26 2.112E-26 1.659E-26 1.336E-26 1.097E-26 9.140E-27 7.715E-27 6.578E-27 5.657E-27 4.896E-27 4.258E-27 3.713E-27 3.232E-27 2.780E-27 2.262E-27 0.000E+00 2.304E-25 1.009E-25 6.094E-26 4.189E-26 3.086E-26 2.377E-26 1.888E-26 1.535E-26 1.270E-26 1.066E-26 9.046E-27 7.750E-27 6.687E-27 5.799E-27 5.044E-27 4.380E-27 3.758E-27 3.052E-27 0.000E+00 2.482E-25 1.089E-25 6.666E-26 4.652E-26 3.476E-26 2.710E-26 2.176E-26 1.785E-26 1.489E-26 1.258E-26 1.074E-26 9.239E-27 7.994E-27 6.937E-27 6.012E-27 5.150E-27 4.174E-27 0.000E+00 2.741E-25 1.202E-25 7.436E-26 5.256E-26 3.977E-26 3.138E-26 2.546E-26 2.108E-26 1.772E-26 1.507E-26 1.293E-26 1.116E-26 9.671E-27 8.370E-27 7.160E-27 5.796E-27 0.000E+00 3.093E-25 1.358E-25 8.467E-26 6.050E-26 4.632E-26 3.695E-26 3.028E-26 2.529E-26 2.143E-26 1.834E-26 1.581E-26 1.368E-26 1.183E-26 1.012E-26 8.188E-27 0.000E+00 3.560E-25 1.567E-25 9.846E-26 7.106E-26 5.499E-26 4.433E-26 3.670E-26 3.093E-26 2.640E-26 2.273E-26 1.967E-26 1.701E-26 1.456E-26 1.179E-26 0.000E+00 4.175E-25 1.847E-25 1.170E-25 8.526E-26 6.669E-26 5.434E-26 4.544E-26 3.864E-26 3.324E-26 2.877E-26 2.492E-26 2.137E-26 1.734E-26 0.000E+00 4.989E-25 2.222E-25 1.420E-25 1.047E-25 8.280E-26 6.824E-26 5.767E-26 4.952E-26 4.291E-26 3.727E-26 3.207E-26 2.614E-26 0.000E+00 6.080E-25 2.732E-25 1.766E-25 1.317E-25 1.056E-25 8.812E-26 7.537E-26 6.537E-26 5.701E-26 4.934E-26 4.049E-26 0.000E+00 7.569E-25 3.439E-25 2.254E-25 1.707E-25 1.389E-25 1.177E-25 1.021E-25 8.945E-26 7.806E-26 6.473E-26 0.000E+00 9.657E-25 4.448E-25 2.967E-25 2.289E-25 1.899E-25 1.639E-25 1.444E-25 1.275E-25 1.073E-25 0.000E+00 1.269E-24 5.945E-25 4.055E-25 3.206E-25 2.727E-25 2.411E-25 2.157E-25 1.854E-25 0.000E+00 1.727E-24 8.281E-25 5.821E-25 4.757E-25 4.187E-25 3.807E-25 3.366E-25 0.000E+00 2.462E-24 1.218E-24 8.935E-25 7.660E-25 7.058E-25 6.478E-25 0.000E+00 3.732E-24 1.935E-24 1.514E-24 1.393E-24 1.340E-24 0.000E+00 6.179E-24 3.453E-24 3.004E-24 3.036E-24 0.000E+00 1.174E-23 7.534E-24 7.800E-24 0.000E+00 2.856E-23 2.437E-23 0.000E+00 1.215E-22 9.206E-22
1.000E+06 2 5.000E+02 B 54 25
0.000E+00 7.125E-25 2.298E-25 1.035E-25 5.599E-26 3.395E-26 2.227E-26 1.547E-26 1.122E-26 8.421E-27 6.496E-27 5.126E-27 4.122E-27 3.367E-27 2.789E-27 2.337E-27 1.978E-27 1.688E-27 1.451E-27 1.255E-27 1.089E-27 9.437E-28 8.097E-28 6.584E-28 0.000E+00 7.187E-25 2.350E-25 1.072E-25 5.859E-26 3.586E-26 2.371E-26 1.658E-26 1.210E-26 9.135E-27 7.082E-27 5.613E-27 4.531E-27 3.715E-27 3.086E-27 2.593E-27 2.199E-27 1.881E-27 1.618E-27 1.398E-27 1.207E-27 1.033E-27 8.373E-28 0.000E+00 7.196E-25 2.395E-25 1.110E-25 6.148E-26 3.805E-26 2.541E-26 1.792E-26 1.318E-26 1.001E-26 7.803E-27 6.215E-27 5.040E-27 4.148E-27 3.458E-27 2.914E-27 2.477E-27 2.121E-27 1.824E-27 1.569E-27 1.338E-27 1.082E-27 0.000E+00 7.143E-25 2.433E-25 1.150E-25 6.474E-26 4.062E-26 2.743E-26 1.954E-26 1.449E-26 1.109E-26 8.699E-27 6.968E-27 5.678E-27 4.694E-27 3.927E-27 3.318E-27 2.826E-27 2.419E-27 2.073E-27 1.761E-27 1.419E-27 0.000E+00 7.026E-25 2.464E-25 1.193E-25 6.850E-26 4.367E-26 2.989E-26 2.153E-26 1.612E-26 1.243E-26 9.826E-27 7.919E-27 6.487E-27 5.386E-27 4.521E-27 3.829E-27 3.262E-27 2.784E-27 2.356E-27 1.893E-27 0.000E+00 6.856E-25 2.491E-25 1.242E-25 7.298E-26 4.739E-26 3.292E-26 2.401E-26 1.816E-26 1.414E-26 1.126E-26 9.131E-27 7.519E-27 6.269E-27 5.278E-27 4.474E-27 3.802E-27 3.204E-27 2.565E-27 0.000E+00 6.664E-25 2.523E-25 1.301E-25 7.845E-26 5.199E-26 3.672E-26 2.714E-26 2.076E-26 1.631E-26 1.309E-26 1.069E-26 8.847E-27 7.403E-27 6.242E-27 5.279E-27 4.431E-27 3.534E-27 0.000E+00 6.500E-25 2.571E-25 1.376E-25 8.533E-26 5.781E-26 4.155E-26 3.115E-26 2.411E-26 1.912E-26 1.547E-26 1.271E-26 1.057E-26 8.861E-27 7.458E-27 6.232E-27 4.951E-27 0.000E+00 6.431E-25 2.652E-25 1.474E-25 9.419E-26 6.529E-26 4.778E-26 3.635E-26 2.847E-26 2.280E-26 1.858E-26 1.535E-26 1.280E-26 1.073E-26 8.924E-27 7.061E-27 0.000E+00 6.540E-25 2.791E-25 1.609E-25 1.059E-25 7.509E-26 5.597E-26 4.321E-26 3.425E-26 2.769E-26 2.273E-26 1.885E-26 1.572E-26 1.303E-26 1.027E-26 0.000E+00 6.912E-25 3.018E-25 1.798E-25 1.216E-25 8.821E-26 6.695E-26 5.245E-26 4.206E-26 3.430E-26 2.832E-26 2.351E-26 1.941E-26 1.525E-26 0.000E+00 7.634E-25 3.377E-25 2.067E-25 1.434E-25 1.062E-25 8.207E-26 6.522E-26 5.288E-26 4.346E-26 3.596E-26 2.961E-26 2.321E-26 0.000E+00 8.810E-25 3.928E-25 2.456E-25 1.742E-25 1.318E-25 1.035E-25 8.340E-26 6.829E-26 5.640E-26 4.638E-26 3.632E-26 0.000E+00 1.058E-24 4.759E-25 3.030E-25 2.194E-25 1.691E-25 1.350E-25 1.102E-25 9.093E-26 7.483E-26 5.869E-26 0.000E+00 1.320E-24 6.005E-25 3.892E-25 2.874E-25 2.258E-25 1.833E-25 1.513E-25 1.249E-25 9.845E-26 0.000E+00 1.711E-24 7.903E-25 5.228E-25 3.946E-25 3.165E-25 2.613E-25 2.170E-25 1.726E-25 0.000E+00 2.310E-24 1.090E-24 7.399E-25 5.736E-25 4.712E-25 3.947E-25 3.187E-25 0.000E+00 3.277E-24 1.590E-24 1.119E-24 8.983E-25 7.585E-25 6.266E-25 0.000E+00 4.952E-24 2.503E-24 1.852E-24 1.561E-24 1.330E-24 0.000E+00 8.172E-24 4.399E-24 3.522E-24 3.114E-24 0.000E+00 1.542E-23 9.271E-24 8.316E-24 0.000E+00 3.683E-23 2.721E-23 0.000E+00 1.448E-22 1.256E-21
1.000E+07 2 5.000E+02 B 50 25
0.000E+00 1.645E-24 5.084E-25 2.201E-25 1.147E-25 6.735E-26 4.290E-26 2.902E-26 2.055E-26 1.508E-26 1.140E-26 8.828E-27 6.974E-27 5.605E-27 4.571E-27 3.775E-27 3.151E-27 2.655E-27 2.254E-27 1.925E-27 1.651E-27 1.415E-27 1.200E-27 9.646E-28 0.000E+00 1.674E-24 5.182E-25 2.248E-25 1.174E-25 6.904E-26 4.405E-26 2.984E-26 2.115E-26 1.555E-26 1.177E-26 9.120E-27 7.211E-27 5.800E-27 4.733E-27 3.910E-27 3.264E-27 2.749E-27 2.331E-27 1.986E-27 1.693E-27 1.429E-27 1.143E-27 0.000E+00 1.714E-24 5.322E-25 2.315E-25 1.212E-25 7.144E-26 4.568E-26 3.100E-26 2.202E-26 1.621E-26 1.228E-26 9.534E-27 7.548E-27 6.076E-27 4.962E-27 4.101E-27 3.424E-27 2.881E-27 2.438E-27 2.065E-27 1.734E-27 1.381E-27 0.000E+00 1.765E-24 5.502E-25 2.401E-25 1.262E-25 7.461E-26 4.783E-26 3.255E-26 2.317E-26 1.709E-26 1.298E-26 1.009E-26 8.001E-27 6.449E-27 5.271E-27 4.358E-27 3.637E-27 3.055E-27 2.572E-27 2.147E-27 1.702E-27 0.000E+00 1.825E-24 5.717E-25 2.508E-25 1.324E-25 7.859E-26 5.058E-26 3.453E-26 2.466E-26 1.825E-26 1.389E-26 1.082E-26 8.597E-27 6.941E-27 5.679E-27 4.696E-27 3.914E-27 3.272E-27 2.716E-27 2.142E-27 0.000E+00 1.890E-24 5.962E-25 2.634E-25 1.399E-25 8.352E-26 5.402E-26 3.705E-26 2.657E-26 1.973E-26 1.507E-26 1.177E-26 9.376E-27 7.584E-27 6.211E-27 5.133E-27 4.262E-27 3.516E-27 2.759E-27 0.000E+00 1.956E-24 6.232E-25 2.779E-25 1.489E-25 8.957E-26 5.833E-26 4.024E-26 2.901E-26 2.165E-26 1.660E-26 1.302E-26 1.040E-26 8.428E-27 6.905E-27 5.689E-27 4.664E-27 3.642E-27 0.000E+00 2.017E-24 6.520E-25 2.946E-25 1.597E-25 9.703E-26 6.375E-26 4.433E-26 3.218E-26 2.416E-26 1.863E-26 1.467E-26 1.176E-26 9.541E-27 7.802E-27 6.355E-27 4.937E-27 0.000E+00 2.067E-24 6.819E-25 3.138E-25 1.728E-25 1.064E-25 7.071E-26 4.966E-26 3.636E-26 2.750E-26 2.134E-26 1.689E-26 1.357E-26 1.101E-26 8.909E-27 6.884E-27 0.000E+00 2.102E-24 7.131E-25 3.363E-25 1.890E-25 1.184E-25 7.985E-26 5.678E-26 4.201E-26 3.205E-26 2.504E-26 1.991E-26 1.601E-26 1.287E-26 9.892E-27 0.000E+00 2.120E-24 7.471E-25 3.639E-25 2.100E-25 1.344E-25 9.221E-26 6.651E-26 4.980E-26 3.835E-26 3.016E-26 2.404E-26 1.918E-26 1.466E-26 0.000E+00 2.130E-24 7.882E-25 3.998E-25 2.381E-25 1.562E-25 1.094E-25 8.015E-26 6.076E-26 4.722E-26 3.729E-26 2.953E-26 2.242E-26 0.000E+00 2.161E-24 8.450E-25 4.492E-25 2.773E-25 1.870E-25 1.338E-25 9.968E-26 7.648E-26 5.980E-26 4.699E-26 3.545E-26 0.000E+00 2.258E-24 9.321E-25 5.209E-25 3.340E-25 2.319E-25 1.695E-25 1.283E-25 9.933E-26 7.744E-26 5.805E-26 0.000E+00 2.490E-24 1.073E-24 6.292E-25 4.190E-25 2.993E-25 2.234E-25 1.713E-25 1.326E-25 9.884E-26 0.000E+00 2.949E-24 1.308E-24 8.002E-25 5.522E-25 4.053E-25 3.080E-25 2.371E-25 1.761E-25 0.000E+00 3.765E-24 1.708E-24 1.083E-24 7.724E-25 5.809E-25 4.459E-25 3.312E-25 0.000E+00 5.173E-24 2.408E-24 1.580E-24 1.162E-24 8.906E-25 6.654E-25 0.000E+00 7.682E-24 3.700E-24 2.527E-24 1.918E-24 1.451E-24 0.000E+00 1.254E-23 6.344E-24 4.570E-24 3.514E-24 0.000E+00 2.339E-23 1.281E-23 9.802E-24 0.000E+00 5.444E-23 3.393E-23 0.000E+00 1.963E-22 1.839E-21
1.000E+08 2 5.000E+02 B 50 25
0.000E+00 6.146E-24 1.887E-24 8.118E-25 4.208E-25 2.456E-25 1.556E-25 1.047E-25 7.381E-26 5.395E-26 4.061E-26 3.132E-26 2.465E-26 1.973E-26 1.603E-26 1.319E-26 1.097E-26 9.214E-27 7.796E-27 6.635E-27 5.668E-27 4.839E-27 4.088E-27 3.270E-27 0.000E+00 5.924E-24 1.820E-24 7.830E-25 4.059E-25 2.370E-25 1.502E-25 1.011E-25 7.126E-26 5.209E-26 3.921E-26 3.024E-26 2.380E-26 1.905E-26 1.547E-26 1.273E-26 1.058E-26 8.871E-27 7.491E-27 6.353E-27 5.390E-27 4.527E-27 3.603E-27 0.000E+00 5.691E-24 1.749E-24 7.527E-25 3.904E-25 2.280E-25 1.445E-25 9.732E-26 6.861E-26 5.016E-26 3.776E-26 2.912E-26 2.291E-26 1.834E-26 1.489E-26 1.224E-26 1.016E-26 8.506E-27 7.159E-27 6.031E-27 5.033E-27 3.983E-27 0.000E+00 5.487E-24 1.687E-24 7.266E-25 3.771E-25 2.203E-25 1.397E-25 9.410E-26 6.636E-26 4.853E-26 3.654E-26 2.818E-26 2.217E-26 1.774E-26 1.440E-26 1.182E-26 9.798E-27 8.174E-27 6.833E-27 5.664E-27 4.455E-27 0.000E+00 5.343E-24 1.644E-24 7.086E-25 3.680E-25 2.151E-25 1.365E-25 9.199E-26 6.490E-26 4.747E-26 3.575E-26 2.758E-26 2.169E-26 1.735E-26 1.407E-26 1.153E-26 9.530E-27 7.900E-27 6.499E-27 5.078E-27 0.000E+00 5.276E-24 1.625E-24 7.012E-25 3.645E-25 2.133E-25 1.355E-25 9.134E-26 6.448E-26 4.719E-26 3.555E-26 2.742E-26 2.157E-26 1.724E-26 1.396E-26 1.141E-26 9.371E-27 7.646E-27 5.931E-27 0.000E+00 5.293E-24 1.633E-24 7.055E-25 3.673E-25 2.152E-25 1.368E-25 9.236E-26 6.526E-26 4.779E-26 3.602E-26 2.779E-26 2.185E-26 1.745E-26 1.409E-26 1.145E-26 9.258E-27 7.126E-27 0.000E+00 5.394E-24 1.668E-24 7.223E-25 3.768E-25 2.212E-25 1.409E-25 9.522E-26 6.736E-26 4.938E-26 3.724E-26 2.874E-26 2.258E-26 1.800E-26 1.445E-26 1.157E-26 8.830E-27 0.000E+00 5.579E-24 1.731E-24 7.519E-25 3.934E-25 2.316E-25 1.478E-25 1.002E-25 7.098E-26 5.211E-26 3.933E-26 3.035E-26 2.382E-26 1.889E-26 1.496E-26 1.131E-26 0.000E+00 5.843E-24 1.821E-24 7.951E-25 4.178E-25 2.469E-25 1.582E-25 1.075E-25 7.640E-26 5.620E-26 4.247E-26 3.276E-26 2.561E-26 2.004E-26 1.501E-26 0.000E+00 6.178E-24 1.940E-24 8.531E-25 4.513E-25 2.683E-25 1.728E-25 1.180E-25 8.416E-26 6.208E-26 4.697E-26 3.614E-26 2.793E-26 2.070E-26 0.000E+00 6.572E-24 2.088E-24 9.283E-25 4.960E-25 2.975E-25 1.931E-25 1.327E-25 9.517E-26 7.044E-26 5.328E-26 4.061E-26 2.978E-26 0.000E+00 7.008E-24 2.267E-24 1.025E-24 5.561E-25 3.379E-25 2.218E-25 1.538E-25 1.111E-25 8.243E-26 6.192E-26 4.491E-26 0.000E+00 7.468E-24 2.484E-24 1.153E-24 6.392E-25 3.956E-25 2.636E-25 1.850E-25 1.345E-25 9.952E-26 7.139E-26 0.000E+00 7.957E-24 2.761E-24 1.330E-24 7.602E-25 4.822E-25 3.275E-25 2.328E-25 1.695E-25 1.202E-25 0.000E+00 8.561E-24 3.148E-24 1.594E-24 9.475E-25 6.189E-25 4.289E-25 3.069E-25 2.150E-25 0.000E+00 9.555E-24 3.759E-24 2.021E-24 1.256E-24 8.455E-25 5.938E-25 4.106E-25 0.000E+00 1.153E-23 4.833E-24 2.765E-24 1.795E-24 1.236E-24 8.438E-25 0.000E+00 1.564E-23 6.883E-24 4.166E-24 2.800E-24 1.893E-24 0.000E+00 2.426E-23 1.116E-23 7.081E-24 4.747E-24 0.000E+00 4.390E-23 2.132E-23 1.385E-23 0.000E+00 9.877E-23 5.109E-23 0.000E+00 3.271E-22 3.260E-21
1.000E+02 2 1.000E+03 B 234 25
0.000E+00 4.592E-26 1.940E-26 1.171E-26 8.197E-27 6.213E-27 4.946E-27 4.069E-27 3.428E-27 2.940E-27 2.555E-27 2.246E-27 1.991E-27 1.778E-27 1.597E-27 1.441E-27 1.306E-27 1.186E-27 1.079E-27 9.813E-28 8.895E-28 7.995E-28 7.029E-28 5.731E-28 0.000E+00 5.132E-26 2.173E-26 1.315E-26 9.229E-27 7.013E-27 5.597E-27 4.617E-27 3.900E-27 3.353E-27 2.922E-27 2.575E-27 2.288E-27 2.048E-27 1.844E-27 1.668E-27 1.514E-27 1.377E-27 1.252E-27 1.136E-27 1.022E-27 8.997E-28 7.343E-28 0.000E+00 5.764E-26 2.446E-26 1.484E-26 1.045E-26 7.963E-27 6.374E-27 5.274E-27 4.467E-27 3.852E-27 3.367E-27 2.975E-27 2.652E-27 2.380E-27 2.149E-27 1.948E-27 1.771E-27 1.611E-27 1.463E-27 1.318E-27 1.162E-27 9.503E-28 0.000E+00 6.507E-26 2.768E-26 1.685E-26 1.190E-26 9.101E-27 7.309E-27 6.067E-27 5.156E-27 4.461E-27 3.912E-27 3.468E-27 3.102E-27 2.793E-27 2.529E-27 2.298E-27 2.092E-27 1.901E-27 1.716E-27 1.517E-27 1.243E-27 0.000E+00 7.389E-26 3.152E-26 1.926E-26 1.365E-26 1.048E-26 8.445E-27 7.036E-27 6.003E-27 5.213E-27 4.590E-27 4.085E-27 3.667E-27 3.314E-27 3.010E-27 2.741E-27 2.495E-27 2.258E-27 2.002E-27 1.646E-27 0.000E+00 8.444E-26 3.613E-26 2.216E-26 1.577E-26 1.216E-26 9.842E-27 8.235E-27 7.057E-27 6.155E-27 5.444E-27 4.867E-27 4.388E-27 3.982E-27 3.629E-27 3.309E-27 3.003E-27 2.673E-27 2.206E-27 0.000E+00 9.718E-26 4.173E-26 2.571E-26 1.839E-26 1.424E-26 1.158E-26 9.740E-27 8.389E-27 7.355E-27 6.540E-27 5.878E-27 5.328E-27 4.857E-27 4.438E-27 4.040E-27 3.613E-27 2.999E-27 0.000E+00 1.127E-25 4.861E-26 3.010E-26 2.164E-26 1.685E-26 1.378E-26 1.166E-26 1.010E-26 8.913E-27 7.976E-27 7.214E-27 6.578E-27 6.023E-27 5.506E-27 4.952E-27 4.139E-27 0.000E+00 1.319E-25 5.715E-26 3.560E-26 2.575E-26 2.018E-26 1.662E-26 1.415E-26 1.235E-26 1.098E-26 9.903E-27 9.026E-27 8.283E-27 7.606E-27 6.888E-27 5.807E-27 0.000E+00 1.560E-25 6.792E-26 4.260E-26 3.104E-26 2.451E-26 2.034E-26 1.747E-26 1.538E-26 1.380E-26 1.257E-26 1.155E-26 1.066E-26 9.736E-27 8.298E-27 0.000E+00 1.865E-25 8.174E-26 5.167E-26 3.797E-26 3.026E-26 2.536E-26 2.201E-26 1.959E-26 1.779E-26 1.638E-26 1.520E-26 1.401E-26 1.210E-26 0.000E+00 2.261E-25 9.980E-26 6.369E-26 4.729E-26 3.810E-26 3.232E-26 2.841E-26 2.565E-26 2.363E-26 2.206E-26 2.056E-26 1.805E-26 0.000E+00 2.783E-25 1.240E-25 8.001E-26 6.016E-26 4.915E-26 4.233E-26 3.785E-26 3.482E-26 3.267E-26 3.083E-26 2.760E-26 0.000E+00 3.490E-25 1.571E-25 1.029E-25 7.859E-26 6.535E-26 5.744E-26 5.255E-26 4.952E-26 4.738E-26 4.345E-26 0.000E+00 4.476E-25 2.042E-25 1.361E-25 1.062E-25 9.041E-26 8.170E-26 7.713E-26 7.488E-26 7.067E-26 0.000E+00 5.899E-25 2.739E-25 1.868E-25 1.499E-25 1.320E-25 1.241E-25 1.223E-25 1.194E-25 0.000E+00 8.050E-25 3.824E-25 2.693E-25 2.249E-25 2.082E-25 2.076E-25 2.111E-25 0.000E+00 1.149E-24 5.634E-25 4.159E-25 3.694E-25 3.700E-25 3.939E-25 0.000E+00 1.743E-24 8.965E-25 7.132E-25 7.027E-25 7.868E-25 0.000E+00 2.885E-24 1.608E-24 1.464E-24 1.717E-24 0.000E+00 5.478E-24 3.577E-24 4.241E-24 0.000E+00 1.340E-23 1.274E-23 0.000E+00 6.076E-23 4.114E-22
1.000E+03 2 1.000E+03 B 164 25
0.000E+00 4.821E-26 2.037E-26 1.229E-26 8.590E-27 6.490E-27 5.144E-27 4.209E-27 3.522E-27 2.998E-27 2.584E-27 2.250E-27 1.976E-27 1.746E-27 1.551E-27 1.384E-27 1.239E-27 1.112E-27 9.998E-28 8.984E-28 8.055E-28 7.175E-28 6.281E-28 5.162E-28 0.000E+00 5.376E-26 2.276E-26 1.377E-26 9.647E-27 7.308E-27 5.808E-27 4.765E-27 3.999E-27 3.412E-27 2.949E-27 2.574E-27 2.265E-27 2.006E-27 1.786E-27 1.596E-27 1.430E-27 1.284E-27 1.153E-27 1.033E-27 9.199E-28 8.048E-28 6.610E-28 0.000E+00 6.026E-26 2.557E-26 1.551E-26 1.090E-26 8.281E-27 6.601E-27 5.432E-27 4.571E-27 3.912E-27 3.390E-27 2.968E-27 2.618E-27 2.323E-27 2.072E-27 1.855E-27 1.664E-27 1.493E-27 1.337E-27 1.191E-27 1.041E-27 8.550E-28 0.000E+00 6.792E-26 2.890E-26 1.758E-26 1.240E-26 9.449E-27 7.556E-27 6.238E-27 5.267E-27 4.522E-27 3.931E-27 3.451E-27 3.052E-27 2.716E-27 2.427E-27 2.175E-27 1.951E-27 1.748E-27 1.557E-27 1.362E-27 1.118E-27 0.000E+00 7.703E-26 3.287E-26 2.007E-26 1.420E-26 1.086E-26 8.718E-27 7.224E-27 6.121E-27 5.274E-27 4.601E-27 4.052E-27 3.595E-27 3.207E-27 2.872E-27 2.576E-27 2.309E-27 2.057E-27 1.801E-27 1.480E-27 0.000E+00 8.794E-26 3.765E-26 2.307E-26 1.639E-26 1.259E-26 1.015E-26 8.443E-27 7.184E-27 6.214E-27 5.443E-27 4.811E-27 4.283E-27 3.832E-27 3.437E-27 3.083E-27 2.750E-27 2.412E-27 1.984E-27 0.000E+00 1.011E-25 4.344E-26 2.674E-26 1.909E-26 1.473E-26 1.193E-26 9.972E-27 8.526E-27 7.409E-27 6.518E-27 5.787E-27 5.172E-27 4.640E-27 4.165E-27 3.723E-27 3.273E-27 2.698E-27 0.000E+00 1.172E-25 5.057E-26 3.129E-26 2.245E-26 1.742E-26 1.418E-26 1.192E-26 1.025E-26 8.955E-27 7.920E-27 7.066E-27 6.340E-27 5.700E-27 5.108E-27 4.505E-27 3.727E-27 0.000E+00 1.371E-25 5.942E-26 3.698E-26 2.669E-26 2.085E-26 1.708E-26 1.445E-26 1.250E-26 1.100E-26 9.787E-27 8.780E-27 7.909E-27 7.110E-27 6.299E-27 5.236E-27 0.000E+00 1.620E-25 7.060E-26 4.423E-26 3.216E-26 2.530E-26 2.088E-26 1.780E-26 1.553E-26 1.376E-26 1.234E-26 1.114E-26 1.005E-26 8.959E-27 7.497E-27 0.000E+00 1.937E-25 8.493E-26 5.363E-26 3.932E-26 3.120E-26 2.600E-26 2.237E-26 1.970E-26 1.763E-26 1.594E-26 1.446E-26 1.298E-26 1.096E-26 0.000E+00 2.347E-25 1.037E-25 6.608E-26 4.894E-26 3.925E-26 3.307E-26 2.880E-26 2.567E-26 2.324E-26 2.120E-26 1.920E-26 1.641E-26 0.000E+00 2.889E-25 1.287E-25 8.298E-26 6.222E-26 5.057E-26 4.322E-26 3.821E-26 3.458E-26 3.172E-26 2.906E-26 2.521E-26 0.000E+00 3.622E-25 1.631E-25 1.066E-25 8.121E-26 6.714E-26 5.845E-26 5.270E-26 4.861E-26 4.511E-26 3.990E-26 0.000E+00 4.645E-25 2.120E-25 1.410E-25 1.096E-25 9.265E-26 8.270E-26 7.654E-26 7.207E-26 6.533E-26 0.000E+00 6.122E-25 2.842E-25 1.935E-25 1.544E-25 1.347E-25 1.245E-25 1.190E-25 1.113E-25 0.000E+00 8.353E-25 3.967E-25 2.787E-25 2.311E-25 2.109E-25 2.045E-25 1.984E-25 0.000E+00 1.192E-24 5.843E-25 4.296E-25 3.775E-25 3.688E-25 3.741E-25 0.000E+00 1.808E-24 9.290E-25 7.341E-25 7.086E-25 7.554E-25 0.000E+00 2.993E-24 1.663E-24 1.491E-24 1.668E-24 0.000E+00 5.680E-24 3.676E-24 4.170E-24 0.000E+00 1.386E-23 1.268E-23 0.000E+00 6.143E-23 4.186E-22
1.000E+04 2 1.000E+03 B 110 25
0.000E+00 5.583E-26 2.371E-26 1.427E-26 9.867E-27 7.338E-27 5.706E-27 4.573E-27 3.747E-27 3.122E-27 2.636E-27 2.250E-27 1.937E-27 1.681E-27 1.467E-27 1.288E-27 1.135E-27 1.004E-27 8.899E-28 7.898E-28 7.003E-28 6.179E-28 5.370E-28 4.398E-28 0.000E+00 6.107E-26 2.594E-26 1.566E-26 1.088E-26 8.137E-27 6.361E-27 5.124E-27 4.218E-27 3.529E-27 2.991E-27 2.562E-27 2.212E-27 1.924E-27 1.683E-27 1.479E-27 1.305E-27 1.154E-27 1.022E-27 9.044E-28 7.963E-28 6.906E-28 5.643E-28 0.000E+00 6.742E-26 2.866E-26 1.735E-26 1.211E-26 9.101E-27 7.151E-27 5.788E-27 4.786E-27 4.022E-27 3.421E-27 2.939E-27 2.546E-27 2.219E-27 1.945E-27 1.711E-27 1.510E-27 1.335E-27 1.179E-27 1.036E-27 8.969E-28 7.315E-28 0.000E+00 7.510E-26 3.197E-26 1.942E-26 1.361E-26 1.027E-26 8.110E-27 6.596E-27 5.478E-27 4.622E-27 3.946E-27 3.402E-27 2.954E-27 2.581E-27 2.266E-27 1.995E-27 1.760E-27 1.552E-27 1.362E-27 1.177E-27 9.585E-28 0.000E+00 8.438E-26 3.601E-26 2.194E-26 1.544E-26 1.171E-26 9.286E-27 7.587E-27 6.329E-27 5.362E-27 4.595E-27 3.974E-27 3.461E-27 3.031E-27 2.664E-27 2.346E-27 2.066E-27 1.811E-27 1.563E-27 1.271E-27 0.000E+00 9.564E-26 4.093E-26 2.503E-26 1.769E-26 1.348E-26 1.074E-26 8.817E-27 7.389E-27 6.286E-27 5.408E-27 4.693E-27 4.099E-27 3.596E-27 3.163E-27 2.783E-27 2.437E-27 2.102E-27 1.708E-27 0.000E+00 1.094E-25 4.697E-26 2.885E-26 2.048E-26 1.568E-26 1.256E-26 1.036E-26 8.726E-27 7.457E-27 6.442E-27 5.610E-27 4.913E-27 4.317E-27 3.795E-27 3.323E-27 2.866E-27 2.327E-27 0.000E+00 1.263E-25 5.444E-26 3.360E-26 2.398E-26 1.846E-26 1.487E-26 1.233E-26 1.044E-26 8.965E-27 7.779E-27 6.798E-27 5.968E-27 5.246E-27 4.595E-27 3.966E-27 3.222E-27 0.000E+00 1.472E-25 6.378E-26 3.959E-26 2.842E-26 2.201E-26 1.784E-26 1.489E-26 1.268E-26 1.094E-26 9.542E-27 8.370E-27 7.361E-27 6.455E-27 5.579E-27 4.540E-27 0.000E+00 1.736E-25 7.560E-26 4.723E-26 3.415E-26 2.664E-26 2.174E-26 1.827E-26 1.566E-26 1.360E-26 1.192E-26 1.049E-26 9.220E-27 7.991E-27 6.522E-27 0.000E+00 2.072E-25 9.079E-26 5.716E-26 4.166E-26 3.277E-26 2.697E-26 2.285E-26 1.974E-26 1.727E-26 1.522E-26 1.341E-26 1.168E-26 9.574E-27 0.000E+00 2.507E-25 1.107E-25 7.032E-26 5.176E-26 4.112E-26 3.418E-26 2.926E-26 2.552E-26 2.250E-26 1.991E-26 1.743E-26 1.440E-26 0.000E+00 3.083E-25 1.373E-25 8.821E-26 6.569E-26 5.283E-26 4.447E-26 3.854E-26 3.399E-26 3.022E-26 2.667E-26 2.225E-26 0.000E+00 3.863E-25 1.739E-25 1.132E-25 8.558E-26 6.990E-26 5.978E-26 5.261E-26 4.701E-26 4.193E-26 3.547E-26 0.000E+00 4.951E-25 2.258E-25 1.496E-25 1.152E-25 9.601E-26 8.384E-26 7.523E-26 6.795E-26 5.857E-26 0.000E+00 6.523E-25 3.026E-25 2.049E-25 1.618E-25 1.386E-25 1.244E-25 1.140E-25 1.008E-25 0.000E+00 8.899E-25 4.220E-25 2.946E-25 2.409E-25 2.143E-25 1.993E-25 1.818E-25 0.000E+00 1.270E-24 6.210E-25 4.526E-25 3.896E-25 3.660E-25 3.475E-25 0.000E+00 1.926E-24 9.858E-25 7.680E-25 7.161E-25 7.127E-25 0.000E+00 3.186E-24 1.758E-24 1.534E-24 1.601E-24 0.000E+00 6.040E-24 3.840E-24 4.076E-24 0.000E+00 1.466E-23 1.264E-23 0.000E+00 6.278E-23 4.367E-22
1.000E+05 2 1.000E+03 B 77 25
0.000E+00 1.091E-25 4.332E-26 2.333E-26 1.454E-26 9.887E-27 7.122E-27 5.347E-27 4.142E-27 3.287E-27 2.661E-27 2.189E-27 1.825E-27 1.539E-27 1.311E-27 1.126E-27 9.738E-28 8.472E-28 7.407E-28 6.497E-28 5.706E-28 4.998E-28 4.322E-28 3.533E-28 0.000E+00 1.079E-25 4.401E-26 2.431E-26 1.546E-26 1.068E-26 7.791E-27 5.909E-27 4.615E-27 3.689E-27 3.004E-27 2.483E-27 2.079E-27 1.759E-27 1.503E-27 1.293E-27 1.120E-27 9.752E-28 8.521E-28 7.457E-28 6.509E-28 5.610E-28 4.570E-28 0.000E+00 1.083E-25 4.516E-26 2.556E-26 1.658E-26 1.163E-26 8.588E-27 6.580E-27 5.183E-27 4.172E-27 3.417E-27 2.838E-27 2.386E-27 2.026E-27 1.735E-27 1.496E-27 1.297E-27 1.129E-27 9.839E-28 8.557E-28 7.350E-28 5.967E-28 0.000E+00 1.109E-25 4.695E-26 2.715E-26 1.794E-26 1.277E-26 9.549E-27 7.390E-27 5.870E-27 4.757E-27 3.919E-27 3.271E-27 2.761E-27 2.351E-27 2.018E-27 1.742E-27 1.510E-27 1.312E-27 1.137E-27 9.729E-28 7.870E-28 0.000E+00 1.160E-25 4.959E-26 2.921E-26 1.963E-26 1.417E-26 1.072E-26 8.379E-27 6.710E-27 5.475E-27 4.536E-27 3.804E-27 3.222E-27 2.752E-27 2.366E-27 2.043E-27 1.768E-27 1.527E-27 1.302E-27 1.050E-27 0.000E+00 1.241E-25 5.335E-26 3.189E-26 2.175E-26 1.591E-26 1.217E-26 9.603E-27 7.751E-27 6.367E-27 5.304E-27 4.468E-27 3.798E-27 3.251E-27 2.797E-27 2.412E-27 2.076E-27 1.765E-27 1.418E-27 0.000E+00 1.358E-25 5.852E-26 3.539E-26 2.445E-26 1.810E-26 1.399E-26 1.114E-26 9.059E-27 7.490E-27 6.273E-27 5.306E-27 4.524E-27 3.878E-27 3.333E-27 2.861E-27 2.425E-27 1.943E-27 0.000E+00 1.517E-25 6.549E-26 3.997E-26 2.791E-26 2.089E-26 1.631E-26 1.309E-26 1.073E-26 8.928E-27 7.515E-27 6.381E-27 5.452E-27 4.673E-27 4.000E-27 3.382E-27 2.702E-27 0.000E+00 1.727E-25 7.475E-26 4.597E-26 3.241E-26 2.450E-26 1.930E-26 1.563E-26 1.290E-26 1.080E-26 9.134E-27 7.780E-27 6.653E-27 5.682E-27 4.796E-27 3.825E-27 0.000E+00 2.001E-25 8.695E-26 5.387E-26 3.833E-26 2.924E-26 2.325E-26 1.898E-26 1.578E-26 1.329E-26 1.129E-26 9.633E-27 8.218E-27 6.928E-27 5.520E-27 0.000E+00 2.358E-25 1.031E-25 6.435E-26 4.620E-26 3.558E-26 2.855E-26 2.350E-26 1.969E-26 1.667E-26 1.421E-26 1.212E-26 1.022E-26 8.143E-27 0.000E+00 2.829E-25 1.245E-25 7.844E-26 5.687E-26 4.425E-26 3.585E-26 2.978E-26 2.513E-26 2.140E-26 1.826E-26 1.542E-26 1.231E-26 0.000E+00 3.458E-25 1.535E-25 9.774E-26 7.167E-26 5.640E-26 4.620E-26 3.877E-26 3.298E-26 2.819E-26 2.388E-26 1.915E-26 0.000E+00 4.316E-25 1.936E-25 1.249E-25 9.282E-26 7.405E-26 6.145E-26 5.215E-26 4.469E-26 3.808E-26 3.075E-26 0.000E+00 5.517E-25 2.507E-25 1.643E-25 1.242E-25 1.008E-25 8.501E-26 7.305E-26 6.276E-26 5.125E-26 0.000E+00 7.258E-25 3.352E-25 2.243E-25 1.733E-25 1.438E-25 1.237E-25 1.074E-25 8.914E-26 0.000E+00 9.890E-25 4.666E-25 3.209E-25 2.556E-25 2.183E-25 1.919E-25 1.631E-25 0.000E+00 1.410E-24 6.850E-25 4.898E-25 4.070E-25 3.612E-25 3.168E-25 0.000E+00 2.137E-24 1.083E-24 8.214E-25 7.260E-25 6.626E-25 0.000E+00 3.532E-24 1.918E-24 1.598E-24 1.522E-24 0.000E+00 6.679E-24 4.110E-24 3.977E-24 0.000E+00 1.606E-23 1.269E-23 0.000E+00 6.550E-23 4.968E-22
1.000E+06 2 1.000E+03 B 54 25
0.000E+00 2.982E-25 9.668E-26 4.379E-26 2.378E-26 1.447E-26 9.519E-27 6.627E-27 4.815E-27 3.619E-27 2.795E-27 2.207E-27 1.775E-27 1.451E-27 1.201E-27 1.007E-27 8.517E-28 7.267E-28 6.245E-28 5.395E-28 4.676E-28 4.050E-28 3.471E-28 2.818E-28 0.000E+00 3.027E-25 9.960E-26 4.571E-26 2.511E-26 1.543E-26 1.024E-26 7.178E-27 5.249E-27 3.967E-27 3.079E-27 2.442E-27 1.972E-27 1.617E-27 1.343E-27 1.128E-27 9.562E-28 8.170E-28 7.024E-28 6.061E-28 5.229E-28 4.465E-28 3.614E-28 0.000E+00 3.050E-25 1.023E-25 4.774E-26 2.660E-26 1.654E-26 1.108E-26 7.836E-27 5.773E-27 4.391E-27 3.427E-27 2.731E-27 2.214E-27 1.822E-27 1.519E-27 1.279E-27 1.086E-27 9.288E-28 7.977E-28 6.854E-28 5.831E-28 4.704E-28 0.000E+00 3.049E-25 1.047E-25 4.990E-26 2.828E-26 1.783E-26 1.209E-26 8.632E-27 6.413E-27 4.913E-27 3.857E-27 3.090E-27 2.518E-27 2.080E-27 1.739E-27 1.467E-27 1.248E-27 1.067E-27 9.123E-28 7.730E-28 6.214E-28 0.000E+00 3.025E-25 1.070E-25 5.229E-26 3.023E-26 1.937E-26 1.331E-26 9.609E-27 7.204E-27 5.562E-27 4.396E-27 3.542E-27 2.899E-27 2.404E-27 2.016E-27 1.704E-27 1.449E-27 1.233E-27 1.041E-27 8.333E-28 0.000E+00 2.987E-25 1.094E-25 5.504E-26 3.256E-26 2.125E-26 1.481E-26 1.082E-26 8.195E-27 6.380E-27 5.078E-27 4.114E-27 3.383E-27 2.816E-27 2.365E-27 2.000E-27 1.694E-27 1.423E-27 1.134E-27 0.000E+00 2.949E-25 1.123E-25 5.836E-26 3.541E-26 2.357E-26 1.669E-26 1.235E-26 9.449E-27 7.419E-27 5.946E-27 4.845E-27 4.001E-27 3.339E-27 2.807E-27 2.365E-27 1.977E-27 1.568E-27 0.000E+00 2.933E-25 1.162E-25 6.255E-26 3.898E-26 2.649E-26 1.906E-26 1.429E-26 1.105E-26 8.754E-27 7.064E-27 5.786E-27 4.795E-27 4.006E-27 3.357E-27 2.791E-27 2.204E-27 0.000E+00 2.972E-25 1.220E-25 6.801E-26 4.355E-26 3.023E-26 2.212E-26 1.681E-26 1.313E-26 1.049E-26 8.519E-27 7.009E-27 5.818E-27 4.848E-27 4.010E-27 3.151E-27 0.000E+00 3.098E-25 1.309E-25 7.534E-26 4.954E-26 3.510E-26 2.612E-26 2.011E-26 1.588E-26 1.278E-26 1.044E-26 8.612E-27 7.136E-27 5.872E-27 4.591E-27 0.000E+00 3.350E-25 1.442E-25 8.540E-26 5.755E-26 4.161E-26 3.146E-26 2.453E-26 1.956E-26 1.586E-26 1.301E-26 1.072E-26 8.781E-27 6.833E-27 0.000E+00 3.768E-25 1.641E-25 9.948E-26 6.855E-26 5.050E-26 3.876E-26 3.060E-26 2.463E-26 2.008E-26 1.648E-26 1.344E-26 1.042E-26 0.000E+00 4.404E-25 1.934E-25 1.195E-25 8.402E-26 6.298E-26 4.906E-26 3.918E-26 3.178E-26 2.599E-26 2.114E-26 1.635E-26 0.000E+00 5.335E-25 2.366E-25 1.487E-25 1.064E-25 8.110E-26 6.407E-26 5.171E-26 4.217E-26 3.427E-26 2.649E-26 0.000E+00 6.692E-25 3.003E-25 1.919E-25 1.398E-25 1.084E-25 8.685E-26 7.072E-26 5.753E-26 4.459E-26 0.000E+00 8.699E-25 3.965E-25 2.584E-25 1.920E-25 1.516E-25 1.232E-25 1.006E-25 7.847E-26 0.000E+00 1.177E-24 5.474E-25 3.655E-25 2.784E-25 2.246E-25 1.844E-25 1.456E-25 0.000E+00 1.672E-24 7.983E-25 5.510E-25 4.334E-25 3.578E-25 2.879E-25 0.000E+00 2.526E-24 1.253E-24 9.070E-25 7.446E-25 6.157E-25 0.000E+00 4.163E-24 2.191E-24 1.704E-24 1.454E-24 0.000E+00 7.832E-24 4.565E-24 3.925E-24 0.000E+00 1.855E-23 1.303E-23 0.000E+00 7.104E-23 6.208E-22
1.000E+07 2 1.000E+03 B 50 25
0.000E+00 5.786E-25 1.789E-25 7.745E-26 4.041E-26 2.372E-26 1.512E-26 1.023E-26 7.242E-27 5.317E-27 4.019E-27 3.112E-27 2.459E-27 1.976E-27 1.611E-27 1.331E-27 1.111E-27 9.357E-28 7.943E-28 6.783E-28 5.814E-28 4.982E-28 4.225E-28 3.394E-28 0.000E+00 5.966E-25 1.848E-25 8.022E-26 4.193E-26 2.467E-26 1.574E-26 1.067E-26 7.565E-27 5.561E-27 4.209E-27 3.262E-27 2.580E-27 2.075E-27 1.693E-27 1.399E-27 1.167E-27 9.831E-28 8.336E-28 7.100E-28 6.049E-28 5.103E-28 4.082E-28 0.000E+00 6.187E-25 1.923E-25 8.370E-26 4.387E-26 2.587E-26 1.655E-26 1.124E-26 7.984E-27 5.879E-27 4.456E-27 3.459E-27 2.738E-27 2.205E-27 1.800E-27 1.488E-27 1.242E-27 1.045E-27 8.838E-28 7.485E-28 6.281E-28 5.000E-28 0.000E+00 6.446E-25 2.011E-25 8.790E-26 4.625E-26 2.736E-26 1.756E-26 1.195E-26 8.514E-27 6.284E-27 4.772E-27 3.711E-27 2.942E-27 2.372E-27 1.938E-27 1.603E-27 1.337E-27 1.123E-27 9.448E-28 7.884E-28 6.246E-28 0.000E+00 6.733E-25 2.113E-25 9.284E-26 4.909E-26 2.918E-26 1.880E-26 1.284E-26 9.178E-27 6.794E-27 5.173E-27 4.032E-27 3.203E-27 2.586E-27 2.116E-27 1.749E-27 1.458E-27 1.218E-27 1.011E-27 7.966E-28 0.000E+00 7.036E-25 2.225E-25 9.853E-26 5.245E-26 3.136E-26 2.032E-26 1.395E-26 1.001E-26 7.438E-27 5.683E-27 4.442E-27 3.538E-27 2.861E-27 2.343E-27 1.936E-27 1.607E-27 1.325E-27 1.039E-27 0.000E+00 7.340E-25 2.347E-25 1.050E-25 5.641E-26 3.401E-26 2.219E-26 1.533E-26 1.106E-26 8.260E-27 6.338E-27 4.972E-27 3.972E-27 3.218E-27 2.636E-27 2.171E-27 1.779E-27 1.388E-27 0.000E+00 7.623E-25 2.475E-25 1.123E-25 6.111E-26 3.724E-26 2.452E-26 1.708E-26 1.241E-26 9.327E-27 7.195E-27 5.669E-27 4.542E-27 3.685E-27 3.012E-27 2.452E-27 1.902E-27 0.000E+00 7.864E-25 2.609E-25 1.207E-25 6.677E-26 4.126E-26 2.750E-26 1.935E-26 1.419E-26 1.074E-26 8.335E-27 6.598E-27 5.300E-27 4.296E-27 3.473E-27 2.680E-27 0.000E+00 8.049E-25 2.750E-25 1.306E-25 7.379E-26 4.642E-26 3.139E-26 2.236E-26 1.657E-26 1.265E-26 9.880E-27 7.854E-27 6.311E-27 5.065E-27 3.885E-27 0.000E+00 8.186E-25 2.907E-25 1.427E-25 8.281E-26 5.322E-26 3.663E-26 2.647E-26 1.983E-26 1.527E-26 1.200E-26 9.556E-27 7.611E-27 5.800E-27 0.000E+00 8.328E-25 3.100E-25 1.584E-25 9.490E-26 6.251E-26 4.386E-26 3.218E-26 2.439E-26 1.894E-26 1.493E-26 1.179E-26 8.924E-27 0.000E+00 8.590E-25 3.367E-25 1.801E-25 1.117E-25 7.554E-26 5.409E-26 4.030E-26 3.088E-26 2.409E-26 1.887E-26 1.417E-26 0.000E+00 9.167E-25 3.771E-25 2.113E-25 1.358E-25 9.438E-26 6.896E-26 5.211E-26 4.022E-26 3.123E-26 2.327E-26 0.000E+00 1.033E-24 4.409E-25 2.581E-25 1.718E-25 1.226E-25 9.125E-26 6.970E-26 5.368E-26 3.974E-26 0.000E+00 1.243E-24 5.451E-25 3.315E-25 2.279E-25 1.666E-25 1.259E-25 9.636E-26 7.098E-26 0.000E+00 1.603E-24 7.188E-25 4.519E-25 3.199E-25 2.389E-25 1.820E-25 1.339E-25 0.000E+00 2.214E-24 1.018E-24 6.611E-25 4.816E-25 3.653E-25 2.698E-25 0.000E+00 3.295E-24 1.567E-24 1.056E-24 7.917E-25 5.905E-25 0.000E+00 5.378E-24 2.681E-24 1.901E-24 1.437E-24 0.000E+00 1.002E-23 5.383E-24 4.032E-24 0.000E+00 2.321E-23 1.407E-23 0.000E+00 8.262E-23 7.803E-22
1.000E+08 2 1.000E+03 B 50 25
0.000E+00 1.595E-24 4.897E-25 2.106E-25 1.091E-25 6.369E-26 4.035E-26 2.715E-26 1.914E-26 1.398E-26 1.052E-26 8.116E-27 6.386E-27 5.113E-27 4.154E-27 3.417E-27 2.842E-27 2.386E-27 2.018E-27 1.718E-27 1.467E-27 1.252E-27 1.058E-27 8.457E-28 0.000E+00 1.576E-24 4.840E-25 2.082E-25 1.079E-25 6.300E-26 3.992E-26 2.687E-26 1.894E-26 1.384E-26 1.042E-26 8.033E-27 6.320E-27 5.059E-27 4.109E-27 3.379E-27 2.808E-27 2.354E-27 1.988E-27 1.686E-27 1.430E-27 1.201E-27 9.551E-28 0.000E+00 1.549E-24 4.759E-25 2.048E-25 1.062E-25 6.201E-26 3.931E-26 2.646E-26 1.865E-26 1.364E-26 1.026E-26 7.914E-27 6.227E-27 4.983E-27 4.045E-27 3.324E-27 2.760E-27 2.310E-27 1.943E-27 1.637E-27 1.366E-27 1.080E-27 0.000E+00 1.524E-24 4.685E-25 2.018E-25 1.047E-25 6.115E-26 3.878E-26 2.611E-26 1.841E-26 1.346E-26 1.013E-26 7.815E-27 6.148E-27 4.919E-27 3.991E-27 3.276E-27 2.715E-27 2.265E-27 1.893E-27 1.568E-27 1.233E-27 0.000E+00 1.511E-24 4.649E-25 2.004E-25 1.040E-25 6.081E-26 3.858E-26 2.600E-26 1.834E-26 1.341E-26 1.010E-26 7.788E-27 6.126E-27 4.899E-27 3.971E-27 3.255E-27 2.689E-27 2.228E-27 1.832E-27 1.431E-27 0.000E+00 1.517E-24 4.672E-25 2.016E-25 1.048E-25 6.130E-26 3.893E-26 2.625E-26 1.852E-26 1.355E-26 1.021E-26 7.874E-27 6.192E-27 4.949E-27 4.006E-27 3.274E-27 2.687E-27 2.192E-27 1.700E-27 0.000E+00 1.545E-24 4.767E-25 2.060E-25 1.072E-25 6.281E-26 3.994E-26 2.695E-26 1.904E-26 1.394E-26 1.051E-26 8.104E-27 6.371E-27 5.086E-27 4.106E-27 3.336E-27 2.696E-27 2.074E-27 0.000E+00 1.597E-24 4.939E-25 2.139E-25 1.116E-25 6.551E-26 4.172E-26 2.820E-26 1.995E-26 1.462E-26 1.102E-26 8.505E-27 6.682E-27 5.323E-27 4.274E-27 3.420E-27 2.609E-27 0.000E+00 1.674E-24 5.193E-25 2.257E-25 1.181E-25 6.953E-26 4.439E-26 3.007E-26 2.131E-26 1.564E-26 1.181E-26 9.109E-27 7.146E-27 5.665E-27 4.484E-27 3.389E-27 0.000E+00 1.773E-24 5.530E-25 2.416E-25 1.270E-25 7.509E-26 4.812E-26 3.271E-26 2.324E-26 1.710E-26 1.292E-26 9.963E-27 7.786E-27 6.091E-27 4.558E-27 0.000E+00 1.893E-24 5.952E-25 2.620E-25 1.388E-25 8.255E-26 5.320E-26 3.633E-26 2.592E-26 1.912E-26 1.446E-26 1.113E-26 8.596E-27 6.368E-27 0.000E+00 2.030E-24 6.462E-25 2.879E-25 1.541E-25 9.254E-26 6.013E-26 4.135E-26 2.966E-26 2.196E-26 1.661E-26 1.266E-26 9.276E-27 0.000E+00 2.179E-24 7.070E-25 3.208E-25 1.744E-25 1.062E-25 6.981E-26 4.846E-26 3.501E-26 2.599E-26 1.953E-26 1.416E-26 0.000E+00 2.335E-24 7.801E-25 3.637E-25 2.024E-25 1.256E-25 8.387E-26 5.893E-26 4.288E-26 3.172E-26 2.275E-26 0.000E+00 2.502E-24 8.731E-25 4.231E-25 2.430E-25 1.546E-25 1.052E-25 7.488E-26 5.452E-26 3.864E-26 0.000E+00 2.718E-24 1.004E-24 5.117E-25 3.056E-25 2.002E-25 1.390E-25 9.946E-26 6.959E-26 0.000E+00 3.076E-24 1.212E-24 6.548E-25 4.083E-25 2.754E-25 1.934E-25 1.335E-25 0.000E+00 3.774E-24 1.575E-24 9.029E-25 5.868E-25 4.039E-25 2.751E-25 0.000E+00 5.179E-24 2.264E-24 1.368E-24 9.178E-25 6.184E-25 0.000E+00 8.077E-24 3.689E-24 2.329E-24 1.554E-24 0.000E+00 1.464E-23 7.049E-24 4.547E-24 0.000E+00 3.289E-23 1.682E-23 0.000E+00 1.084E-22 1.086E-21
1.000E+02 2 3.000E+03 B 245 25
0.000E+00 2.273E-26 9.432E-27 5.542E-27 3.752E-27 2.740E-27 2.096E-27 1.657E-27 1.340E-27 1.104E-27 9.232E-28 7.812E-28 6.677E-28 5.757E-28 4.999E-28 4.368E-28 3.836E-28 3.383E-28 2.990E-28 2.646E-28 2.337E-28 2.050E-28 1.762E-28 1.411E-28 0.000E+00 2.551E-26 1.060E-26 6.241E-27 4.234E-27 3.097E-27 2.374E-27 1.879E-27 1.522E-27 1.256E-27 1.052E-27 8.912E-28 7.628E-28 6.584E-28 5.724E-28 5.005E-28 4.397E-28 3.875E-28 3.420E-28 3.015E-28 2.640E-28 2.266E-28 1.811E-28 0.000E+00 2.878E-26 1.198E-26 7.066E-27 4.804E-27 3.521E-27 2.704E-27 2.144E-27 1.740E-27 1.438E-27 1.206E-27 1.024E-27 8.775E-28 7.584E-28 6.599E-28 5.774E-28 5.073E-28 4.466E-28 3.928E-28 3.434E-28 2.944E-28 2.350E-28 0.000E+00 3.263E-26 1.361E-26 8.047E-27 5.483E-27 4.028E-27 3.100E-27 2.463E-27 2.003E-27 1.659E-27 1.394E-27 1.185E-27 1.017E-27 8.804E-28 7.670E-28 6.714E-28 5.894E-28 5.173E-28 4.516E-28 3.867E-28 3.082E-28 0.000E+00 3.723E-26 1.556E-26 9.222E-27 6.300E-27 4.639E-27 3.579E-27 2.850E-27 2.324E-27 1.929E-27 1.624E-27 1.383E-27 1.190E-27 1.031E-27 8.991E-28 7.869E-28 6.893E-28 6.008E-28 5.140E-28 4.094E-28 0.000E+00 4.274E-26 1.790E-26 1.064E-26 7.292E-27 5.385E-27 4.166E-27 3.327E-27 2.719E-27 2.263E-27 1.910E-27 1.631E-27 1.405E-27 1.220E-27 1.064E-27 9.299E-28 8.094E-28 6.922E-28 5.510E-28 0.000E+00 4.942E-26 2.076E-26 1.238E-26 8.510E-27 6.306E-27 4.894E-27 3.920E-27 3.213E-27 2.682E-27 2.270E-27 1.943E-27 1.678E-27 1.459E-27 1.272E-27 1.106E-27 9.452E-28 7.525E-28 0.000E+00 5.760E-26 2.426E-26 1.453E-26 1.002E-26 7.456E-27 5.808E-27 4.669E-27 3.841E-27 3.217E-27 2.732E-27 2.346E-27 2.030E-27 1.765E-27 1.533E-27 1.311E-27 1.044E-27 0.000E+00 6.773E-26 2.863E-26 1.722E-26 1.193E-26 8.915E-27 6.974E-27 5.631E-27 4.652E-27 3.912E-27 3.335E-27 2.873E-27 2.491E-27 2.161E-27 1.848E-27 1.475E-27 0.000E+00 8.046E-26 3.415E-26 2.064E-26 1.438E-26 1.080E-26 8.491E-27 6.891E-27 5.722E-27 4.836E-27 4.141E-27 3.578E-27 3.100E-27 2.655E-27 2.125E-27 0.000E+00 9.668E-26 4.124E-26 2.507E-26 1.758E-26 1.328E-26 1.051E-26 8.579E-27 7.169E-27 6.095E-27 5.245E-27 4.539E-27 3.894E-27 3.130E-27 0.000E+00 1.177E-25 5.050E-26 3.092E-26 2.184E-26 1.662E-26 1.325E-26 1.091E-26 9.184E-27 7.863E-27 6.795E-27 5.842E-27 4.723E-27 0.000E+00 1.456E-25 6.288E-26 3.884E-26 2.768E-26 2.127E-26 1.712E-26 1.423E-26 1.209E-26 1.043E-26 8.994E-27 7.327E-27 0.000E+00 1.834E-25 7.986E-26 4.985E-26 3.593E-26 2.794E-26 2.277E-26 1.916E-26 1.648E-26 1.426E-26 1.173E-26 0.000E+00 2.361E-25 1.039E-25 6.574E-26 4.808E-26 3.797E-26 3.145E-26 2.691E-26 2.337E-26 1.948E-26 0.000E+00 3.122E-25 1.393E-25 8.968E-26 6.688E-26 5.394E-26 4.570E-26 3.982E-26 3.374E-26 0.000E+00 4.271E-25 1.939E-25 1.279E-25 9.799E-26 8.146E-26 7.107E-26 6.144E-26 0.000E+00 6.104E-25 2.841E-25 1.938E-25 1.546E-25 1.343E-25 1.189E-25 0.000E+00 9.252E-25 4.465E-25 3.210E-25 2.727E-25 2.480E-25 0.000E+00 1.525E-24 7.807E-25 6.132E-25 5.703E-25 0.000E+00 2.860E-24 1.634E-24 1.500E-24 0.000E+00 6.741E-24 4.872E-24 0.000E+00 2.624E-23 1.852E-22
1.000E+03 2 3.000E+03 B 173 25
0.000E+00 2.323E-26 9.631E-27 5.650E-27 3.817E-27 2.779E-27 2.119E-27 1.668E-27 1.344E-27 1.102E-27 9.174E-28 7.724E-28 6.567E-28 5.629E-28 4.859E-28 4.219E-28 3.681E-28 3.223E-28 2.830E-28 2.487E-28 2.182E-28 1.904E-28 1.633E-28 1.315E-28 0.000E+00 2.604E-26 1.081E-26 6.355E-27 4.302E-27 3.138E-27 2.397E-27 1.890E-27 1.526E-27 1.253E-27 1.044E-27 8.804E-28 7.494E-28 6.430E-28 5.554E-28 4.824E-28 4.208E-28 3.682E-28 3.226E-28 2.823E-28 2.456E-28 2.102E-28 1.688E-28 0.000E+00 2.933E-26 1.220E-26 7.187E-27 4.876E-27 3.564E-27 2.728E-27 2.155E-27 1.743E-27 1.434E-27 1.197E-27 1.010E-27 8.609E-28 7.394E-28 6.391E-28 5.552E-28 4.840E-28 4.227E-28 3.689E-28 3.202E-28 2.733E-28 2.188E-28 0.000E+00 3.323E-26 1.385E-26 8.177E-27 5.560E-27 4.074E-27 3.126E-27 2.474E-27 2.004E-27 1.652E-27 1.381E-27 1.168E-27 9.966E-28 8.567E-28 7.409E-28 6.435E-28 5.602E-28 4.875E-28 4.221E-28 3.593E-28 2.870E-28 0.000E+00 3.787E-26 1.582E-26 9.364E-27 6.384E-27 4.690E-27 3.607E-27 2.862E-27 2.323E-27 1.919E-27 1.608E-27 1.361E-27 1.163E-27 1.001E-27 8.658E-28 7.513E-28 6.520E-28 5.632E-28 4.784E-28 3.810E-28 0.000E+00 4.345E-26 1.819E-26 1.080E-26 7.386E-27 5.441E-27 4.196E-27 3.338E-27 2.717E-27 2.250E-27 1.888E-27 1.602E-27 1.371E-27 1.180E-27 1.021E-27 8.833E-28 7.612E-28 6.453E-28 5.128E-28 0.000E+00 5.021E-26 2.108E-26 1.256E-26 8.616E-27 6.367E-27 4.926E-27 3.931E-27 3.208E-27 2.663E-27 2.241E-27 1.905E-27 1.632E-27 1.406E-27 1.214E-27 1.044E-27 8.832E-28 7.006E-28 0.000E+00 5.849E-26 2.463E-26 1.473E-26 1.014E-26 7.525E-27 5.842E-27 4.678E-27 3.831E-27 3.190E-27 2.692E-27 2.293E-27 1.967E-27 1.693E-27 1.453E-27 1.228E-27 9.728E-28 0.000E+00 6.876E-26 2.906E-26 1.745E-26 1.207E-26 8.994E-27 7.012E-27 5.638E-27 4.634E-27 3.873E-27 3.278E-27 2.799E-27 2.401E-27 2.057E-27 1.737E-27 1.375E-27 0.000E+00 8.166E-26 3.465E-26 2.092E-26 1.454E-26 1.089E-26 8.532E-27 6.892E-27 5.692E-27 4.777E-27 4.056E-27 3.468E-27 2.967E-27 2.505E-27 1.984E-27 0.000E+00 9.810E-26 4.183E-26 2.540E-26 1.777E-26 1.338E-26 1.055E-26 8.571E-27 7.117E-27 6.002E-27 5.112E-27 4.367E-27 3.689E-27 2.926E-27 0.000E+00 1.194E-25 5.121E-26 3.132E-26 2.207E-26 1.674E-26 1.329E-26 1.088E-26 9.092E-27 7.708E-27 6.576E-27 5.563E-27 4.425E-27 0.000E+00 1.477E-25 6.375E-26 3.932E-26 2.796E-26 2.140E-26 1.715E-26 1.416E-26 1.193E-26 1.016E-26 8.611E-27 6.885E-27 0.000E+00 1.860E-25 8.095E-26 5.046E-26 3.628E-26 2.809E-26 2.276E-26 1.900E-26 1.615E-26 1.373E-26 1.106E-26 0.000E+00 2.394E-25 1.053E-25 6.652E-26 4.850E-26 3.812E-26 3.136E-26 2.653E-26 2.265E-26 1.844E-26 0.000E+00 3.166E-25 1.411E-25 9.070E-26 6.740E-26 5.404E-26 4.534E-26 3.886E-26 3.210E-26 0.000E+00 4.330E-25 1.965E-25 1.293E-25 9.860E-26 8.129E-26 6.985E-26 5.880E-26 0.000E+00 6.188E-25 2.877E-25 1.957E-25 1.551E-25 1.329E-25 1.145E-25 0.000E+00 9.379E-25 4.520E-25 3.235E-25 2.717E-25 2.405E-25 0.000E+00 1.546E-24 7.893E-25 6.146E-25 5.572E-25 0.000E+00 2.898E-24 1.646E-24 1.477E-24 0.000E+00 6.820E-24 4.833E-24 0.000E+00 2.627E-23 1.862E-22
1.000E+04 2 3.000E+03 B 117 25
0.000E+00 2.520E-26 1.040E-26 6.052E-27 4.046E-27 2.910E-27 2.191E-27 1.702E-27 1.355E-27 1.098E-27 9.031E-28 7.521E-28 6.328E-28 5.371E-28 4.593E-28 3.952E-28 3.419E-28 2.971E-28 2.589E-28 2.261E-28 1.973E-28 1.714E-28 1.466E-28 1.182E-28 0.000E+00 2.788E-26 1.153E-26 6.734E-27 4.519E-27 3.262E-27 2.465E-27 1.922E-27 1.533E-27 1.246E-27 1.027E-27 8.565E-28 7.217E-28 6.131E-28 5.246E-28 4.516E-28 3.905E-28 3.389E-28 2.947E-28 2.562E-28 2.218E-28 1.891E-28 1.518E-28 0.000E+00 3.109E-26 1.288E-26 7.550E-27 5.084E-27 3.684E-27 2.792E-27 2.184E-27 1.747E-27 1.423E-27 1.175E-27 9.818E-28 8.283E-28 7.043E-28 6.029E-28 5.189E-28 4.483E-28 3.883E-28 3.363E-28 2.900E-28 2.463E-28 1.970E-28 0.000E+00 3.493E-26 1.451E-26 8.531E-27 5.765E-27 4.191E-27 3.187E-27 2.499E-27 2.005E-27 1.636E-27 1.354E-27 1.133E-27 9.573E-28 8.147E-28 6.975E-28 5.999E-28 5.174E-28 4.464E-28 3.835E-28 3.246E-28 2.586E-28 0.000E+00 3.956E-26 1.648E-26 9.718E-27 6.588E-27 4.805E-27 3.666E-27 2.883E-27 2.319E-27 1.897E-27 1.573E-27 1.319E-27 1.115E-27 9.495E-28 8.127E-28 6.979E-28 5.998E-28 5.134E-28 4.330E-28 3.437E-28 0.000E+00 4.516E-26 1.887E-26 1.116E-26 7.594E-27 5.557E-27 4.253E-27 3.356E-27 2.706E-27 2.219E-27 1.844E-27 1.548E-27 1.310E-27 1.116E-27 9.541E-28 8.167E-28 6.967E-28 5.855E-28 4.631E-28 0.000E+00 5.200E-26 2.179E-26 1.294E-26 8.833E-27 6.488E-27 4.982E-27 3.943E-27 3.189E-27 2.622E-27 2.183E-27 1.836E-27 1.555E-27 1.323E-27 1.128E-27 9.592E-28 8.035E-28 6.333E-28 0.000E+00 6.040E-26 2.540E-26 1.514E-26 1.038E-26 7.652E-27 5.898E-27 4.684E-27 3.800E-27 3.133E-27 2.614E-27 2.201E-27 1.865E-27 1.584E-27 1.342E-27 1.121E-27 8.804E-28 0.000E+00 7.085E-26 2.990E-26 1.790E-26 1.233E-26 9.130E-27 7.067E-27 5.634E-27 4.587E-27 3.793E-27 3.172E-27 2.673E-27 2.261E-27 1.910E-27 1.591E-27 1.246E-27 0.000E+00 8.401E-26 3.560E-26 2.143E-26 1.483E-26 1.104E-26 8.584E-27 6.873E-27 5.618E-27 4.660E-27 3.905E-27 3.291E-27 2.772E-27 2.304E-27 1.801E-27 0.000E+00 1.008E-25 4.293E-26 2.599E-26 1.810E-26 1.355E-26 1.059E-26 8.527E-27 7.001E-27 5.828E-27 4.890E-27 4.108E-27 3.409E-27 2.662E-27 0.000E+00 1.226E-25 5.251E-26 3.201E-26 2.245E-26 1.693E-26 1.332E-26 1.079E-26 8.905E-27 7.436E-27 6.233E-27 5.170E-27 4.037E-27 0.000E+00 1.515E-25 6.533E-26 4.017E-26 2.841E-26 2.160E-26 1.714E-26 1.399E-26 1.161E-26 9.708E-27 8.056E-27 6.302E-27 0.000E+00 1.907E-25 8.291E-26 5.151E-26 3.683E-26 2.829E-26 2.268E-26 1.867E-26 1.557E-26 1.294E-26 1.017E-26 0.000E+00 2.454E-25 1.078E-25 6.784E-26 4.917E-26 3.829E-26 3.109E-26 2.584E-26 2.154E-26 1.704E-26 0.000E+00 3.244E-25 1.444E-25 9.242E-26 6.819E-26 5.406E-26 4.460E-26 3.731E-26 2.984E-26 0.000E+00 4.437E-25 2.009E-25 1.315E-25 9.944E-26 8.076E-26 6.776E-26 5.506E-26 0.000E+00 6.339E-25 2.940E-25 1.987E-25 1.555E-25 1.303E-25 1.082E-25 0.000E+00 9.606E-25 4.614E-25 3.272E-25 2.694E-25 2.294E-25 0.000E+00 1.582E-24 8.039E-25 6.161E-25 5.374E-25 0.000E+00 2.965E-24 1.666E-24 1.441E-24 0.000E+00 6.957E-24 4.775E-24 0.000E+00 2.636E-23 1.894E-22
1.000E+05 2 3.000E+03 B 82 25
0.000E+00 3.801E-26 1.488E-26 7.970E-27 4.941E-27 3.337E-27 2.384E-27 1.774E-27 1.361E-27 1.070E-27 8.576E-28 6.985E-28 5.768E-28 4.817E-28 4.064E-28 3.457E-28 2.962E-28 2.553E-28 2.212E-28 1.922E-28 1.673E-28 1.451E-28 1.242E-28 1.004E-28 0.000E+00 3.928E-26 1.565E-26 8.550E-27 5.384E-27 3.679E-27 2.653E-27 1.989E-27 1.535E-27 1.212E-27 9.755E-28 7.971E-28 6.597E-28 5.520E-28 4.662E-28 3.969E-28 3.401E-28 2.930E-28 2.533E-28 2.193E-28 1.894E-28 1.614E-28 1.298E-28 0.000E+00 4.116E-26 1.664E-26 9.253E-27 5.912E-27 4.087E-27 2.974E-27 2.246E-27 1.743E-27 1.383E-27 1.117E-27 9.152E-28 7.592E-28 6.363E-28 5.379E-28 4.580E-28 3.922E-28 3.373E-28 2.905E-28 2.496E-28 2.117E-28 1.695E-28 0.000E+00 4.384E-26 1.791E-26 1.012E-26 6.552E-27 4.578E-27 3.360E-27 2.555E-27 1.994E-27 1.589E-27 1.288E-27 1.058E-27 8.793E-28 7.379E-28 6.241E-28 5.312E-28 4.542E-28 3.891E-28 3.326E-28 2.806E-28 2.236E-28 0.000E+00 4.747E-26 1.954E-26 1.119E-26 7.333E-27 5.175E-27 3.829E-27 2.930E-27 2.299E-27 1.840E-27 1.496E-27 1.232E-27 1.026E-27 8.614E-28 7.285E-28 6.191E-28 5.275E-28 4.485E-28 3.765E-28 2.984E-28 0.000E+00 5.227E-26 2.163E-26 1.252E-26 8.296E-27 5.908E-27 4.405E-27 3.391E-27 2.674E-27 2.148E-27 1.752E-27 1.446E-27 1.205E-27 1.013E-27 8.554E-28 7.246E-28 6.128E-28 5.118E-28 4.035E-28 0.000E+00 5.851E-26 2.432E-26 1.421E-26 9.498E-27 6.820E-27 5.120E-27 3.964E-27 3.141E-27 2.533E-27 2.071E-27 1.713E-27 1.429E-27 1.199E-27 1.010E-27 8.496E-28 7.058E-28 5.536E-28 0.000E+00 6.651E-26 2.776E-26 1.634E-26 1.101E-26 7.967E-27 6.020E-27 4.686E-27 3.729E-27 3.018E-27 2.474E-27 2.049E-27 1.709E-27 1.431E-27 1.197E-27 9.892E-28 7.719E-28 0.000E+00 7.675E-26 3.218E-26 1.907E-26 1.295E-26 9.431E-27 7.169E-27 5.611E-27 4.484E-27 3.640E-27 2.990E-27 2.477E-27 2.062E-27 1.716E-27 1.411E-27 1.096E-27 0.000E+00 8.991E-26 3.789E-26 2.260E-26 1.545E-26 1.133E-26 8.663E-27 6.814E-27 5.469E-27 4.453E-27 3.663E-27 3.032E-27 2.510E-27 2.054E-27 1.588E-27 0.000E+00 1.069E-25 4.533E-26 2.722E-26 1.874E-26 1.383E-26 1.064E-26 8.414E-27 6.780E-27 5.535E-27 4.554E-27 3.752E-27 3.058E-27 2.353E-27 0.000E+00 1.293E-25 5.514E-26 3.336E-26 2.314E-26 1.720E-26 1.332E-26 1.059E-26 8.570E-27 7.007E-27 5.747E-27 4.668E-27 3.580E-27 0.000E+00 1.591E-25 6.834E-26 4.170E-26 2.917E-26 2.186E-26 1.706E-26 1.364E-26 1.108E-26 9.047E-27 7.329E-27 5.609E-27 0.000E+00 1.997E-25 8.650E-26 5.332E-26 3.768E-26 2.852E-26 2.243E-26 1.806E-26 1.469E-26 1.188E-26 9.089E-27 0.000E+00 2.565E-25 1.123E-25 7.007E-26 5.015E-26 3.840E-26 3.051E-26 2.470E-26 1.998E-26 1.532E-26 0.000E+00 3.387E-25 1.501E-25 9.523E-26 6.927E-26 5.384E-26 4.326E-26 3.503E-26 2.701E-26 0.000E+00 4.628E-25 2.086E-25 1.352E-25 1.005E-25 7.957E-26 6.452E-26 5.026E-26 0.000E+00 6.608E-25 3.048E-25 2.034E-25 1.557E-25 1.260E-25 9.976E-26 0.000E+00 1.001E-24 4.772E-25 3.325E-25 2.651E-25 2.143E-25 0.000E+00 1.647E-24 8.278E-25 6.169E-25 5.095E-25 0.000E+00 3.081E-24 1.697E-24 1.390E-24 0.000E+00 7.192E-24 4.695E-24 0.000E+00 2.657E-23 2.049E-22
1.000E+06 2 3.000E+03 B 56 25
0.000E+00 8.328E-26 2.724E-26 1.244E-26 6.796E-27 4.155E-27 2.742E-27 1.913E-27 1.392E-27 1.046E-27 8.080E-28 6.377E-28 5.125E-28 4.183E-28 3.460E-28 2.894E-28 2.444E-28 2.081E-28 1.785E-28 1.538E-28 1.330E-28 1.149E-28 9.811E-29 7.935E-29 0.000E+00 8.580E-26 2.851E-26 1.321E-26 7.305E-27 4.511E-27 3.002E-27 2.109E-27 1.543E-27 1.166E-27 9.045E-28 7.165E-28 5.777E-28 4.728E-28 3.919E-28 3.284E-28 2.777E-28 2.366E-28 2.028E-28 1.745E-28 1.500E-28 1.276E-28 1.028E-28 0.000E+00 8.797E-26 2.981E-26 1.405E-26 7.884E-27 4.925E-27 3.309E-27 2.343E-27 1.726E-27 1.312E-27 1.022E-27 8.130E-28 6.577E-28 5.398E-28 4.484E-28 3.764E-28 3.185E-28 2.714E-28 2.322E-28 1.986E-28 1.681E-28 1.349E-28 0.000E+00 8.981E-26 3.117E-26 1.500E-26 8.556E-27 5.416E-27 3.678E-27 2.627E-27 1.950E-27 1.491E-27 1.167E-27 9.323E-28 7.568E-28 6.228E-28 5.184E-28 4.356E-28 3.686E-28 3.135E-28 2.667E-28 2.247E-28 1.793E-28 0.000E+00 9.148E-26 3.263E-26 1.608E-26 9.349E-27 6.007E-27 4.127E-27 2.976E-27 2.225E-27 1.712E-27 1.348E-27 1.081E-27 8.802E-28 7.260E-28 6.052E-28 5.086E-28 4.297E-28 3.634E-28 3.044E-28 2.417E-28 0.000E+00 9.330E-26 3.432E-26 1.737E-26 1.031E-26 6.727E-27 4.680E-27 3.408E-27 2.569E-27 1.989E-27 1.573E-27 1.267E-27 1.035E-27 8.549E-28 7.129E-28 5.981E-28 5.026E-28 4.184E-28 3.302E-28 0.000E+00 9.581E-26 3.637E-26 1.893E-26 1.148E-26 7.620E-27 5.370E-27 3.950E-27 3.001E-27 2.338E-27 1.858E-27 1.501E-27 1.229E-27 1.016E-27 8.461E-28 7.059E-28 5.838E-28 4.577E-28 0.000E+00 9.973E-26 3.900E-26 2.089E-26 1.295E-26 8.741E-27 6.239E-27 4.635E-27 3.549E-27 2.781E-27 2.220E-27 1.799E-27 1.474E-27 1.217E-27 1.008E-27 8.276E-28 6.444E-28 0.000E+00 1.060E-25 4.250E-26 2.340E-26 1.482E-26 1.017E-26 7.351E-27 5.514E-27 4.253E-27 3.351E-27 2.685E-27 2.179E-27 1.784E-27 1.465E-27 1.194E-27 9.230E-28 0.000E+00 1.156E-25 4.728E-26 2.668E-26 1.725E-26 1.202E-26 8.794E-27 6.657E-27 5.170E-27 4.093E-27 3.287E-27 2.667E-27 2.173E-27 1.757E-27 1.348E-27 0.000E+00 1.299E-25 5.388E-26 3.106E-26 2.045E-26 1.446E-26 1.070E-26 8.171E-27 6.384E-27 5.072E-27 4.077E-27 3.293E-27 2.642E-27 2.011E-27 0.000E+00 1.504E-25 6.309E-26 3.703E-26 2.478E-26 1.776E-26 1.328E-26 1.022E-26 8.024E-27 6.387E-27 5.117E-27 4.074E-27 3.079E-27 0.000E+00 1.796E-25 7.604E-26 4.530E-26 3.076E-26 2.231E-26 1.685E-26 1.306E-26 1.029E-26 8.177E-27 6.464E-27 4.851E-27 0.000E+00 2.208E-25 9.444E-26 5.703E-26 3.924E-26 2.881E-26 2.195E-26 1.711E-26 1.349E-26 1.060E-26 7.909E-27 0.000E+00 2.798E-25 1.210E-25 7.412E-26 5.170E-26 3.840E-26 2.952E-26 2.309E-26 1.804E-26 1.341E-26 0.000E+00 3.663E-25 1.606E-25 9.992E-26 7.076E-26 5.323E-26 4.123E-26 3.210E-26 2.383E-26 0.000E+00 4.981E-25 2.220E-25 1.408E-25 1.016E-25 7.749E-26 6.015E-26 4.476E-26 0.000E+00 7.090E-25 3.229E-25 2.103E-25 1.552E-25 1.199E-25 8.990E-26 0.000E+00 1.072E-24 5.031E-25 3.398E-25 2.582E-25 1.960E-25 0.000E+00 1.761E-24 8.658E-25 6.168E-25 4.748E-25 0.000E+00 3.282E-24 1.744E-24 1.325E-24 0.000E+00 7.590E-24 4.602E-24 0.000E+00 2.704E-23 2.427E-22
1.000E+07 2 3.000E+03 B 50 25
0.000E+00 1.352E-25 4.187E-26 1.815E-26 9.479E-27 5.570E-27 3.551E-27 2.404E-27 1.703E-27 1.251E-27 9.455E-28 7.322E-28 5.784E-28 4.648E-28 3.790E-28 3.129E-28 2.611E-28 2.199E-28 1.866E-28 1.593E-28 1.365E-28 1.169E-28 9.902E-29 7.948E-29 0.000E+00 1.429E-25 4.435E-26 1.928E-26 1.009E-26 5.942E-27 3.795E-27 2.573E-27 1.826E-27 1.343E-27 1.016E-27 7.877E-28 6.229E-28 5.009E-28 4.086E-28 3.375E-28 2.816E-28 2.370E-28 2.009E-28 1.710E-28 1.456E-28 1.227E-28 9.804E-29 0.000E+00 1.516E-25 4.722E-26 2.060E-26 1.081E-26 6.386E-27 4.089E-27 2.779E-27 1.975E-27 1.455E-27 1.103E-27 8.562E-28 6.778E-28 5.456E-28 4.453E-28 3.679E-28 3.069E-28 2.581E-28 2.182E-28 1.846E-28 1.548E-28 1.230E-28 0.000E+00 1.613E-25 5.048E-26 2.212E-26 1.166E-26 6.913E-27 4.442E-27 3.027E-27 2.157E-27 1.593E-27 1.210E-27 9.407E-28 7.458E-28 6.010E-28 4.909E-28 4.056E-28 3.382E-28 2.838E-28 2.385E-28 1.988E-28 1.572E-28 0.000E+00 1.718E-25 5.412E-26 2.387E-26 1.266E-26 7.539E-27 4.865E-27 3.328E-27 2.380E-27 1.762E-27 1.342E-27 1.046E-27 8.305E-28 6.702E-28 5.479E-28 4.526E-28 3.768E-28 3.145E-28 2.605E-28 2.049E-28 0.000E+00 1.829E-25 5.813E-26 2.585E-26 1.381E-26 8.283E-27 5.375E-27 3.695E-27 2.654E-27 1.973E-27 1.507E-27 1.178E-27 9.374E-28 7.575E-28 6.196E-28 5.113E-28 4.237E-28 3.487E-28 2.728E-28 0.000E+00 1.942E-25 6.248E-26 2.811E-26 1.517E-26 9.177E-27 6.000E-27 4.151E-27 2.998E-27 2.239E-27 1.717E-27 1.346E-27 1.074E-27 8.691E-28 7.106E-28 5.841E-28 4.774E-28 3.713E-28 0.000E+00 2.053E-25 6.717E-26 3.070E-26 1.679E-26 1.027E-26 6.777E-27 4.726E-27 3.436E-27 2.581E-27 1.989E-27 1.565E-27 1.251E-27 1.013E-27 8.256E-28 6.699E-28 5.178E-28 0.000E+00 2.159E-25 7.225E-26 3.370E-26 1.875E-26 1.163E-26 7.765E-27 5.468E-27 4.007E-27 3.029E-27 2.346E-27 1.852E-27 1.484E-27 1.198E-27 9.644E-28 7.403E-28 0.000E+00 2.260E-25 7.790E-26 3.730E-26 2.120E-26 1.338E-26 9.055E-27 6.447E-27 4.767E-27 3.628E-27 2.824E-27 2.235E-27 1.787E-27 1.426E-27 1.086E-27 0.000E+00 2.366E-25 8.455E-26 4.180E-26 2.436E-26 1.568E-26 1.078E-26 7.766E-27 5.795E-27 4.440E-27 3.469E-27 2.743E-27 2.168E-27 1.637E-27 0.000E+00 2.497E-25 9.298E-26 4.769E-26 2.859E-26 1.879E-26 1.313E-26 9.580E-27 7.211E-27 5.553E-27 4.338E-27 3.392E-27 2.536E-27 0.000E+00 2.692E-25 1.045E-25 5.572E-26 3.441E-26 2.313E-26 1.642E-26 1.212E-26 9.186E-27 7.081E-27 5.473E-27 4.048E-27 0.000E+00 3.010E-25 1.212E-25 6.712E-26 4.268E-26 2.931E-26 2.113E-26 1.574E-26 1.197E-26 9.137E-27 6.682E-27 0.000E+00 3.533E-25 1.463E-25 8.393E-26 5.485E-26 3.842E-26 2.806E-26 2.102E-26 1.585E-26 1.147E-26 0.000E+00 4.383E-25 1.856E-25 1.097E-25 7.347E-26 5.237E-26 3.860E-26 2.878E-26 2.061E-26 0.000E+00 5.757E-25 2.489E-25 1.510E-25 1.034E-25 7.476E-26 5.512E-26 3.917E-26 0.000E+00 8.033E-25 3.553E-25 2.212E-25 1.547E-25 1.127E-25 7.973E-26 0.000E+00 1.200E-24 5.461E-25 3.506E-25 2.499E-25 1.768E-25 0.000E+00 1.959E-24 9.263E-25 6.182E-25 4.376E-25 0.000E+00 3.626E-24 1.820E-24 1.256E-24 0.000E+00 8.265E-24 4.528E-24 0.000E+00 2.810E-23 2.740E-22
1.000E+08 2 3.000E+03 B 50 25
0.000E+00 2.599E-25 7.981E-26 3.432E-26 1.779E-26 1.038E-26 6.578E-27 4.426E-27 3.119E-27 2.279E-27 1.715E-27 1.323E-27 1.041E-27 8.332E-28 6.768E-28 5.568E-28 4.631E-28 3.887E-28 3.288E-28 2.798E-28 2.389E-28 2.039E-28 1.722E-28 1.377E-28 0.000E+00 2.668E-25 8.196E-26 3.526E-26 1.828E-26 1.067E-26 6.763E-27 4.552E-27 3.208E-27 2.344E-27 1.764E-27 1.360E-27 1.070E-27 8.567E-28 6.958E-28 5.721E-28 4.754E-28 3.986E-28 3.364E-28 2.853E-28 2.419E-28 2.031E-28 1.615E-28 0.000E+00 2.731E-25 8.393E-26 3.613E-26 1.874E-26 1.094E-26 6.935E-27 4.669E-27 3.291E-27 2.406E-27 1.811E-27 1.396E-27 1.098E-27 8.789E-28 7.135E-28 5.862E-28 4.866E-28 4.071E-28 3.425E-28 2.884E-28 2.406E-28 1.903E-28 0.000E+00 2.799E-25 8.606E-26 3.707E-26 1.924E-26 1.124E-26 7.127E-27 4.800E-27 3.384E-27 2.474E-27 1.862E-27 1.436E-27 1.130E-27 9.036E-28 7.331E-28 6.017E-28 4.985E-28 4.157E-28 3.473E-28 2.877E-28 2.262E-28 0.000E+00 2.886E-25 8.881E-26 3.828E-26 1.988E-26 1.162E-26 7.376E-27 4.970E-27 3.506E-27 2.564E-27 1.930E-27 1.488E-27 1.171E-27 9.360E-28 7.586E-28 6.216E-28 5.134E-28 4.253E-28 3.496E-28 2.729E-28 0.000E+00 3.005E-25 9.260E-26 3.997E-26 2.078E-26 1.216E-26 7.724E-27 5.208E-27 3.676E-27 2.690E-27 2.026E-27 1.562E-27 1.228E-27 9.813E-28 7.942E-28 6.488E-28 5.323E-28 4.340E-28 3.363E-28 0.000E+00 3.168E-25 9.781E-26 4.229E-26 2.202E-26 1.291E-26 8.208E-27 5.540E-27 3.914E-27 2.866E-27 2.159E-27 1.665E-27 1.309E-27 1.044E-27 8.429E-28 6.843E-28 5.528E-28 4.249E-28 0.000E+00 3.382E-25 1.047E-25 4.537E-26 2.369E-26 1.391E-26 8.862E-27 5.991E-27 4.238E-27 3.106E-27 2.342E-27 1.806E-27 1.418E-27 1.129E-27 9.063E-28 7.247E-28 5.522E-28 0.000E+00 3.648E-25 1.134E-25 4.933E-26 2.584E-26 1.522E-26 9.725E-27 6.591E-27 4.671E-27 3.428E-27 2.587E-27 1.995E-27 1.564E-27 1.239E-27 9.800E-28 7.398E-28 0.000E+00 3.969E-25 1.240E-25 5.429E-26 2.859E-26 1.692E-26 1.085E-26 7.379E-27 5.244E-27 3.857E-27 2.913E-27 2.246E-27 1.754E-27 1.370E-27 1.024E-27 0.000E+00 4.340E-25 1.369E-25 6.043E-26 3.207E-26 1.911E-26 1.233E-26 8.424E-27 6.011E-27 4.433E-27 3.351E-27 2.576E-27 1.987E-27 1.470E-27 0.000E+00 4.756E-25 1.521E-25 6.803E-26 3.653E-26 2.198E-26 1.430E-26 9.839E-27 7.058E-27 5.221E-27 3.945E-27 3.001E-27 2.195E-27 0.000E+00 5.210E-25 1.700E-25 7.759E-26 4.237E-26 2.586E-26 1.702E-26 1.182E-26 8.532E-27 6.325E-27 4.740E-27 3.426E-27 0.000E+00 5.702E-25 1.919E-25 9.007E-26 5.035E-26 3.132E-26 2.093E-26 1.469E-26 1.066E-26 7.864E-27 5.613E-27 0.000E+00 6.271E-25 2.201E-25 1.074E-25 6.188E-26 3.941E-26 2.678E-26 1.899E-26 1.376E-26 9.680E-27 0.000E+00 7.043E-25 2.603E-25 1.331E-25 7.949E-26 5.194E-26 3.586E-26 2.546E-26 1.763E-26 0.000E+00 8.296E-25 3.234E-25 1.741E-25 1.079E-25 7.218E-26 5.013E-26 3.411E-26 0.000E+00 1.056E-24 4.315E-25 2.440E-25 1.564E-25 1.060E-25 7.080E-26 0.000E+00 1.485E-24 6.311E-25 3.724E-25 2.442E-25 1.604E-25 0.000E+00 2.341E-24 1.034E-24 6.313E-25 4.071E-25 0.000E+00 4.245E-24 1.959E-24 1.208E-24 0.000E+00 9.461E-24 4.559E-24 0.000E+00 3.044E-23 3.116E-22
1.000E+02 2 5.000E+03 B 245 25
0.000E+00 1.616E-26 6.595E-27 3.790E-27 2.505E-27 1.784E-27 1.333E-27 1.029E-27 8.150E-28 6.581E-28 5.400E-28 4.490E-28 3.776E-28 3.207E-28 2.746E-28 2.368E-28 2.054E-28 1.790E-28 1.565E-28 1.371E-28 1.200E-28 1.043E-28 8.899E-29 7.085E-29 0.000E+00 1.818E-26 7.425E-27 4.273E-27 2.828E-27 2.018E-27 1.509E-27 1.167E-27 9.250E-28 7.477E-28 6.142E-28 5.112E-28 4.303E-28 3.656E-28 3.132E-28 2.702E-28 2.343E-28 2.041E-28 1.781E-28 1.553E-28 1.347E-28 1.146E-28 9.101E-29 0.000E+00 2.054E-26 8.402E-27 4.844E-27 3.211E-27 2.294E-27 1.719E-27 1.331E-27 1.056E-27 8.548E-28 7.029E-28 5.857E-28 4.934E-28 4.196E-28 3.597E-28 3.103E-28 2.690E-28 2.338E-28 2.032E-28 1.757E-28 1.492E-28 1.181E-28 0.000E+00 2.334E-26 9.560E-27 5.522E-27 3.667E-27 2.625E-27 1.969E-27 1.527E-27 1.214E-27 9.839E-28 8.101E-28 6.758E-28 5.699E-28 4.851E-28 4.160E-28 3.588E-28 3.106E-28 2.690E-28 2.319E-28 1.964E-28 1.551E-28 0.000E+00 2.668E-26 1.095E-26 6.335E-27 4.216E-27 3.024E-27 2.273E-27 1.765E-27 1.406E-27 1.141E-27 9.409E-28 7.860E-28 6.636E-28 5.652E-28 4.848E-28 4.177E-28 3.605E-28 3.099E-28 2.618E-28 2.062E-28 0.000E+00 3.069E-26 1.262E-26 7.319E-27 4.882E-27 3.509E-27 2.643E-27 2.057E-27 1.641E-27 1.335E-27 1.102E-27 9.223E-28 7.796E-28 6.645E-28 5.696E-28 4.896E-28 4.196E-28 3.536E-28 2.780E-28 0.000E+00 3.556E-26 1.465E-26 8.522E-27 5.700E-27 4.107E-27 3.101E-27 2.420E-27 1.934E-27 1.576E-27 1.305E-27 1.093E-27 9.251E-28 7.886E-28 6.749E-28 5.764E-28 4.847E-28 3.803E-28 0.000E+00 4.154E-26 1.716E-26 1.001E-26 6.716E-27 4.853E-27 3.675E-27 2.875E-27 2.304E-27 1.882E-27 1.561E-27 1.310E-27 1.110E-27 9.453E-28 8.046E-28 6.750E-28 5.288E-28 0.000E+00 4.897E-26 2.028E-26 1.187E-26 7.994E-27 5.797E-27 4.404E-27 3.456E-27 2.778E-27 2.276E-27 1.892E-27 1.591E-27 1.348E-27 1.143E-27 9.570E-28 7.489E-28 0.000E+00 5.831E-26 2.423E-26 1.424E-26 9.629E-27 7.011E-27 5.347E-27 4.212E-27 3.398E-27 2.793E-27 2.329E-27 1.960E-27 1.656E-27 1.384E-27 1.082E-27 0.000E+00 7.023E-26 2.929E-26 1.731E-26 1.176E-26 8.602E-27 6.591E-27 5.216E-27 4.227E-27 3.488E-27 2.915E-27 2.451E-27 2.044E-27 1.599E-27 0.000E+00 8.573E-26 3.592E-26 2.135E-26 1.459E-26 1.073E-26 8.273E-27 6.583E-27 5.363E-27 4.444E-27 3.718E-27 3.095E-27 2.425E-27 0.000E+00 1.063E-25 4.478E-26 2.680E-26 1.845E-26 1.367E-26 1.061E-26 8.504E-27 6.971E-27 5.797E-27 4.817E-27 3.783E-27 0.000E+00 1.342E-25 5.693E-26 3.437E-26 2.387E-26 1.785E-26 1.398E-26 1.130E-26 9.327E-27 7.736E-27 6.099E-27 0.000E+00 1.731E-25 7.409E-26 4.522E-26 3.178E-26 2.405E-26 1.906E-26 1.557E-26 1.288E-26 1.021E-26 0.000E+00 2.295E-25 9.928E-26 6.147E-26 4.385E-26 3.372E-26 2.714E-26 2.239E-26 1.788E-26 0.000E+00 3.144E-25 1.380E-25 8.713E-26 6.348E-26 4.989E-26 4.091E-26 3.300E-26 0.000E+00 4.497E-25 2.015E-25 1.307E-25 9.817E-26 7.951E-26 6.492E-26 0.000E+00 6.815E-25 3.145E-25 2.126E-25 1.672E-25 1.383E-25 0.000E+00 1.120E-24 5.420E-25 3.921E-25 3.266E-25 0.000E+00 2.086E-24 1.099E-24 8.883E-25 0.000E+00 4.817E-24 3.016E-24 0.000E+00 1.745E-23 1.262E-22
1.000E+03 2 5.000E+03 B 173 25
0.000E+00 1.641E-26 6.686E-27 3.836E-27 2.529E-27 1.797E-27 1.339E-27 1.031E-27 8.139E-28 6.550E-28 5.356E-28 4.437E-28 3.717E-28 3.143E-28 2.679E-28 2.299E-28 1.985E-28 1.721E-28 1.497E-28 1.304E-28 1.135E-28 9.832E-29 8.376E-29 6.702E-29 0.000E+00 1.843E-26 7.519E-27 4.321E-27 2.854E-27 2.031E-27 1.515E-27 1.168E-27 9.233E-28 7.439E-28 6.089E-28 5.049E-28 4.232E-28 3.581E-28 3.053E-28 2.620E-28 2.260E-28 1.957E-28 1.698E-28 1.473E-28 1.271E-28 1.079E-28 8.604E-29 0.000E+00 2.080E-26 8.501E-27 4.894E-27 3.238E-27 2.308E-27 1.725E-27 1.332E-27 1.054E-27 8.501E-28 6.965E-28 5.781E-28 4.849E-28 4.105E-28 3.501E-28 3.003E-28 2.588E-28 2.236E-28 1.932E-28 1.662E-28 1.406E-28 1.117E-28 0.000E+00 2.362E-26 9.666E-27 5.575E-27 3.696E-27 2.640E-27 1.976E-27 1.528E-27 1.211E-27 9.779E-28 8.022E-28 6.665E-28 5.595E-28 4.739E-28 4.041E-28 3.464E-28 2.980E-28 2.564E-28 2.197E-28 1.852E-28 1.466E-28 0.000E+00 2.697E-26 1.106E-26 6.393E-27 4.247E-27 3.039E-27 2.279E-27 1.765E-27 1.401E-27 1.134E-27 9.311E-28 7.744E-28 6.506E-28 5.512E-28 4.699E-28 4.022E-28 3.447E-28 2.942E-28 2.471E-28 1.948E-28 0.000E+00 3.102E-26 1.274E-26 7.383E-27 4.917E-27 3.526E-27 2.650E-27 2.057E-27 1.635E-27 1.325E-27 1.090E-27 9.075E-28 7.631E-28 6.464E-28 5.504E-28 4.696E-28 3.993E-28 3.343E-28 2.626E-28 0.000E+00 3.593E-26 1.479E-26 8.594E-27 5.738E-27 4.126E-27 3.108E-27 2.417E-27 1.926E-27 1.564E-27 1.288E-27 1.074E-27 9.035E-28 7.649E-28 6.496E-28 5.502E-28 4.590E-28 3.592E-28 0.000E+00 4.195E-26 1.732E-26 1.009E-26 6.758E-27 4.874E-27 3.681E-27 2.871E-27 2.293E-27 1.865E-27 1.539E-27 1.285E-27 1.081E-27 9.133E-28 7.705E-28 6.407E-28 4.998E-28 0.000E+00 4.944E-26 2.046E-26 1.197E-26 8.043E-27 5.819E-27 4.409E-27 3.449E-27 2.763E-27 2.253E-27 1.863E-27 1.556E-27 1.308E-27 1.099E-27 9.106E-28 7.082E-28 0.000E+00 5.885E-26 2.444E-26 1.435E-26 9.686E-27 7.036E-27 5.351E-27 4.201E-27 3.375E-27 2.760E-27 2.286E-27 1.910E-27 1.598E-27 1.320E-27 1.024E-27 0.000E+00 7.088E-26 2.955E-26 1.744E-26 1.182E-26 8.629E-27 6.592E-27 5.197E-27 4.192E-27 3.438E-27 2.852E-27 2.375E-27 1.957E-27 1.516E-27 0.000E+00 8.650E-26 3.623E-26 2.150E-26 1.467E-26 1.076E-26 8.269E-27 6.552E-27 5.309E-27 4.367E-27 3.618E-27 2.975E-27 2.302E-27 0.000E+00 1.072E-25 4.516E-26 2.699E-26 1.854E-26 1.370E-26 1.060E-26 8.450E-27 6.880E-27 5.668E-27 4.650E-27 3.599E-27 0.000E+00 1.354E-25 5.739E-26 3.460E-26 2.398E-26 1.788E-26 1.394E-26 1.120E-26 9.163E-27 7.503E-27 5.819E-27 0.000E+00 1.746E-25 7.469E-26 4.552E-26 3.190E-26 2.406E-26 1.897E-26 1.537E-26 1.256E-26 9.777E-27 0.000E+00 2.314E-25 1.001E-25 6.185E-26 4.400E-26 3.368E-26 2.692E-26 2.193E-26 1.718E-26 0.000E+00 3.171E-25 1.391E-25 8.762E-26 6.362E-26 4.969E-26 4.029E-26 3.186E-26 0.000E+00 4.535E-25 2.030E-25 1.313E-25 9.817E-26 7.872E-26 6.299E-26 0.000E+00 6.871E-25 3.167E-25 2.133E-25 1.664E-25 1.349E-25 0.000E+00 1.130E-24 5.453E-25 3.920E-25 3.205E-25 0.000E+00 2.103E-24 1.103E-24 8.769E-25 0.000E+00 4.850E-24 2.995E-24 0.000E+00 1.745E-23 1.265E-22
1.000E+04 2 5.000E+03 B 124 25
0.000E+00 1.744E-26 7.052E-27 4.011E-27 2.620E-27 1.843E-27 1.359E-27 1.037E-27 8.111E-28 6.472E-28 5.249E-28 4.315E-28 3.588E-28 3.013E-28 2.551E-28 2.175E-28 1.866E-28 1.608E-28 1.392E-28 1.207E-28 1.046E-28 9.036E-29 7.687E-29 6.159E-29 0.000E+00 1.939E-26 7.859E-27 4.485E-27 2.939E-27 2.074E-27 1.534E-27 1.173E-27 9.191E-28 7.347E-28 5.967E-28 4.910E-28 4.086E-28 3.433E-28 2.907E-28 2.478E-28 2.124E-28 1.828E-28 1.578E-28 1.362E-28 1.171E-28 9.920E-29 7.914E-29 0.000E+00 2.171E-26 8.823E-27 5.050E-27 3.319E-27 2.349E-27 1.742E-27 1.334E-27 1.048E-27 8.390E-28 6.823E-28 5.621E-28 4.681E-28 3.934E-28 3.331E-28 2.838E-28 2.429E-28 2.086E-28 1.792E-28 1.534E-28 1.294E-28 1.028E-28 0.000E+00 2.448E-26 9.976E-27 5.727E-27 3.774E-27 2.678E-27 1.991E-27 1.529E-27 1.203E-27 9.644E-28 7.853E-28 6.476E-28 5.397E-28 4.536E-28 3.840E-28 3.268E-28 2.791E-28 2.387E-28 2.033E-28 1.707E-28 1.350E-28 0.000E+00 2.782E-26 1.137E-26 6.543E-27 4.324E-27 3.077E-27 2.292E-27 1.764E-27 1.391E-27 1.117E-27 9.107E-28 7.517E-28 6.267E-28 5.268E-28 4.455E-28 3.784E-28 3.219E-28 2.730E-28 2.281E-28 1.796E-28 0.000E+00 3.186E-26 1.305E-26 7.534E-27 4.994E-27 3.563E-27 2.661E-27 2.052E-27 1.621E-27 1.304E-27 1.065E-27 8.797E-28 7.336E-28 6.164E-28 5.204E-28 4.404E-28 3.716E-28 3.091E-28 2.421E-28 0.000E+00 3.679E-26 1.511E-26 8.751E-27 5.818E-27 4.162E-27 3.117E-27 2.410E-27 1.907E-27 1.537E-27 1.257E-27 1.039E-27 8.664E-28 7.270E-28 6.117E-28 5.136E-28 4.253E-28 3.315E-28 0.000E+00 4.286E-26 1.766E-26 1.026E-26 6.842E-27 4.910E-27 3.688E-27 2.858E-27 2.267E-27 1.831E-27 1.498E-27 1.240E-27 1.033E-27 8.642E-28 7.220E-28 5.950E-28 4.616E-28 0.000E+00 5.042E-26 2.083E-26 1.215E-26 8.134E-27 5.857E-27 4.413E-27 3.430E-27 2.728E-27 2.207E-27 1.808E-27 1.496E-27 1.244E-27 1.034E-27 8.479E-28 6.547E-28 0.000E+00 5.994E-26 2.486E-26 1.456E-26 9.786E-27 7.074E-27 5.349E-27 4.172E-27 3.326E-27 2.696E-27 2.212E-27 1.827E-27 1.510E-27 1.233E-27 9.481E-28 0.000E+00 7.212E-26 3.003E-26 1.767E-26 1.194E-26 8.668E-27 6.583E-27 5.153E-27 4.121E-27 3.347E-27 2.745E-27 2.257E-27 1.835E-27 1.405E-27 0.000E+00 8.796E-26 3.679E-26 2.178E-26 1.479E-26 1.080E-26 8.245E-27 6.482E-27 5.202E-27 4.231E-27 3.459E-27 2.802E-27 2.138E-27 0.000E+00 1.090E-25 4.584E-26 2.732E-26 1.869E-26 1.374E-26 1.055E-26 8.335E-27 6.712E-27 5.453E-27 4.402E-27 3.352E-27 0.000E+00 1.375E-25 5.823E-26 3.500E-26 2.415E-26 1.790E-26 1.384E-26 1.101E-26 8.879E-27 7.145E-27 5.436E-27 0.000E+00 1.774E-25 7.575E-26 4.602E-26 3.210E-26 2.403E-26 1.876E-26 1.500E-26 1.204E-26 9.170E-27 0.000E+00 2.350E-25 1.014E-25 6.248E-26 4.420E-26 3.355E-26 2.647E-26 2.118E-26 1.619E-26 0.000E+00 3.219E-25 1.410E-25 8.843E-26 6.376E-26 4.925E-26 3.922E-26 3.020E-26 0.000E+00 4.603E-25 2.056E-25 1.323E-25 9.800E-26 7.729E-26 6.012E-26 0.000E+00 6.973E-25 3.204E-25 2.143E-25 1.647E-25 1.298E-25 0.000E+00 1.146E-24 5.509E-25 3.913E-25 3.109E-25 0.000E+00 2.132E-24 1.109E-24 8.586E-25 0.000E+00 4.907E-24 2.962E-24 0.000E+00 1.746E-23 1.281E-22
1.000E+05 2 5.000E+03 B 82 25
0.000E+00 2.391E-26 9.208E-27 4.876E-27 2.992E-27 2.001E-27 1.417E-27 1.045E-27 7.956E-28 6.206E-28 4.939E-28 3.996E-28 3.278E-28 2.722E-28 2.283E-28 1.932E-28 1.647E-28 1.412E-28 1.218E-28 1.053E-28 9.124E-29 7.880E-29 6.716E-29 5.403E-29 0.000E+00 2.520E-26 9.844E-27 5.299E-27 3.295E-27 2.226E-27 1.588E-27 1.178E-27 9.009E-28 7.053E-28 5.628E-28 4.564E-28 3.750E-28 3.117E-28 2.616E-28 2.214E-28 1.886E-28 1.616E-28 1.390E-28 1.197E-28 1.028E-28 8.720E-29 6.980E-29 0.000E+00 2.689E-26 1.063E-26 5.809E-27 3.656E-27 2.493E-27 1.791E-27 1.337E-27 1.026E-27 8.064E-28 6.452E-28 5.242E-28 4.314E-28 3.588E-28 3.012E-28 2.548E-28 2.168E-28 1.853E-28 1.587E-28 1.356E-28 1.144E-28 9.104E-29 0.000E+00 2.910E-26 1.161E-26 6.428E-27 4.091E-27 2.813E-27 2.035E-27 1.527E-27 1.178E-27 9.280E-28 7.443E-28 6.058E-28 4.991E-28 4.153E-28 3.486E-28 2.946E-28 2.501E-28 2.129E-28 1.808E-28 1.516E-28 1.200E-28 0.000E+00 3.194E-26 1.283E-26 7.187E-27 4.619E-27 3.202E-27 2.331E-27 1.758E-27 1.361E-27 1.075E-27 8.646E-28 7.047E-28 5.810E-28 4.836E-28 4.056E-28 3.420E-28 2.892E-28 2.441E-28 2.035E-28 1.602E-28 0.000E+00 3.557E-26 1.437E-26 8.126E-27 5.268E-27 3.678E-27 2.693E-27 2.040E-27 1.585E-27 1.256E-27 1.012E-27 8.257E-28 6.811E-28 5.666E-28 4.743E-28 3.984E-28 3.342E-28 2.769E-28 2.166E-28 0.000E+00 4.017E-26 1.631E-26 9.297E-27 6.073E-27 4.268E-27 3.141E-27 2.389E-27 1.863E-27 1.480E-27 1.194E-27 9.754E-28 8.044E-28 6.682E-28 5.573E-28 4.644E-28 3.824E-28 2.973E-28 0.000E+00 4.599E-26 1.877E-26 1.077E-26 7.082E-27 5.005E-27 3.703E-27 2.828E-27 2.211E-27 1.761E-27 1.423E-27 1.163E-27 9.578E-28 7.929E-28 6.563E-28 5.369E-28 4.148E-28 0.000E+00 5.339E-26 2.189E-26 1.264E-26 8.361E-27 5.942E-27 4.416E-27 3.385E-27 2.655E-27 2.119E-27 1.714E-27 1.399E-27 1.150E-27 9.449E-28 7.680E-28 5.896E-28 0.000E+00 6.286E-26 2.590E-26 1.504E-26 1.001E-26 7.148E-27 5.337E-27 4.106E-27 3.230E-27 2.582E-27 2.089E-27 1.702E-27 1.389E-27 1.122E-27 8.555E-28 0.000E+00 7.510E-26 3.110E-26 1.817E-26 1.216E-26 8.730E-27 6.548E-27 5.058E-27 3.989E-27 3.192E-27 2.579E-27 2.090E-27 1.677E-27 1.271E-27 0.000E+00 9.114E-26 3.796E-26 2.231E-26 1.502E-26 1.085E-26 8.177E-27 6.340E-27 5.012E-27 4.012E-27 3.226E-27 2.572E-27 1.938E-27 0.000E+00 1.125E-25 4.715E-26 2.792E-26 1.893E-26 1.376E-26 1.043E-26 8.117E-27 6.427E-27 5.129E-27 4.065E-27 3.046E-27 0.000E+00 1.417E-25 5.978E-26 3.569E-26 2.440E-26 1.787E-26 1.363E-26 1.065E-26 8.430E-27 6.644E-27 4.957E-27 0.000E+00 1.824E-25 7.765E-26 4.685E-26 3.235E-26 2.391E-26 1.836E-26 1.439E-26 1.129E-26 8.396E-27 0.000E+00 2.415E-25 1.039E-25 6.350E-26 4.442E-26 3.320E-26 2.569E-26 2.005E-26 1.491E-26 0.000E+00 3.306E-25 1.442E-25 8.968E-26 6.381E-26 4.836E-26 3.753E-26 2.798E-26 0.000E+00 4.725E-25 2.100E-25 1.338E-25 9.742E-26 7.487E-26 5.617E-26 0.000E+00 7.154E-25 3.268E-25 2.156E-25 1.617E-25 1.225E-25 0.000E+00 1.175E-24 5.599E-25 3.893E-25 2.969E-25 0.000E+00 2.183E-24 1.118E-24 8.312E-25 0.000E+00 5.006E-24 2.912E-24 0.000E+00 1.751E-23 1.369E-22
1.000E+06 2 5.000E+03 B 56 25
0.000E+00 4.661E-26 1.528E-26 6.994E-27 3.827E-27 2.341E-27 1.545E-27 1.077E-27 7.833E-28 5.884E-28 4.539E-28 3.578E-28 2.872E-28 2.341E-28 1.933E-28 1.615E-28 1.362E-28 1.158E-28 9.914E-29 8.532E-29 7.364E-29 6.350E-29 5.413E-29 4.369E-29 0.000E+00 4.848E-26 1.615E-26 7.496E-27 4.151E-27 2.563E-27 1.705E-27 1.197E-27 8.747E-28 6.601E-28 5.111E-28 4.042E-28 3.253E-28 2.658E-28 2.199E-28 1.839E-28 1.552E-28 1.320E-28 1.129E-28 9.695E-29 8.317E-29 7.058E-29 5.671E-29 0.000E+00 5.028E-26 1.707E-26 8.058E-27 4.523E-27 2.824E-27 1.895E-27 1.340E-27 9.851E-28 7.471E-28 5.808E-28 4.609E-28 3.720E-28 3.046E-28 2.524E-28 2.113E-28 1.784E-28 1.516E-28 1.294E-28 1.104E-28 9.321E-29 7.453E-29 0.000E+00 5.206E-26 1.807E-26 8.699E-27 4.960E-27 3.135E-27 2.124E-27 1.513E-27 1.120E-27 8.537E-28 6.665E-28 5.306E-28 4.294E-28 3.523E-28 2.924E-28 2.449E-28 2.066E-28 1.752E-28 1.486E-28 1.247E-28 9.918E-29 0.000E+00 5.394E-26 1.920E-26 9.447E-27 5.480E-27 3.510E-27 2.403E-27 1.726E-27 1.286E-27 9.853E-28 7.725E-28 6.170E-28 5.006E-28 4.113E-28 3.415E-28 2.859E-28 2.407E-28 2.028E-28 1.691E-28 1.337E-28 0.000E+00 5.613E-26 2.052E-26 1.034E-26 6.110E-27 3.969E-27 2.747E-27 1.990E-27 1.492E-27 1.149E-27 9.046E-28 7.246E-28 5.890E-28 4.844E-28 4.020E-28 3.357E-28 2.808E-28 2.326E-28 1.826E-28 0.000E+00 5.894E-26 2.213E-26 1.143E-26 6.886E-27 4.538E-27 3.176E-27 2.320E-27 1.750E-27 1.355E-27 1.070E-27 8.594E-28 6.993E-28 5.749E-28 4.760E-28 3.949E-28 3.247E-28 2.531E-28 0.000E+00 6.281E-26 2.417E-26 1.280E-26 7.858E-27 5.252E-27 3.715E-27 2.736E-27 2.077E-27 1.615E-27 1.279E-27 1.029E-27 8.373E-28 6.867E-28 5.648E-28 4.607E-28 3.561E-28 0.000E+00 6.827E-26 2.682E-26 1.454E-26 9.091E-27 6.161E-27 4.402E-27 3.267E-27 2.494E-27 1.947E-27 1.546E-27 1.244E-27 1.010E-27 8.229E-28 6.653E-28 5.100E-28 0.000E+00 7.599E-26 3.035E-26 1.681E-26 1.068E-26 7.334E-27 5.291E-27 3.954E-27 3.034E-27 2.375E-27 1.888E-27 1.516E-27 1.224E-27 9.803E-28 7.448E-28 0.000E+00 8.680E-26 3.512E-26 1.980E-26 1.278E-26 8.874E-27 6.459E-27 4.858E-27 3.743E-27 2.936E-27 2.332E-27 1.862E-27 1.478E-27 1.112E-27 0.000E+00 1.018E-25 4.163E-26 2.383E-26 1.558E-26 1.094E-26 8.026E-27 6.071E-27 4.692E-27 3.681E-27 2.909E-27 2.286E-27 1.705E-27 0.000E+00 1.227E-25 5.064E-26 2.936E-26 1.943E-26 1.377E-26 1.018E-26 7.735E-27 5.988E-27 4.680E-27 3.642E-27 2.692E-27 0.000E+00 1.519E-25 6.330E-26 3.714E-26 2.485E-26 1.777E-26 1.322E-26 1.008E-26 7.791E-27 6.006E-27 4.401E-27 0.000E+00 1.935E-25 8.146E-26 4.836E-26 3.272E-26 2.361E-26 1.768E-26 1.349E-26 1.030E-26 7.492E-27 0.000E+00 2.543E-25 1.083E-25 6.517E-26 4.463E-26 3.252E-26 2.445E-26 1.852E-26 1.338E-26 0.000E+00 3.466E-25 1.497E-25 9.157E-26 6.364E-26 4.684E-26 3.514E-26 2.530E-26 0.000E+00 4.943E-25 2.174E-25 1.358E-25 9.614E-26 7.124E-26 5.126E-26 0.000E+00 7.472E-25 3.369E-25 2.169E-25 1.568E-25 1.131E-25 0.000E+00 1.225E-24 5.739E-25 3.854E-25 2.783E-25 0.000E+00 2.271E-24 1.132E-24 7.937E-25 0.000E+00 5.171E-24 2.844E-24 0.000E+00 1.762E-23 1.612E-22
1.000E+07 2 5.000E+03 B 50 25
0.000E+00 7.115E-26 2.204E-26 9.560E-27 4.995E-27 2.936E-27 1.872E-27 1.267E-27 8.979E-28 6.594E-28 4.985E-28 3.860E-28 3.049E-28 2.450E-28 1.997E-28 1.648E-28 1.375E-28 1.158E-28 9.823E-29 8.383E-29 7.180E-29 6.146E-29 5.205E-29 4.176E-29 0.000E+00 7.599E-26 2.360E-26 1.027E-26 5.377E-27 3.167E-27 2.024E-27 1.372E-27 9.736E-28 7.159E-28 5.419E-28 4.200E-28 3.320E-28 2.670E-28 2.177E-28 1.797E-28 1.499E-28 1.262E-28 1.069E-28 9.095E-29 7.740E-29 6.521E-29 5.206E-29 0.000E+00 8.145E-26 2.539E-26 1.109E-26 5.825E-27 3.441E-27 2.204E-27 1.498E-27 1.065E-27 7.843E-28 5.945E-28 4.613E-28 3.651E-28 2.938E-28 2.397E-28 1.980E-28 1.651E-28 1.388E-28 1.172E-28 9.915E-29 8.306E-29 6.598E-29 0.000E+00 8.751E-26 2.742E-26 1.203E-26 6.347E-27 3.764E-27 2.419E-27 1.649E-27 1.175E-27 8.674E-28 6.587E-28 5.120E-28 4.058E-28 3.268E-28 2.669E-28 2.204E-28 1.836E-28 1.540E-28 1.293E-28 1.077E-28 8.511E-29 0.000E+00 9.409E-26 2.968E-26 1.311E-26 6.957E-27 4.146E-27 2.676E-27 1.831E-27 1.309E-27 9.691E-28 7.377E-28 5.746E-28 4.561E-28 3.678E-28 3.005E-28 2.481E-28 2.063E-28 1.721E-28 1.424E-28 1.119E-28 0.000E+00 1.011E-25 3.219E-26 1.434E-26 7.670E-27 4.601E-27 2.987E-27 2.053E-27 1.474E-27 1.095E-27 8.362E-28 6.529E-28 5.192E-28 4.192E-28 3.426E-28 2.824E-28 2.337E-28 1.921E-28 1.500E-28 0.000E+00 1.084E-25 3.495E-26 1.575E-26 8.511E-27 5.150E-27 3.367E-27 2.329E-27 1.681E-27 1.254E-27 9.609E-28 7.524E-28 5.996E-28 4.846E-28 3.956E-28 3.247E-28 2.649E-28 2.056E-28 0.000E+00 1.159E-25 3.798E-26 1.739E-26 9.519E-27 5.823E-27 3.841E-27 2.677E-27 1.944E-27 1.458E-27 1.122E-27 8.809E-28 7.032E-28 5.682E-28 4.621E-28 3.741E-28 2.884E-28 0.000E+00 1.234E-25 4.136E-26 1.932E-26 1.075E-26 6.666E-27 4.445E-27 3.125E-27 2.285E-27 1.724E-27 1.332E-27 1.049E-27 8.379E-28 6.747E-28 5.415E-28 4.141E-28 0.000E+00 1.313E-25 4.524E-26 2.167E-26 1.230E-26 7.749E-27 5.233E-27 3.715E-27 2.738E-27 2.077E-27 1.611E-27 1.270E-27 1.012E-27 8.041E-28 6.096E-28 0.000E+00 1.401E-25 4.992E-26 2.463E-26 1.431E-26 9.177E-27 6.282E-27 4.506E-27 3.347E-27 2.552E-27 1.984E-27 1.560E-27 1.227E-27 9.206E-28 0.000E+00 1.514E-25 5.592E-26 2.852E-26 1.700E-26 1.110E-26 7.709E-27 5.586E-27 4.177E-27 3.195E-27 2.479E-27 1.925E-27 1.428E-27 0.000E+00 1.675E-25 6.406E-26 3.381E-26 2.068E-26 1.377E-26 9.690E-27 7.085E-27 5.323E-27 4.067E-27 3.116E-27 2.283E-27 0.000E+00 1.919E-25 7.567E-26 4.128E-26 2.589E-26 1.755E-26 1.250E-26 9.202E-27 6.915E-27 5.220E-27 3.774E-27 0.000E+00 2.297E-25 9.287E-26 5.219E-26 3.349E-26 2.307E-26 1.659E-26 1.224E-26 9.102E-27 6.489E-27 0.000E+00 2.890E-25 1.192E-25 6.873E-26 4.500E-26 3.142E-26 2.272E-26 1.663E-26 1.170E-26 0.000E+00 3.831E-25 1.610E-25 9.492E-26 6.327E-26 4.462E-26 3.215E-26 2.233E-26 0.000E+00 5.372E-25 2.304E-25 1.388E-25 9.407E-26 6.652E-26 4.575E-26 0.000E+00 8.046E-25 3.535E-25 2.184E-25 1.500E-25 1.023E-25 0.000E+00 1.312E-24 5.953E-25 3.795E-25 2.563E-25 0.000E+00 2.418E-24 1.152E-24 7.483E-25 0.000E+00 5.448E-24 2.765E-24 0.000E+00 1.793E-23 1.792E-22
1.000E+08 2 5.000E+03 B 50 25
0.000E+00 1.201E-25 3.689E-26 1.587E-26 8.224E-27 4.799E-27 3.041E-27 2.046E-27 1.442E-27 1.054E-27 7.931E-28 6.115E-28 4.812E-28 3.852E-28 3.129E-28 2.574E-28 2.141E-28 1.797E-28 1.520E-28 1.293E-28 1.104E-28 9.423E-29 7.956E-29 6.360E-29 0.000E+00 1.253E-25 3.849E-26 1.656E-26 8.586E-27 5.012E-27 3.176E-27 2.138E-27 1.507E-27 1.101E-27 8.287E-28 6.390E-28 5.027E-28 4.024E-28 3.267E-28 2.687E-28 2.232E-28 1.871E-28 1.580E-28 1.339E-28 1.136E-28 9.532E-29 7.580E-29 0.000E+00 1.305E-25 4.012E-26 1.727E-26 8.957E-27 5.231E-27 3.316E-27 2.232E-27 1.574E-27 1.150E-27 8.657E-28 6.675E-28 5.251E-28 4.201E-28 3.410E-28 2.802E-28 2.326E-28 1.946E-28 1.637E-28 1.378E-28 1.149E-28 9.088E-29 0.000E+00 1.363E-25 4.192E-26 1.806E-26 9.371E-27 5.475E-27 3.472E-27 2.338E-27 1.649E-27 1.205E-27 9.074E-28 6.996E-28 5.503E-28 4.402E-28 3.571E-28 2.930E-28 2.428E-28 2.024E-28 1.691E-28 1.401E-28 1.101E-28 0.000E+00 1.432E-25 4.408E-26 1.900E-26 9.871E-27 5.772E-27 3.663E-27 2.468E-27 1.741E-27 1.273E-27 9.584E-28 7.390E-28 5.811E-28 4.646E-28 3.765E-28 3.085E-28 2.547E-28 2.110E-28 1.734E-28 1.353E-28 0.000E+00 1.519E-25 4.681E-26 2.021E-26 1.051E-26 6.151E-27 3.906E-27 2.634E-27 1.859E-27 1.360E-27 1.024E-27 7.898E-28 6.209E-28 4.960E-28 4.013E-28 3.278E-28 2.689E-28 2.191E-28 1.698E-28 0.000E+00 1.629E-25 5.030E-26 2.175E-26 1.133E-26 6.642E-27 4.224E-27 2.851E-27 2.014E-27 1.475E-27 1.111E-27 8.565E-28 6.730E-28 5.370E-28 4.332E-28 3.516E-28 2.839E-28 2.181E-28 0.000E+00 1.766E-25 5.469E-26 2.372E-26 1.239E-26 7.275E-27 4.635E-27 3.134E-27 2.216E-27 1.624E-27 1.224E-27 9.439E-28 7.411E-28 5.899E-28 4.731E-28 3.781E-28 2.880E-28 0.000E+00 1.934E-25 6.012E-26 2.618E-26 1.372E-26 8.084E-27 5.164E-27 3.499E-27 2.480E-27 1.819E-27 1.372E-27 1.058E-27 8.293E-28 6.565E-28 5.189E-28 3.914E-28 0.000E+00 2.132E-25 6.670E-26 2.922E-26 1.539E-26 9.113E-27 5.845E-27 3.974E-27 2.823E-27 2.076E-27 1.567E-27 1.207E-27 9.419E-28 7.354E-28 5.491E-28 0.000E+00 2.362E-25 7.458E-26 3.296E-26 1.750E-26 1.043E-26 6.730E-27 4.597E-27 3.279E-27 2.416E-27 1.825E-27 1.402E-27 1.080E-27 7.976E-28 0.000E+00 2.622E-25 8.394E-26 3.760E-26 2.020E-26 1.216E-26 7.907E-27 5.437E-27 3.896E-27 2.879E-27 2.172E-27 1.650E-27 1.204E-27 0.000E+00 2.911E-25 9.515E-26 4.347E-26 2.374E-26 1.449E-26 9.525E-27 6.605E-27 4.760E-27 3.521E-27 2.633E-27 1.898E-27 0.000E+00 3.237E-25 1.090E-25 5.118E-26 2.859E-26 1.776E-26 1.184E-26 8.289E-27 5.998E-27 4.407E-27 3.132E-27 0.000E+00 3.631E-25 1.271E-25 6.190E-26 3.558E-26 2.258E-26 1.528E-26 1.078E-26 7.768E-27 5.432E-27 0.000E+00 4.174E-25 1.530E-25 7.781E-26 4.620E-26 2.998E-26 2.055E-26 1.447E-26 9.935E-27 0.000E+00 5.040E-25 1.935E-25 1.030E-25 6.317E-26 4.179E-26 2.869E-26 1.929E-26 0.000E+00 6.546E-25 2.618E-25 1.455E-25 9.173E-26 6.116E-26 4.020E-26 0.000E+00 9.318E-25 3.860E-25 2.223E-25 1.425E-25 9.159E-26 0.000E+00 1.476E-24 6.323E-25 3.745E-25 2.344E-25 0.000E+00 2.675E-24 1.189E-24 7.036E-25 0.000E+00 5.919E-24 2.705E-24 0.000E+00 1.865E-23 1.947E-22
1.000E+02 2 7.500E+03 B 245 25
0.000E+00 1.221E-26 4.888E-27 2.745E-27 1.772E-27 1.235E-27 9.036E-28 6.848E-28 5.330E-28 4.237E-28 3.428E-28 2.814E-28 2.339E-28 1.965E-28 1.666E-28 1.423E-28 1.224E-28 1.058E-28 9.188E-29 7.994E-29 6.951E-29 6.010E-29 5.104E-29 4.050E-29 0.000E+00 1.375E-26 5.508E-27 3.097E-27 2.002E-27 1.396E-27 1.023E-27 7.759E-28 6.044E-28 4.809E-28 3.894E-28 3.198E-28 2.660E-28 2.235E-28 1.895E-28 1.620E-28 1.392E-28 1.203E-28 1.042E-28 9.022E-29 7.774E-29 6.581E-29 5.204E-29 0.000E+00 1.556E-26 6.239E-27 3.513E-27 2.274E-27 1.588E-27 1.165E-27 8.843E-28 6.895E-28 5.491E-28 4.449E-28 3.658E-28 3.044E-28 2.559E-28 2.170E-28 1.854E-28 1.592E-28 1.373E-28 1.184E-28 1.017E-28 8.576E-29 6.759E-29 0.000E+00 1.771E-26 7.107E-27 4.008E-27 2.598E-27 1.817E-27 1.334E-27 1.014E-27 7.917E-28 6.311E-28 5.118E-28 4.211E-28 3.506E-28 2.949E-28 2.501E-28 2.136E-28 1.831E-28 1.572E-28 1.345E-28 1.131E-28 8.879E-29 0.000E+00 2.027E-26 8.146E-27 4.601E-27 2.987E-27 2.092E-27 1.539E-27 1.171E-27 9.155E-28 7.307E-28 5.932E-28 4.885E-28 4.070E-28 3.424E-28 2.904E-28 2.475E-28 2.115E-28 1.802E-28 1.509E-28 1.181E-28 0.000E+00 2.335E-26 9.400E-27 5.320E-27 3.460E-27 2.428E-27 1.788E-27 1.363E-27 1.067E-27 8.528E-28 6.932E-28 5.713E-28 4.764E-28 4.008E-28 3.395E-28 2.886E-28 2.447E-28 2.043E-28 1.594E-28 0.000E+00 2.710E-26 1.093E-26 6.198E-27 4.040E-27 2.840E-27 2.096E-27 1.601E-27 1.255E-27 1.005E-27 8.176E-28 6.746E-28 5.627E-28 4.732E-28 3.999E-28 3.375E-28 2.807E-28 2.182E-28 0.000E+00 3.171E-26 1.281E-26 7.284E-27 4.760E-27 3.354E-27 2.480E-27 1.898E-27 1.491E-27 1.196E-27 9.745E-28 8.048E-28 6.714E-28 5.637E-28 4.733E-28 3.922E-28 3.039E-28 0.000E+00 3.744E-26 1.516E-26 8.644E-27 5.665E-27 4.002E-27 2.967E-27 2.277E-27 1.792E-27 1.440E-27 1.175E-27 9.715E-28 8.096E-28 6.761E-28 5.579E-28 4.311E-28 0.000E+00 4.466E-26 1.813E-26 1.037E-26 6.820E-27 4.834E-27 3.595E-27 2.766E-27 2.183E-27 1.758E-27 1.437E-27 1.188E-27 9.858E-28 8.101E-28 6.241E-28 0.000E+00 5.390E-26 2.195E-26 1.261E-26 8.322E-27 5.921E-27 4.419E-27 3.411E-27 2.701E-27 2.180E-27 1.784E-27 1.471E-27 1.203E-27 9.247E-28 0.000E+00 6.592E-26 2.694E-26 1.555E-26 1.031E-26 7.371E-27 5.525E-27 4.283E-27 3.404E-27 2.754E-27 2.252E-27 1.833E-27 1.406E-27 0.000E+00 8.187E-26 3.361E-26 1.951E-26 1.302E-26 9.356E-27 7.051E-27 5.494E-27 4.383E-27 3.550E-27 2.875E-27 2.202E-27 0.000E+00 1.036E-25 4.275E-26 2.499E-26 1.679E-26 1.216E-26 9.226E-27 7.232E-27 5.790E-27 4.661E-27 3.567E-27 0.000E+00 1.339E-25 5.566E-26 3.283E-26 2.226E-26 1.626E-26 1.245E-26 9.825E-27 7.852E-27 6.010E-27 0.000E+00 1.777E-25 7.455E-26 4.449E-26 3.054E-26 2.258E-26 1.747E-26 1.384E-26 1.060E-26 0.000E+00 2.438E-25 1.035E-25 6.274E-26 4.379E-26 3.291E-26 2.574E-26 1.976E-26 0.000E+00 3.491E-25 1.506E-25 9.333E-26 6.668E-26 5.116E-26 3.937E-26 0.000E+00 5.289E-25 2.337E-25 1.496E-25 1.106E-25 8.523E-26 0.000E+00 8.676E-25 3.981E-25 2.686E-25 2.055E-25 0.000E+00 1.606E-24 7.870E-25 5.747E-25 0.000E+00 3.645E-24 2.028E-24 0.000E+00 1.251E-23 9.225E-23
1.000E+03 2 7.500E+03 B 182 25
0.000E+00 1.235E-26 4.934E-27 2.767E-27 1.783E-27 1.240E-27 9.051E-28 6.843E-28 5.313E-28 4.214E-28 3.400E-28 2.783E-28 2.306E-28 1.931E-28 1.631E-28 1.388E-28 1.189E-28 1.024E-28 8.853E-29 7.669E-29 6.642E-29 5.725E-29 4.856E-29 3.871E-29 0.000E+00 1.389E-26 5.556E-27 3.120E-27 2.013E-27 1.401E-27 1.024E-27 7.752E-28 6.025E-28 4.781E-28 3.860E-28 3.162E-28 2.621E-28 2.195E-28 1.854E-28 1.578E-28 1.351E-28 1.162E-28 1.002E-28 8.636E-29 7.413E-29 6.263E-29 4.972E-29 0.000E+00 1.570E-26 6.290E-27 3.537E-27 2.285E-27 1.593E-27 1.166E-27 8.833E-28 6.871E-28 5.458E-28 4.410E-28 3.614E-28 2.997E-28 2.511E-28 2.121E-28 1.804E-28 1.542E-28 1.323E-28 1.136E-28 9.706E-29 8.166E-29 6.455E-29 0.000E+00 1.785E-26 7.161E-27 4.033E-27 2.610E-27 1.822E-27 1.335E-27 1.013E-27 7.887E-28 6.271E-28 5.071E-28 4.159E-28 3.450E-28 2.891E-28 2.441E-28 2.074E-28 1.769E-28 1.511E-28 1.286E-28 1.077E-28 8.477E-29 0.000E+00 2.042E-26 8.204E-27 4.628E-27 3.000E-27 2.098E-27 1.539E-27 1.169E-27 9.117E-28 7.257E-28 5.874E-28 4.820E-28 4.001E-28 3.352E-28 2.828E-28 2.398E-28 2.038E-28 1.726E-28 1.440E-28 1.128E-28 0.000E+00 2.352E-26 9.463E-27 5.349E-27 3.474E-27 2.433E-27 1.789E-27 1.361E-27 1.062E-27 8.466E-28 6.859E-28 5.633E-28 4.677E-28 3.916E-28 3.299E-28 2.788E-28 2.349E-28 1.951E-28 1.521E-28 0.000E+00 2.729E-26 1.100E-26 6.231E-27 4.056E-27 2.846E-27 2.096E-27 1.597E-27 1.249E-27 9.966E-28 8.083E-28 6.642E-28 5.515E-28 4.613E-28 3.874E-28 3.248E-28 2.684E-28 2.083E-28 0.000E+00 3.192E-26 1.289E-26 7.321E-27 4.777E-27 3.360E-27 2.480E-27 1.893E-27 1.483E-27 1.185E-27 9.624E-28 7.912E-28 6.565E-28 5.477E-28 4.566E-28 3.756E-28 2.901E-28 0.000E+00 3.769E-26 1.525E-26 8.687E-27 5.684E-27 4.009E-27 2.966E-27 2.270E-27 1.782E-27 1.426E-27 1.159E-27 9.531E-28 7.893E-28 6.542E-28 5.355E-28 4.117E-28 0.000E+00 4.494E-26 1.824E-26 1.042E-26 6.842E-27 4.841E-27 3.592E-27 2.756E-27 2.168E-27 1.739E-27 1.415E-27 1.162E-27 9.568E-28 7.793E-28 5.966E-28 0.000E+00 5.423E-26 2.207E-26 1.266E-26 8.347E-27 5.927E-27 4.413E-27 3.397E-27 2.680E-27 2.153E-27 1.751E-27 1.432E-27 1.161E-27 8.848E-28 0.000E+00 6.631E-26 2.709E-26 1.562E-26 1.034E-26 7.376E-27 5.515E-27 4.261E-27 3.372E-27 2.712E-27 2.201E-27 1.774E-27 1.347E-27 0.000E+00 8.236E-26 3.380E-26 1.959E-26 1.305E-26 9.359E-27 7.033E-27 5.459E-27 4.332E-27 3.483E-27 2.792E-27 2.114E-27 0.000E+00 1.042E-25 4.298E-26 2.510E-26 1.683E-26 1.215E-26 9.193E-27 7.172E-27 5.702E-27 4.543E-27 3.432E-27 0.000E+00 1.346E-25 5.594E-26 3.296E-26 2.230E-26 1.625E-26 1.239E-26 9.712E-27 7.685E-27 5.798E-27 0.000E+00 1.787E-25 7.492E-26 4.465E-26 3.058E-26 2.253E-26 1.734E-26 1.360E-26 1.026E-26 0.000E+00 2.452E-25 1.040E-25 6.294E-26 4.380E-26 3.276E-26 2.541E-26 1.920E-26 0.000E+00 3.510E-25 1.513E-25 9.357E-26 6.660E-26 5.070E-26 3.840E-26 0.000E+00 5.317E-25 2.347E-25 1.499E-25 1.101E-25 8.351E-26 0.000E+00 8.723E-25 3.995E-25 2.683E-25 2.023E-25 0.000E+00 1.614E-24 7.884E-25 5.685E-25 0.000E+00 3.661E-24 2.016E-24 0.000E+00 1.250E-23 9.243E-23
1.000E+04 2 7.500E+03 B 124 25
0.000E+00 1.296E-26 5.131E-27 2.852E-27 1.822E-27 1.257E-27 9.105E-28 6.835E-28 5.271E-28 4.154E-28 3.331E-28 2.711E-28 2.234E-28 1.860E-28 1.563E-28 1.324E-28 1.129E-28 9.679E-29 8.332E-29 7.192E-29 6.210E-29 5.341E-29 4.527E-29 3.615E-29 0.000E+00 1.445E-26 5.738E-27 3.199E-27 2.050E-27 1.417E-27 1.029E-27 7.736E-28 5.975E-28 4.714E-28 3.784E-28 3.082E-28 2.540E-28 2.116E-28 1.778E-28 1.505E-28 1.282E-28 1.097E-28 9.421E-29 8.093E-29 6.927E-29 5.845E-29 4.646E-29 0.000E+00 1.623E-26 6.460E-27 3.612E-27 2.320E-27 1.607E-27 1.169E-27 8.808E-28 6.812E-28 5.381E-28 4.323E-28 3.523E-28 2.905E-28 2.420E-28 2.033E-28 1.720E-28 1.463E-28 1.248E-28 1.067E-28 9.086E-29 7.628E-29 6.034E-29 0.000E+00 1.835E-26 7.324E-27 4.105E-27 2.643E-27 1.835E-27 1.338E-27 1.009E-27 7.816E-28 6.181E-28 4.970E-28 4.053E-28 3.343E-28 2.785E-28 2.338E-28 1.975E-28 1.675E-28 1.424E-28 1.206E-28 1.007E-28 7.929E-29 0.000E+00 2.090E-26 8.363E-27 4.699E-27 3.033E-27 2.110E-27 1.541E-27 1.165E-27 9.032E-28 7.150E-28 5.754E-28 4.695E-28 3.873E-28 3.225E-28 2.704E-28 2.279E-28 1.925E-28 1.622E-28 1.348E-28 1.055E-28 0.000E+00 2.399E-26 9.622E-27 5.420E-27 3.506E-27 2.445E-27 1.789E-27 1.354E-27 1.052E-27 8.336E-28 6.714E-28 5.480E-28 4.521E-28 3.761E-28 3.148E-28 2.642E-28 2.213E-28 1.829E-28 1.424E-28 0.000E+00 2.777E-26 1.116E-26 6.304E-27 4.088E-27 2.857E-27 2.095E-27 1.589E-27 1.236E-27 9.805E-28 7.904E-28 6.453E-28 5.321E-28 4.419E-28 3.684E-28 3.067E-28 2.520E-28 1.951E-28 0.000E+00 3.242E-26 1.306E-26 7.398E-27 4.811E-27 3.371E-27 2.477E-27 1.882E-27 1.466E-27 1.165E-27 9.396E-28 7.671E-28 6.317E-28 5.229E-28 4.325E-28 3.533E-28 2.718E-28 0.000E+00 3.821E-26 1.544E-26 8.770E-27 5.720E-27 4.019E-27 2.960E-27 2.254E-27 1.759E-27 1.399E-27 1.129E-27 9.214E-28 7.567E-28 6.217E-28 5.048E-28 3.860E-28 0.000E+00 4.552E-26 1.844E-26 1.051E-26 6.881E-27 4.849E-27 3.582E-27 2.734E-27 2.138E-27 1.703E-27 1.374E-27 1.119E-27 9.128E-28 7.365E-28 5.599E-28 0.000E+00 5.488E-26 2.231E-26 1.277E-26 8.389E-27 5.934E-27 4.397E-27 3.366E-27 2.638E-27 2.103E-27 1.695E-27 1.372E-27 1.100E-27 8.314E-28 0.000E+00 6.708E-26 2.737E-26 1.574E-26 1.039E-26 7.379E-27 5.489E-27 4.215E-27 3.310E-27 2.639E-27 2.119E-27 1.687E-27 1.268E-27 0.000E+00 8.327E-26 3.413E-26 1.974E-26 1.310E-26 9.354E-27 6.991E-27 5.388E-27 4.239E-27 3.370E-27 2.667E-27 1.993E-27 0.000E+00 1.053E-25 4.339E-26 2.527E-26 1.689E-26 1.214E-26 9.120E-27 7.056E-27 5.549E-27 4.361E-27 3.245E-27 0.000E+00 1.361E-25 5.646E-26 3.317E-26 2.236E-26 1.620E-26 1.225E-26 9.508E-27 7.416E-27 5.499E-27 0.000E+00 1.806E-25 7.559E-26 4.491E-26 3.062E-26 2.241E-26 1.707E-26 1.320E-26 9.771E-27 0.000E+00 2.477E-25 1.049E-25 6.326E-26 4.378E-26 3.246E-26 2.483E-26 1.836E-26 0.000E+00 3.545E-25 1.525E-25 9.394E-26 6.637E-26 4.988E-26 3.694E-26 0.000E+00 5.370E-25 2.364E-25 1.501E-25 1.090E-25 8.084E-26 0.000E+00 8.807E-25 4.019E-25 2.674E-25 1.972E-25 0.000E+00 1.629E-24 7.905E-25 5.585E-25 0.000E+00 3.689E-24 1.996E-24 0.000E+00 1.250E-23 9.334E-23
1.000E+05 2 7.500E+03 B 87 25
0.000E+00 1.666E-26 6.296E-27 3.288E-27 1.994E-27 1.320E-27 9.258E-28 6.771E-28 5.113E-28 3.960E-28 3.131E-28 2.518E-28 2.055E-28 1.698E-28 1.417E-28 1.194E-28 1.014E-28 8.661E-29 7.439E-29 6.413E-29 5.536E-29 4.766E-29 4.049E-29 3.247E-29 0.000E+00 1.780E-26 6.810E-27 3.607E-27 2.212E-27 1.476E-27 1.042E-27 7.655E-28 5.802E-28 4.506E-28 3.570E-28 2.876E-28 2.349E-28 1.942E-28 1.621E-28 1.365E-28 1.158E-28 9.881E-29 8.464E-29 7.264E-29 6.218E-29 5.254E-29 4.190E-29 0.000E+00 1.924E-26 7.435E-27 3.989E-27 2.472E-27 1.662E-27 1.180E-27 8.708E-28 6.622E-28 5.157E-28 4.093E-28 3.302E-28 2.699E-28 2.232E-28 1.863E-28 1.568E-28 1.328E-28 1.130E-28 9.635E-29 8.198E-29 6.887E-29 5.462E-29 0.000E+00 2.105E-26 8.203E-27 4.452E-27 2.783E-27 1.885E-27 1.345E-27 9.971E-28 7.607E-28 5.937E-28 4.721E-28 3.812E-28 3.118E-28 2.578E-28 2.151E-28 1.808E-28 1.527E-28 1.293E-28 1.094E-28 9.131E-29 7.199E-29 0.000E+00 2.333E-26 9.150E-27 5.015E-27 3.162E-27 2.155E-27 1.545E-27 1.150E-27 8.797E-28 6.881E-28 5.479E-28 4.429E-28 3.623E-28 2.995E-28 2.495E-28 2.092E-28 1.759E-28 1.477E-28 1.226E-28 9.604E-29 0.000E+00 2.617E-26 1.033E-26 5.708E-27 3.624E-27 2.484E-27 1.790E-27 1.336E-27 1.025E-27 8.033E-28 6.405E-28 5.180E-28 4.237E-28 3.499E-28 2.909E-28 2.428E-28 2.025E-28 1.669E-28 1.299E-28 0.000E+00 2.974E-26 1.180E-26 6.567E-27 4.196E-27 2.891E-27 2.091E-27 1.566E-27 1.204E-27 9.455E-28 7.546E-28 6.104E-28 4.990E-28 4.112E-28 3.404E-28 2.818E-28 2.306E-28 1.783E-28 0.000E+00 3.423E-26 1.365E-26 7.642E-27 4.910E-27 3.398E-27 2.468E-27 1.854E-27 1.429E-27 1.123E-27 8.970E-28 7.254E-28 5.920E-28 4.860E-28 3.991E-28 3.242E-28 2.488E-28 0.000E+00 3.991E-26 1.599E-26 9.001E-27 5.811E-27 4.040E-27 2.944E-27 2.218E-27 1.713E-27 1.348E-27 1.077E-27 8.698E-28 7.075E-28 5.763E-28 4.646E-28 3.539E-28 0.000E+00 4.716E-26 1.898E-26 1.074E-26 6.967E-27 4.863E-27 3.556E-27 2.686E-27 2.079E-27 1.638E-27 1.307E-27 1.053E-27 8.503E-28 6.800E-28 5.140E-28 0.000E+00 5.653E-26 2.286E-26 1.300E-26 8.471E-27 5.938E-27 4.358E-27 3.301E-27 2.558E-27 2.016E-27 1.606E-27 1.285E-27 1.019E-27 7.645E-28 0.000E+00 6.880E-26 2.795E-26 1.598E-26 1.047E-26 7.371E-27 5.429E-27 4.124E-27 3.200E-27 2.519E-27 1.996E-27 1.570E-27 1.168E-27 0.000E+00 8.517E-26 3.478E-26 2.000E-26 1.318E-26 9.326E-27 6.898E-27 5.253E-27 4.079E-27 3.197E-27 2.493E-27 1.840E-27 0.000E+00 1.075E-25 4.415E-26 2.557E-26 1.696E-26 1.207E-26 8.970E-27 6.848E-27 5.304E-27 4.099E-27 3.003E-27 0.000E+00 1.387E-25 5.738E-26 3.352E-26 2.241E-26 1.607E-26 1.200E-26 9.165E-27 7.018E-27 5.107E-27 0.000E+00 1.840E-25 7.676E-26 4.532E-26 3.062E-26 2.214E-26 1.661E-26 1.259E-26 9.114E-27 0.000E+00 2.522E-25 1.064E-25 6.374E-26 4.365E-26 3.188E-26 2.389E-26 1.722E-26 0.000E+00 3.608E-25 1.546E-25 9.443E-26 6.583E-26 4.847E-26 3.488E-26 0.000E+00 5.463E-25 2.393E-25 1.503E-25 1.071E-25 7.697E-26 0.000E+00 8.955E-25 4.058E-25 2.655E-25 1.896E-25 0.000E+00 1.654E-24 7.934E-25 5.430E-25 0.000E+00 3.737E-24 1.965E-24 0.000E+00 1.250E-23 9.905E-23
1.000E+06 2 7.500E+03 B 59 25
0.000E+00 2.944E-26 9.657E-27 4.421E-27 2.419E-27 1.479E-27 9.749E-28 6.790E-28 4.930E-28 3.698E-28 2.848E-28 2.242E-28 1.797E-28 1.463E-28 1.206E-28 1.006E-28 8.475E-29 7.197E-29 6.153E-29 5.288E-29 4.558E-29 3.924E-29 3.340E-29 2.691E-29 0.000E+00 3.090E-26 1.029E-26 4.775E-27 2.642E-27 1.629E-27 1.082E-27 7.581E-28 5.531E-28 4.166E-28 3.219E-28 2.541E-28 2.042E-28 1.665E-28 1.375E-28 1.148E-28 9.673E-29 8.213E-29 7.014E-29 6.010E-29 5.147E-29 4.359E-29 3.495E-29 0.000E+00 3.239E-26 1.098E-26 5.176E-27 2.901E-27 1.807E-27 1.210E-27 8.531E-28 6.257E-28 4.733E-28 3.670E-28 2.905E-28 2.339E-28 1.911E-28 1.580E-28 1.320E-28 1.112E-28 9.434E-29 8.033E-29 6.839E-29 5.760E-29 4.594E-29 0.000E+00 3.397E-26 1.175E-26 5.640E-27 3.206E-27 2.020E-27 1.364E-27 9.684E-28 7.142E-28 5.426E-28 4.223E-28 3.352E-28 2.705E-28 2.213E-28 1.831E-28 1.530E-28 1.287E-28 1.089E-28 9.208E-29 7.708E-29 6.111E-29 0.000E+00 3.573E-26 1.263E-26 6.187E-27 3.572E-27 2.277E-27 1.552E-27 1.110E-27 8.230E-28 6.280E-28 4.904E-28 3.902E-28 3.154E-28 2.583E-28 2.138E-28 1.784E-28 1.497E-28 1.257E-28 1.045E-28 8.232E-29 0.000E+00 3.781E-26 1.368E-26 6.845E-27 4.017E-27 2.593E-27 1.784E-27 1.284E-27 9.578E-28 7.339E-28 5.749E-28 4.585E-28 3.710E-28 3.039E-28 2.512E-28 2.090E-28 1.741E-28 1.437E-28 1.124E-28 0.000E+00 4.043E-26 1.496E-26 7.652E-27 4.566E-27 2.984E-27 2.072E-27 1.502E-27 1.126E-27 8.663E-28 6.803E-28 5.434E-28 4.399E-28 3.599E-28 2.966E-28 2.450E-28 2.005E-28 1.555E-28 0.000E+00 4.388E-26 1.657E-26 8.660E-27 5.253E-27 3.474E-27 2.434E-27 1.777E-27 1.338E-27 1.033E-27 8.127E-28 6.496E-28 5.255E-28 4.286E-28 3.506E-28 2.845E-28 2.187E-28 0.000E+00 4.851E-26 1.865E-26 9.942E-27 6.124E-27 4.097E-27 2.894E-27 2.126E-27 1.608E-27 1.244E-27 9.803E-28 7.831E-28 6.316E-28 5.114E-28 4.109E-28 3.131E-28 0.000E+00 5.478E-26 2.137E-26 1.160E-26 7.246E-27 4.899E-27 3.487E-27 2.575E-27 1.955E-27 1.516E-27 1.194E-27 9.514E-28 7.619E-28 6.060E-28 4.572E-28 0.000E+00 6.332E-26 2.499E-26 1.377E-26 8.715E-27 5.948E-27 4.263E-27 3.164E-27 2.408E-27 1.868E-27 1.469E-27 1.163E-27 9.147E-28 6.830E-28 0.000E+00 7.495E-26 2.988E-26 1.669E-26 1.067E-26 7.347E-27 5.299E-27 3.947E-27 3.010E-27 2.333E-27 1.823E-27 1.418E-27 1.048E-27 0.000E+00 9.093E-26 3.658E-26 2.066E-26 1.334E-26 9.254E-27 6.711E-27 5.015E-27 3.825E-27 2.949E-27 2.267E-27 1.656E-27 0.000E+00 1.132E-25 4.593E-26 2.620E-26 1.708E-26 1.193E-26 8.692E-27 6.507E-27 4.945E-27 3.755E-27 2.713E-27 0.000E+00 1.447E-25 5.928E-26 3.415E-26 2.246E-26 1.580E-26 1.156E-26 8.643E-27 6.482E-27 4.633E-27 0.000E+00 1.908E-25 7.892E-26 4.599E-26 3.054E-26 2.164E-26 1.586E-26 1.174E-26 8.306E-27 0.000E+00 2.607E-25 1.091E-25 6.443E-26 4.329E-26 3.089E-26 2.252E-26 1.579E-26 0.000E+00 3.722E-25 1.581E-25 9.501E-26 6.475E-26 4.631E-26 3.222E-26 0.000E+00 5.627E-25 2.439E-25 1.502E-25 1.039E-25 7.180E-26 0.000E+00 9.213E-25 4.117E-25 2.620E-25 1.791E-25 0.000E+00 1.699E-24 7.969E-25 5.209E-25 0.000E+00 3.817E-24 1.921E-24 0.000E+00 1.253E-23 1.166E-22
1.000E+07 2 7.500E+03 B 50 25
0.000E+00 4.294E-26 1.330E-26 5.774E-27 3.017E-27 1.774E-27 1.131E-27 7.656E-28 5.424E-28 3.983E-28 3.010E-28 2.331E-28 1.841E-28 1.479E-28 1.205E-28 9.946E-29 8.296E-29 6.983E-29 5.922E-29 5.053E-29 4.326E-29 3.702E-29 3.134E-29 2.513E-29 0.000E+00 4.623E-26 1.436E-26 6.251E-27 3.274E-27 1.929E-27 1.233E-27 8.357E-28 5.929E-28 4.359E-28 3.299E-28 2.556E-28 2.020E-28 1.624E-28 1.324E-28 1.093E-28 9.114E-29 7.666E-29 6.492E-29 5.522E-29 4.697E-29 3.955E-29 3.156E-29 0.000E+00 4.993E-26 1.557E-26 6.802E-27 3.575E-27 2.112E-27 1.353E-27 9.193E-28 6.534E-28 4.812E-28 3.646E-28 2.829E-28 2.238E-28 1.800E-28 1.468E-28 1.212E-28 1.010E-28 8.489E-29 7.169E-29 6.060E-29 5.073E-29 4.027E-29 0.000E+00 5.404E-26 1.694E-26 7.436E-27 3.925E-27 2.328E-27 1.496E-27 1.019E-27 7.263E-28 5.360E-28 4.069E-28 3.161E-28 2.504E-28 2.016E-28 1.645E-28 1.358E-28 1.131E-28 9.477E-29 7.956E-29 6.620E-29 5.226E-29 0.000E+00 5.854E-26 1.848E-26 8.164E-27 4.335E-27 2.584E-27 1.667E-27 1.140E-27 8.149E-28 6.029E-28 4.587E-28 3.571E-28 2.833E-28 2.283E-28 1.864E-28 1.537E-28 1.278E-28 1.065E-28 8.801E-29 6.907E-29 0.000E+00 6.339E-26 2.020E-26 9.002E-27 4.816E-27 2.889E-27 1.874E-27 1.288E-27 9.239E-28 6.858E-28 5.232E-28 4.082E-28 3.243E-28 2.616E-28 2.136E-28 1.759E-28 1.454E-28 1.193E-28 9.309E-29 0.000E+00 6.855E-26 2.211E-26 9.970E-27 5.386E-27 3.258E-27 2.128E-27 1.471E-27 1.060E-27 7.901E-28 6.047E-28 4.729E-28 3.764E-28 3.037E-28 2.477E-28 2.030E-28 1.653E-28 1.281E-28 0.000E+00 7.399E-26 2.426E-26 1.110E-26 6.075E-27 3.712E-27 2.446E-27 1.701E-27 1.233E-27 9.235E-28 7.093E-28 5.561E-28 4.431E-28 3.573E-28 2.901E-28 2.343E-28 1.802E-28 0.000E+00 7.977E-26 2.670E-26 1.246E-26 6.923E-27 4.283E-27 2.850E-27 1.999E-27 1.458E-27 1.097E-27 8.455E-28 6.642E-28 5.291E-28 4.250E-28 3.401E-28 2.593E-28 0.000E+00 8.612E-26 2.957E-26 1.412E-26 7.996E-27 5.019E-27 3.377E-27 2.389E-27 1.754E-27 1.326E-27 1.025E-27 8.054E-28 6.392E-28 5.061E-28 3.822E-28 0.000E+00 9.358E-26 3.310E-26 1.624E-26 9.389E-27 5.987E-27 4.077E-27 2.910E-27 2.150E-27 1.632E-27 1.262E-27 9.884E-28 7.733E-28 5.775E-28 0.000E+00 1.032E-25 3.764E-26 1.903E-26 1.125E-26 7.292E-27 5.025E-27 3.616E-27 2.686E-27 2.042E-27 1.575E-27 1.215E-27 8.961E-28 0.000E+00 1.165E-25 4.379E-26 2.281E-26 1.380E-26 9.089E-27 6.334E-27 4.590E-27 3.420E-27 2.592E-27 1.970E-27 1.432E-27 0.000E+00 1.360E-25 5.248E-26 2.813E-26 1.738E-26 1.162E-26 8.177E-27 5.952E-27 4.427E-27 3.309E-27 2.369E-27 0.000E+00 1.653E-25 6.519E-26 3.585E-26 2.257E-26 1.529E-26 1.083E-26 7.888E-27 5.792E-27 4.080E-27 0.000E+00 2.102E-25 8.442E-26 4.744E-26 3.037E-26 2.079E-26 1.477E-26 1.064E-26 7.372E-27 0.000E+00 2.805E-25 1.146E-25 6.562E-26 4.262E-26 2.937E-26 2.073E-26 1.413E-26 0.000E+00 3.949E-25 1.642E-25 9.576E-26 6.298E-26 4.336E-26 2.909E-26 0.000E+00 5.926E-25 2.513E-25 1.496E-25 9.925E-26 6.557E-26 0.000E+00 9.656E-25 4.204E-25 2.564E-25 1.660E-25 0.000E+00 1.773E-24 8.017E-25 4.924E-25 0.000E+00 3.950E-24 1.864E-24 0.000E+00 1.262E-23 1.292E-22
1.000E+08 2 7.500E+03 B 50 25
0.000E+00 6.634E-26 2.037E-26 8.762E-27 4.542E-27 2.651E-27 1.679E-27 1.130E-27 7.964E-28 5.820E-28 4.380E-28 3.377E-28 2.657E-28 2.127E-28 1.728E-28 1.421E-28 1.182E-28 9.921E-29 8.391E-29 7.139E-29 6.096E-29 5.202E-29 4.392E-29 3.510E-29 0.000E+00 7.000E-26 2.150E-26 9.252E-27 4.797E-27 2.800E-27 1.775E-27 1.195E-27 8.418E-28 6.152E-28 4.630E-28 3.570E-28 2.809E-28 2.248E-28 1.825E-28 1.501E-28 1.247E-28 1.045E-28 8.823E-29 7.479E-29 6.342E-29 5.322E-29 4.232E-29 0.000E+00 7.389E-26 2.271E-26 9.776E-27 5.071E-27 2.961E-27 1.877E-27 1.264E-27 8.908E-28 6.511E-28 4.901E-28 3.778E-28 2.972E-28 2.378E-28 1.930E-28 1.586E-28 1.316E-28 1.101E-28 9.260E-29 7.795E-29 6.501E-29 5.139E-29 0.000E+00 7.824E-26 2.406E-26 1.037E-26 5.380E-27 3.144E-27 1.994E-27 1.343E-27 9.467E-28 6.921E-28 5.209E-28 4.016E-28 3.159E-28 2.526E-28 2.049E-28 1.682E-28 1.393E-28 1.161E-28 9.699E-29 8.032E-29 6.310E-29 0.000E+00 8.338E-26 2.567E-26 1.107E-26 5.749E-27 3.362E-27 2.133E-27 1.437E-27 1.014E-27 7.413E-28 5.581E-28 4.303E-28 3.383E-28 2.704E-28 2.191E-28 1.795E-28 1.482E-28 1.227E-28 1.008E-28 7.867E-29 0.000E+00 8.966E-26 2.764E-26 1.193E-26 6.206E-27 3.632E-27 2.307E-27 1.556E-27 1.098E-27 8.031E-28 6.047E-28 4.662E-28 3.664E-28 2.927E-28 2.368E-28 1.933E-28 1.586E-28 1.292E-28 1.000E-28 0.000E+00 9.741E-26 3.009E-26 1.301E-26 6.780E-27 3.974E-27 2.527E-27 1.706E-27 1.205E-27 8.819E-28 6.642E-28 5.121E-28 4.023E-28 3.209E-28 2.588E-28 2.100E-28 1.695E-28 1.302E-28 0.000E+00 1.069E-25 3.311E-26 1.436E-26 7.501E-27 4.406E-27 2.807E-27 1.897E-27 1.342E-27 9.830E-28 7.408E-28 5.710E-28 4.482E-28 3.566E-28 2.859E-28 2.284E-28 1.738E-28 0.000E+00 1.184E-25 3.681E-26 1.603E-26 8.404E-27 4.952E-27 3.163E-27 2.143E-27 1.518E-27 1.113E-27 8.395E-28 6.469E-28 5.068E-28 4.010E-28 3.167E-28 2.387E-28 0.000E+00 1.319E-25 4.129E-26 1.809E-26 9.532E-27 5.642E-27 3.618E-27 2.459E-27 1.746E-27 1.283E-27 9.680E-28 7.451E-28 5.810E-28 4.533E-28 3.381E-28 0.000E+00 1.477E-25 4.665E-26 2.062E-26 1.095E-26 6.526E-27 4.208E-27 2.872E-27 2.047E-27 1.507E-27 1.137E-27 8.726E-28 6.716E-28 4.952E-28 0.000E+00 1.658E-25 5.308E-26 2.378E-26 1.277E-26 7.682E-27 4.991E-27 3.428E-27 2.453E-27 1.810E-27 1.364E-27 1.034E-27 7.533E-28 0.000E+00 1.864E-25 6.088E-26 2.780E-26 1.517E-26 9.242E-27 6.066E-27 4.198E-27 3.018E-27 2.228E-27 1.662E-27 1.194E-27 0.000E+00 2.104E-25 7.065E-26 3.311E-26 1.846E-26 1.143E-26 7.596E-27 5.300E-27 3.822E-27 2.798E-27 1.980E-27 0.000E+00 2.404E-25 8.364E-26 4.054E-26 2.319E-26 1.464E-26 9.853E-27 6.916E-27 4.955E-27 3.444E-27 0.000E+00 2.823E-25 1.023E-25 5.153E-26 3.034E-26 1.953E-26 1.327E-26 9.276E-27 6.314E-27 0.000E+00 3.480E-25 1.312E-25 6.883E-26 4.167E-26 2.724E-26 1.849E-26 1.229E-26 0.000E+00 4.593E-25 1.794E-25 9.770E-26 6.053E-26 3.970E-26 2.569E-26 0.000E+00 6.602E-25 2.660E-25 1.493E-25 9.353E-26 5.883E-26 0.000E+00 1.050E-24 4.353E-25 2.497E-25 1.517E-25 0.000E+00 1.900E-24 8.110E-25 4.609E-25 0.000E+00 4.174E-24 1.805E-24 0.000E+00 1.288E-23 1.373E-22
1.000E+02 2 1.000E+04 B 245 25
0.000E+00 9.949E-27 3.912E-27 2.155E-27 1.366E-27 9.361E-28 6.748E-28 5.046E-28 3.881E-28 3.053E-28 2.447E-28 1.992E-28 1.643E-28 1.371E-28 1.155E-28 9.809E-29 8.392E-29 7.221E-29 6.241E-29 5.408E-29 4.686E-29 4.038E-29 3.420E-29 2.709E-29 0.000E+00 1.121E-26 4.411E-27 2.433E-27 1.544E-27 1.059E-27 7.638E-28 5.716E-28 4.400E-28 3.463E-28 2.777E-28 2.262E-28 1.866E-28 1.557E-28 1.312E-28 1.114E-28 9.529E-29 8.190E-29 7.061E-29 6.091E-29 5.229E-29 4.412E-29 3.482E-29 0.000E+00 1.270E-26 5.000E-27 2.761E-27 1.754E-27 1.204E-27 8.693E-28 6.511E-28 5.016E-28 3.951E-28 3.170E-28 2.583E-28 2.133E-28 1.780E-28 1.500E-28 1.273E-28 1.088E-28 9.327E-29 8.007E-29 6.845E-29 5.754E-29 4.523E-29 0.000E+00 1.446E-26 5.699E-27 3.151E-27 2.004E-27 1.377E-27 9.955E-28 7.464E-28 5.755E-28 4.537E-28 3.643E-28 2.970E-28 2.453E-28 2.048E-28 1.725E-28 1.463E-28 1.247E-28 1.065E-28 9.068E-29 7.592E-29 5.944E-29 0.000E+00 1.656E-26 6.536E-27 3.619E-27 2.304E-27 1.586E-27 1.148E-27 8.615E-28 6.649E-28 5.246E-28 4.216E-28 3.439E-28 2.842E-28 2.372E-28 1.997E-28 1.692E-28 1.437E-28 1.217E-28 1.015E-28 7.911E-29 0.000E+00 1.910E-26 7.547E-27 4.185E-27 2.669E-27 1.840E-27 1.333E-27 1.002E-27 7.741E-28 6.115E-28 4.918E-28 4.015E-28 3.318E-28 2.770E-28 2.329E-28 1.966E-28 1.656E-28 1.375E-28 1.068E-28 0.000E+00 2.219E-26 8.780E-27 4.877E-27 3.117E-27 2.151E-27 1.562E-27 1.175E-27 9.092E-28 7.190E-28 5.789E-28 4.729E-28 3.908E-28 3.259E-28 2.733E-28 2.290E-28 1.892E-28 1.463E-28 0.000E+00 2.599E-26 1.030E-26 5.734E-27 3.671E-27 2.539E-27 1.846E-27 1.392E-27 1.078E-27 8.540E-28 6.882E-28 5.625E-28 4.647E-28 3.867E-28 3.220E-28 2.648E-28 2.039E-28 0.000E+00 3.073E-26 1.220E-26 6.806E-27 4.369E-27 3.028E-27 2.206E-27 1.666E-27 1.293E-27 1.026E-27 8.275E-28 6.764E-28 5.580E-28 4.616E-28 3.775E-28 2.895E-28 0.000E+00 3.669E-26 1.460E-26 8.169E-27 5.258E-27 3.654E-27 2.669E-27 2.020E-27 1.571E-27 1.248E-27 1.008E-27 8.231E-28 6.757E-28 5.496E-28 4.196E-28 0.000E+00 4.434E-26 1.768E-26 9.928E-27 6.411E-27 4.470E-27 3.274E-27 2.485E-27 1.937E-27 1.542E-27 1.245E-27 1.013E-27 8.189E-28 6.226E-28 0.000E+00 5.429E-26 2.172E-26 1.224E-26 7.938E-27 5.555E-27 4.084E-27 3.110E-27 2.431E-27 1.936E-27 1.560E-27 1.253E-27 9.486E-28 0.000E+00 6.752E-26 2.711E-26 1.536E-26 1.000E-26 7.034E-27 5.194E-27 3.970E-27 3.112E-27 2.478E-27 1.974E-27 1.489E-27 0.000E+00 8.551E-26 3.450E-26 1.966E-26 1.288E-26 9.111E-27 6.764E-27 5.193E-27 4.077E-27 3.220E-27 2.420E-27 0.000E+00 1.107E-25 4.491E-26 2.579E-26 1.703E-26 1.213E-26 9.068E-27 6.993E-27 5.465E-27 4.092E-27 0.000E+00 1.471E-25 6.013E-26 3.487E-26 2.326E-26 1.673E-26 1.260E-26 9.723E-27 7.255E-27 0.000E+00 2.020E-25 8.340E-26 4.900E-26 3.314E-26 2.414E-26 1.830E-26 1.361E-26 0.000E+00 2.894E-25 1.211E-25 7.247E-26 4.995E-26 3.693E-26 2.733E-26 0.000E+00 4.384E-25 1.871E-25 1.150E-25 8.142E-26 5.983E-26 0.000E+00 7.181E-25 3.161E-25 2.027E-25 1.464E-25 0.000E+00 1.323E-24 6.139E-25 4.175E-25 0.000E+00 2.968E-24 1.516E-24 0.000E+00 9.815E-24 7.350E-23
1.000E+03 2 1.000E+04 B 182 25
0.000E+00 1.004E-26 3.940E-27 2.168E-27 1.372E-27 9.381E-28 6.750E-28 5.038E-28 3.868E-28 3.036E-28 2.428E-28 1.972E-28 1.622E-28 1.349E-28 1.133E-28 9.598E-29 8.184E-29 7.018E-29 6.043E-29 5.217E-29 4.504E-29 3.872E-29 3.276E-29 2.606E-29 0.000E+00 1.130E-26 4.440E-27 2.445E-27 1.549E-27 1.061E-27 7.639E-28 5.706E-28 4.383E-28 3.443E-28 2.755E-28 2.238E-28 1.842E-28 1.532E-28 1.287E-28 1.089E-28 9.282E-29 7.946E-29 6.825E-29 5.864E-29 5.018E-29 4.228E-29 3.348E-29 0.000E+00 1.278E-26 5.030E-27 2.774E-27 1.759E-27 1.206E-27 8.693E-28 6.499E-28 4.997E-28 3.928E-28 3.144E-28 2.555E-28 2.104E-28 1.750E-28 1.470E-28 1.243E-28 1.058E-28 9.032E-29 7.722E-29 6.576E-29 5.516E-29 4.348E-29 0.000E+00 1.455E-26 5.731E-27 3.165E-27 2.010E-27 1.379E-27 9.953E-28 7.449E-28 5.731E-28 4.509E-28 3.612E-28 2.937E-28 2.418E-28 2.012E-28 1.688E-28 1.427E-28 1.211E-28 1.029E-28 8.723E-29 7.282E-29 5.712E-29 0.000E+00 1.666E-26 6.571E-27 3.634E-27 2.311E-27 1.588E-27 1.147E-27 8.595E-28 6.620E-28 5.212E-28 4.178E-28 3.399E-28 2.799E-28 2.328E-28 1.952E-28 1.646E-28 1.391E-28 1.172E-28 9.739E-29 7.601E-29 0.000E+00 1.921E-26 7.585E-27 4.201E-27 2.676E-27 1.842E-27 1.332E-27 9.995E-28 7.706E-28 6.073E-28 4.871E-28 3.964E-28 3.265E-28 2.714E-28 2.271E-28 1.907E-28 1.599E-28 1.321E-28 1.026E-28 0.000E+00 2.231E-26 8.822E-27 4.896E-27 3.124E-27 2.153E-27 1.560E-27 1.172E-27 9.048E-28 7.137E-28 5.729E-28 4.664E-28 3.840E-28 3.187E-28 2.658E-28 2.215E-28 1.820E-28 1.406E-28 0.000E+00 2.613E-26 1.035E-26 5.754E-27 3.680E-27 2.541E-27 1.845E-27 1.388E-27 1.073E-27 8.472E-28 6.805E-28 5.541E-28 4.557E-28 3.771E-28 3.121E-28 2.551E-28 1.959E-28 0.000E+00 3.088E-26 1.225E-26 6.830E-27 4.378E-27 3.030E-27 2.204E-27 1.661E-27 1.286E-27 1.017E-27 8.173E-28 6.652E-28 5.457E-28 4.485E-28 3.643E-28 2.782E-28 0.000E+00 3.687E-26 1.466E-26 8.196E-27 5.268E-27 3.655E-27 2.665E-27 2.013E-27 1.561E-27 1.236E-27 9.937E-28 8.074E-28 6.584E-28 5.315E-28 4.036E-28 0.000E+00 4.454E-26 1.776E-26 9.960E-27 6.423E-27 4.470E-27 3.268E-27 2.475E-27 1.923E-27 1.524E-27 1.225E-27 9.899E-28 7.937E-28 5.994E-28 0.000E+00 5.453E-26 2.181E-26 1.228E-26 7.951E-27 5.554E-27 4.075E-27 3.094E-27 2.410E-27 1.911E-27 1.529E-27 1.217E-27 9.142E-28 0.000E+00 6.782E-26 2.722E-26 1.540E-26 1.002E-26 7.031E-27 5.179E-27 3.946E-27 3.079E-27 2.436E-27 1.924E-27 1.437E-27 0.000E+00 8.588E-26 3.463E-26 1.971E-26 1.290E-26 9.103E-27 6.739E-27 5.154E-27 4.022E-27 3.149E-27 2.340E-27 0.000E+00 1.112E-25 4.508E-26 2.585E-26 1.705E-26 1.211E-26 9.023E-27 6.922E-27 5.363E-27 3.967E-27 0.000E+00 1.477E-25 6.035E-26 3.495E-26 2.327E-26 1.669E-26 1.251E-26 9.576E-27 7.053E-27 0.000E+00 2.029E-25 8.369E-26 4.910E-26 3.312E-26 2.403E-26 1.809E-26 1.327E-26 0.000E+00 2.906E-25 1.215E-25 7.258E-26 4.986E-26 3.663E-26 2.675E-26 0.000E+00 4.402E-25 1.877E-25 1.151E-25 8.103E-26 5.878E-26 0.000E+00 7.209E-25 3.168E-25 2.024E-25 1.444E-25 0.000E+00 1.328E-24 6.146E-25 4.137E-25 0.000E+00 2.977E-24 1.508E-24 0.000E+00 9.810E-24 7.361E-23
1.000E+04 2 1.000E+04 B 124 25
0.000E+00 1.045E-26 4.063E-27 2.217E-27 1.392E-27 9.456E-28 6.761E-28 5.017E-28 3.831E-28 2.992E-28 2.381E-28 1.925E-28 1.576E-28 1.306E-28 1.092E-28 9.210E-29 7.822E-29 6.682E-29 5.734E-29 4.935E-29 4.250E-29 3.647E-29 3.085E-29 2.459E-29 0.000E+00 1.168E-26 4.554E-27 2.491E-27 1.568E-27 1.067E-27 7.645E-28 5.681E-28 4.342E-28 3.395E-28 2.703E-28 2.186E-28 1.791E-28 1.483E-28 1.240E-28 1.045E-28 8.869E-29 7.563E-29 6.472E-29 5.543E-29 4.733E-29 3.984E-29 3.160E-29 0.000E+00 1.314E-26 5.136E-27 2.817E-27 1.777E-27 1.212E-27 8.693E-28 6.469E-28 4.950E-28 3.873E-28 3.086E-28 2.497E-28 2.046E-28 1.694E-28 1.416E-28 1.192E-28 1.010E-28 8.589E-29 7.315E-29 6.211E-29 5.201E-29 4.105E-29 0.000E+00 1.488E-26 5.832E-27 3.206E-27 2.027E-27 1.384E-27 9.947E-28 7.411E-28 5.677E-28 4.446E-28 3.545E-28 2.869E-28 2.351E-28 1.947E-28 1.626E-28 1.367E-28 1.155E-28 9.774E-29 8.252E-29 6.873E-29 5.395E-29 0.000E+00 1.698E-26 6.669E-27 3.674E-27 2.327E-27 1.593E-27 1.146E-27 8.549E-28 6.556E-28 5.139E-28 4.100E-28 3.319E-28 2.720E-28 2.250E-28 1.877E-28 1.574E-28 1.324E-28 1.111E-28 9.201E-29 7.180E-29 0.000E+00 1.951E-26 7.682E-27 4.241E-27 2.692E-27 1.846E-27 1.330E-27 9.937E-28 7.629E-28 5.985E-28 4.777E-28 3.868E-28 3.169E-28 2.619E-28 2.180E-28 1.820E-28 1.518E-28 1.249E-28 9.692E-29 0.000E+00 2.262E-26 8.921E-27 4.937E-27 3.140E-27 2.157E-27 1.557E-27 1.165E-27 8.953E-28 7.030E-28 5.614E-28 4.546E-28 3.721E-28 3.070E-28 2.544E-28 2.107E-28 1.724E-28 1.329E-28 0.000E+00 2.644E-26 1.045E-26 5.797E-27 3.696E-27 2.544E-27 1.840E-27 1.378E-27 1.061E-27 8.337E-28 6.661E-28 5.391E-28 4.406E-28 3.622E-28 2.978E-28 2.419E-28 1.852E-28 0.000E+00 3.121E-26 1.236E-26 6.876E-27 4.395E-27 3.032E-27 2.197E-27 1.649E-27 1.271E-27 9.994E-28 7.986E-28 6.457E-28 5.260E-28 4.291E-28 3.462E-28 2.632E-28 0.000E+00 3.723E-26 1.478E-26 8.247E-27 5.286E-27 3.656E-27 2.655E-27 1.997E-27 1.541E-27 1.213E-27 9.687E-28 7.812E-28 6.319E-28 5.060E-28 3.821E-28 0.000E+00 4.495E-26 1.790E-26 1.002E-26 6.442E-27 4.469E-27 3.254E-27 2.452E-27 1.895E-27 1.492E-27 1.190E-27 9.536E-28 7.577E-28 5.680E-28 0.000E+00 5.501E-26 2.197E-26 1.235E-26 7.971E-27 5.549E-27 4.053E-27 3.062E-27 2.370E-27 1.865E-27 1.479E-27 1.166E-27 8.675E-28 0.000E+00 6.838E-26 2.741E-26 1.548E-26 1.004E-26 7.019E-27 5.146E-27 3.898E-27 3.019E-27 2.367E-27 1.849E-27 1.366E-27 0.000E+00 8.657E-26 3.487E-26 1.980E-26 1.292E-26 9.079E-27 6.686E-27 5.078E-27 3.927E-27 3.038E-27 2.229E-27 0.000E+00 1.120E-25 4.538E-26 2.596E-26 1.706E-26 1.207E-26 8.932E-27 6.792E-27 5.199E-27 3.789E-27 0.000E+00 1.489E-25 6.073E-26 3.508E-26 2.327E-26 1.659E-26 1.234E-26 9.331E-27 6.760E-27 0.000E+00 2.044E-25 8.420E-26 4.925E-26 3.308E-26 2.382E-26 1.772E-26 1.277E-26 0.000E+00 2.927E-25 1.222E-25 7.274E-26 4.966E-26 3.609E-26 2.587E-26 0.000E+00 4.434E-25 1.886E-25 1.152E-25 8.030E-26 5.715E-26 0.000E+00 7.261E-25 3.181E-25 2.017E-25 1.413E-25 0.000E+00 1.337E-24 6.154E-25 4.073E-25 0.000E+00 2.994E-24 1.495E-24 0.000E+00 9.804E-24 7.424E-23
1.000E+05 2 1.000E+04 B 87 25
0.000E+00 1.291E-26 4.800E-27 2.476E-27 1.487E-27 9.752E-28 6.787E-28 4.930E-28 3.701E-28 2.851E-28 2.243E-28 1.796E-28 1.460E-28 1.202E-28 9.999E-29 8.398E-29 7.110E-29 6.060E-29 5.192E-29 4.466E-29 3.847E-29 3.305E-29 2.802E-29 2.243E-29 0.000E+00 1.392E-26 5.231E-27 2.732E-27 1.656E-27 1.094E-27 7.655E-28 5.583E-28 4.203E-28 3.245E-28 2.557E-28 2.050E-28 1.668E-28 1.373E-28 1.142E-28 9.589E-29 8.110E-29 6.899E-29 5.895E-29 5.047E-29 4.310E-29 3.634E-29 2.893E-29 0.000E+00 1.517E-26 5.751E-27 3.039E-27 1.858E-27 1.236E-27 8.687E-28 6.359E-28 4.800E-28 3.714E-28 2.931E-28 2.352E-28 1.914E-28 1.576E-28 1.311E-28 1.099E-28 9.279E-29 7.872E-29 6.695E-29 5.683E-29 4.763E-29 3.769E-29 0.000E+00 1.671E-26 6.385E-27 3.408E-27 2.101E-27 1.405E-27 9.924E-28 7.289E-28 5.516E-28 4.275E-28 3.379E-28 2.713E-28 2.208E-28 1.818E-28 1.510E-28 1.265E-28 1.065E-28 8.991E-29 7.581E-29 6.313E-29 4.965E-29 0.000E+00 1.862E-26 7.163E-27 3.857E-27 2.394E-27 1.610E-27 1.142E-27 8.412E-28 6.381E-28 4.953E-28 3.918E-28 3.148E-28 2.562E-28 2.108E-28 1.749E-28 1.460E-28 1.224E-28 1.025E-28 8.476E-29 6.622E-29 0.000E+00 2.099E-26 8.124E-27 4.407E-27 2.753E-27 1.860E-27 1.324E-27 9.780E-28 7.434E-28 5.779E-28 4.575E-28 3.677E-28 2.991E-28 2.457E-28 2.034E-28 1.691E-28 1.405E-28 1.154E-28 8.954E-29 0.000E+00 2.395E-26 9.319E-27 5.087E-27 3.194E-27 2.168E-27 1.548E-27 1.147E-27 8.730E-28 6.795E-28 5.383E-28 4.325E-28 3.515E-28 2.882E-28 2.375E-28 1.957E-28 1.596E-28 1.229E-28 0.000E+00 2.766E-26 1.081E-26 5.935E-27 3.745E-27 2.551E-27 1.827E-27 1.357E-27 1.035E-27 8.061E-28 6.388E-28 5.129E-28 4.161E-28 3.397E-28 2.776E-28 2.245E-28 1.716E-28 0.000E+00 3.234E-26 1.270E-26 7.005E-27 4.439E-27 3.035E-27 2.180E-27 1.622E-27 1.239E-27 9.660E-28 7.652E-28 6.136E-28 4.958E-28 4.016E-28 3.220E-28 2.442E-28 0.000E+00 3.831E-26 1.511E-26 8.372E-27 5.326E-27 3.654E-27 2.632E-27 1.962E-27 1.501E-27 1.171E-27 9.265E-28 7.405E-28 5.939E-28 4.721E-28 3.549E-28 0.000E+00 4.601E-26 1.823E-26 1.014E-26 6.478E-27 4.460E-27 3.222E-27 2.407E-27 1.843E-27 1.437E-27 1.134E-27 9.003E-28 7.090E-28 5.282E-28 0.000E+00 5.611E-26 2.232E-26 1.248E-26 8.003E-27 5.530E-27 4.007E-27 3.000E-27 2.298E-27 1.789E-27 1.404E-27 1.094E-27 8.079E-28 0.000E+00 6.958E-26 2.780E-26 1.562E-26 1.007E-26 6.986E-27 5.078E-27 3.808E-27 2.917E-27 2.259E-27 1.743E-27 1.275E-27 0.000E+00 8.795E-26 3.532E-26 1.996E-26 1.294E-26 9.021E-27 6.580E-27 4.942E-27 3.772E-27 2.878E-27 2.084E-27 0.000E+00 1.137E-25 4.592E-26 2.614E-26 1.706E-26 1.196E-26 8.758E-27 6.571E-27 4.953E-27 3.553E-27 0.000E+00 1.510E-25 6.141E-26 3.528E-26 2.323E-26 1.640E-26 1.204E-26 8.948E-27 6.362E-27 0.000E+00 2.072E-25 8.508E-26 4.947E-26 3.293E-26 2.342E-26 1.713E-26 1.207E-26 0.000E+00 2.966E-25 1.234E-25 7.292E-26 4.924E-26 3.517E-26 2.460E-26 0.000E+00 4.491E-25 1.902E-25 1.151E-25 7.897E-26 5.475E-26 0.000E+00 7.351E-25 3.201E-25 2.002E-25 1.365E-25 0.000E+00 1.353E-24 6.164E-25 3.973E-25 0.000E+00 3.022E-24 1.475E-24 0.000E+00 9.799E-24 7.847E-23
1.000E+06 2 1.000E+04 B 59 25
0.000E+00 2.126E-26 6.967E-27 3.187E-27 1.742E-27 1.064E-27 7.003E-28 4.871E-28 3.532E-28 2.646E-28 2.035E-28 1.600E-28 1.281E-28 1.041E-28 8.579E-29 7.148E-29 6.014E-29 5.101E-29 4.357E-29 3.741E-29 3.221E-29 2.770E-29 2.355E-29 1.895E-29 0.000E+00 2.247E-26 7.469E-27 3.461E-27 1.912E-27 1.177E-27 7.802E-28 5.456E-28 3.973E-28 2.988E-28 2.305E-28 1.817E-28 1.457E-28 1.187E-28 9.786E-29 8.159E-29 6.866E-29 5.822E-29 4.966E-29 4.250E-29 3.635E-29 3.075E-29 2.461E-29 0.000E+00 2.376E-26 8.025E-27 3.774E-27 2.110E-27 1.311E-27 8.755E-28 6.159E-28 4.506E-28 3.401E-28 2.632E-28 2.080E-28 1.671E-28 1.363E-28 1.125E-28 9.383E-29 7.893E-29 6.684E-29 5.682E-29 4.830E-29 4.062E-29 3.234E-29 0.000E+00 2.516E-26 8.655E-27 4.139E-27 2.344E-27 1.472E-27 9.906E-28 7.011E-28 5.155E-28 3.906E-28 3.032E-28 2.401E-28 1.933E-28 1.578E-28 1.303E-28 1.086E-28 9.126E-29 7.702E-29 6.503E-29 5.433E-29 4.299E-29 0.000E+00 2.675E-26 9.387E-27 4.572E-27 2.627E-27 1.667E-27 1.131E-27 8.055E-28 5.952E-28 4.527E-28 3.524E-28 2.796E-28 2.254E-28 1.841E-28 1.520E-28 1.265E-28 1.059E-28 8.875E-29 7.363E-29 5.786E-29 0.000E+00 2.866E-26 1.026E-26 5.095E-27 2.970E-27 1.906E-27 1.304E-27 9.344E-28 6.937E-28 5.294E-28 4.131E-28 3.283E-28 2.649E-28 2.163E-28 1.783E-28 1.479E-28 1.229E-28 1.012E-28 7.890E-29 0.000E+00 3.103E-26 1.133E-26 5.737E-27 3.394E-27 2.202E-27 1.519E-27 1.095E-27 8.163E-28 6.250E-28 4.887E-28 3.888E-28 3.136E-28 2.557E-28 2.100E-28 1.729E-28 1.411E-28 1.091E-28 0.000E+00 3.408E-26 1.267E-26 6.538E-27 3.925E-27 2.573E-27 1.788E-27 1.296E-27 9.704E-28 7.448E-28 5.832E-28 4.640E-28 3.738E-28 3.037E-28 2.475E-28 2.001E-28 1.534E-28 0.000E+00 3.810E-26 1.438E-26 7.555E-27 4.597E-27 3.043E-27 2.130E-27 1.552E-27 1.166E-27 8.965E-28 7.023E-28 5.582E-28 4.481E-28 3.613E-28 2.891E-28 2.194E-28 0.000E+00 4.343E-26 1.661E-26 8.865E-27 5.461E-27 3.648E-27 2.570E-27 1.881E-27 1.416E-27 1.090E-27 8.536E-28 6.763E-28 5.388E-28 4.265E-28 3.203E-28 0.000E+00 5.058E-26 1.955E-26 1.058E-26 6.589E-27 4.436E-27 3.143E-27 2.309E-27 1.742E-27 1.341E-27 1.047E-27 8.236E-28 6.443E-28 4.786E-28 0.000E+00 6.023E-26 2.351E-26 1.287E-26 8.089E-27 5.484E-27 3.905E-27 2.877E-27 2.172E-27 1.669E-27 1.295E-27 1.000E-27 7.344E-28 0.000E+00 7.339E-26 2.890E-26 1.598E-26 1.012E-26 6.908E-27 4.939E-27 3.646E-27 2.751E-27 2.102E-27 1.603E-27 1.162E-27 0.000E+00 9.164E-26 3.639E-26 2.029E-26 1.296E-26 8.893E-27 6.382E-27 4.714E-27 3.542E-27 2.663E-27 1.906E-27 0.000E+00 1.175E-25 4.704E-26 2.646E-26 1.703E-26 1.175E-26 8.456E-27 6.231E-27 4.614E-27 3.261E-27 0.000E+00 1.553E-25 6.268E-26 3.560E-26 2.310E-26 1.603E-26 1.154E-26 8.404E-27 5.862E-27 0.000E+00 2.125E-25 8.661E-26 4.976E-26 3.260E-26 2.273E-26 1.624E-26 1.118E-26 0.000E+00 3.036E-25 1.253E-25 7.308E-26 4.841E-26 3.374E-26 2.293E-26 0.000E+00 4.592E-25 1.928E-25 1.147E-25 7.676E-26 5.147E-26 0.000E+00 7.509E-25 3.232E-25 1.974E-25 1.297E-25 0.000E+00 1.379E-24 6.172E-25 3.827E-25 0.000E+00 3.069E-24 1.444E-24 0.000E+00 9.802E-24 9.245E-23
1.000E+07 2 1.000E+04 B 50 25
0.000E+00 3.004E-26 9.307E-27 4.039E-27 2.111E-27 1.241E-27 7.913E-28 5.356E-28 3.794E-28 2.785E-28 2.105E-28 1.629E-28 1.287E-28 1.033E-28 8.421E-29 6.948E-29 5.794E-29 4.876E-29 4.135E-29 3.527E-29 3.019E-29 2.583E-29 2.186E-29 1.752E-29 0.000E+00 3.251E-26 1.010E-26 4.397E-27 2.303E-27 1.357E-27 8.669E-28 5.877E-28 4.168E-28 3.064E-28 2.318E-28 1.796E-28 1.419E-28 1.140E-28 9.297E-29 7.671E-29 6.396E-29 5.378E-29 4.554E-29 3.872E-29 3.293E-29 2.772E-29 2.210E-29 0.000E+00 3.529E-26 1.101E-26 4.809E-27 2.527E-27 1.493E-27 9.563E-28 6.496E-28 4.616E-28 3.399E-28 2.575E-28 1.997E-28 1.579E-28 1.270E-28 1.036E-28 8.546E-29 7.121E-29 5.981E-29 5.049E-29 4.266E-29 3.570E-29 2.832E-29 0.000E+00 3.839E-26 1.204E-26 5.284E-27 2.789E-27 1.654E-27 1.063E-27 7.238E-28 5.155E-28 3.803E-28 2.886E-28 2.241E-28 1.774E-28 1.428E-28 1.165E-28 9.611E-29 8.000E-29 6.701E-29 5.622E-29 4.676E-29 3.689E-29 0.000E+00 4.181E-26 1.320E-26 5.831E-27 3.095E-27 1.844E-27 1.190E-27 8.132E-28 5.809E-28 4.296E-28 3.267E-28 2.541E-28 2.015E-28 1.623E-28 1.324E-28 1.092E-28 9.066E-29 7.549E-29 6.237E-29 4.891E-29 0.000E+00 4.553E-26 1.450E-26 6.464E-27 3.457E-27 2.072E-27 1.344E-27 9.225E-28 6.614E-28 4.906E-28 3.740E-28 2.915E-28 2.315E-28 1.865E-28 1.522E-28 1.252E-28 1.034E-28 8.482E-29 6.609E-29 0.000E+00 4.956E-26 1.598E-26 7.200E-27 3.887E-27 2.349E-27 1.533E-27 1.058E-27 7.620E-28 5.672E-28 4.337E-28 3.388E-28 2.693E-28 2.171E-28 1.768E-28 1.448E-28 1.178E-28 9.112E-29 0.000E+00 5.391E-26 1.765E-26 8.070E-27 4.409E-27 2.690E-27 1.770E-27 1.229E-27 8.897E-28 6.651E-28 5.100E-28 3.992E-28 3.177E-28 2.558E-28 2.073E-28 1.672E-28 1.283E-28 0.000E+00 5.866E-26 1.958E-26 9.118E-27 5.055E-27 3.120E-27 2.071E-27 1.449E-27 1.055E-27 7.919E-28 6.091E-28 4.775E-28 3.796E-28 3.043E-28 2.430E-28 1.849E-28 0.000E+00 6.406E-26 2.189E-26 1.042E-26 5.874E-27 3.674E-27 2.464E-27 1.737E-27 1.272E-27 9.586E-28 7.389E-28 5.790E-28 4.583E-28 3.619E-28 2.725E-28 0.000E+00 7.055E-26 2.475E-26 1.207E-26 6.940E-27 4.403E-27 2.985E-27 2.121E-27 1.561E-27 1.180E-27 9.095E-28 7.096E-28 5.533E-28 4.116E-28 0.000E+00 7.891E-26 2.845E-26 1.425E-26 8.362E-27 5.384E-27 3.687E-27 2.638E-27 1.950E-27 1.475E-27 1.132E-27 8.699E-28 6.386E-28 0.000E+00 9.041E-26 3.345E-26 1.722E-26 1.031E-26 6.729E-27 4.653E-27 3.348E-27 2.478E-27 1.867E-27 1.412E-27 1.021E-27 0.000E+00 1.069E-25 4.047E-26 2.137E-26 1.303E-26 8.618E-27 6.005E-27 4.334E-27 3.199E-27 2.374E-27 1.688E-27 0.000E+00 1.312E-25 5.066E-26 2.736E-26 1.696E-26 1.134E-26 7.942E-27 5.724E-27 4.165E-27 2.910E-27 0.000E+00 1.680E-25 6.598E-26 3.631E-26 2.283E-26 1.539E-26 1.079E-26 7.682E-27 5.266E-27 0.000E+00 2.252E-25 8.984E-26 5.025E-26 3.197E-26 2.165E-26 1.505E-26 1.012E-26 0.000E+00 3.180E-25 1.288E-25 7.318E-26 4.703E-26 3.173E-26 2.091E-26 0.000E+00 4.777E-25 1.968E-25 1.138E-25 7.347E-26 4.739E-26 0.000E+00 7.780E-25 3.275E-25 1.929E-25 1.210E-25 0.000E+00 1.424E-24 6.177E-25 3.632E-25 0.000E+00 3.147E-24 1.402E-24 0.000E+00 9.836E-24 1.027E-22
1.000E+08 2 1.000E+04 B 50 25
0.000E+00 4.385E-26 1.347E-26 5.792E-27 3.002E-27 1.752E-27 1.110E-27 7.471E-28 5.264E-28 3.847E-28 2.895E-28 2.232E-28 1.756E-28 1.406E-28 1.142E-28 9.394E-29 7.812E-29 6.556E-29 5.545E-29 4.718E-29 4.028E-29 3.437E-29 2.901E-29 2.319E-29 0.000E+00 4.663E-26 1.433E-26 6.164E-27 3.196E-27 1.866E-27 1.182E-27 7.958E-28 5.608E-28 4.099E-28 3.085E-28 2.378E-28 1.871E-28 1.497E-28 1.216E-28 9.996E-29 8.305E-29 6.962E-29 5.875E-29 4.980E-29 4.223E-29 3.544E-29 2.817E-29 0.000E+00 4.965E-26 1.526E-26 6.570E-27 3.408E-27 1.990E-27 1.262E-27 8.494E-28 5.987E-28 4.376E-28 3.293E-28 2.539E-28 1.997E-28 1.598E-28 1.297E-28 1.065E-28 8.841E-29 7.395E-29 6.219E-29 5.235E-29 4.365E-29 3.450E-29 0.000E+00 5.308E-26 1.632E-26 7.033E-27 3.650E-27 2.133E-27 1.352E-27 9.108E-28 6.422E-28 4.694E-28 3.533E-28 2.724E-28 2.142E-28 1.713E-28 1.389E-28 1.140E-28 9.443E-29 7.871E-29 6.574E-29 5.443E-29 4.275E-29 0.000E+00 5.711E-26 1.758E-26 7.581E-27 3.938E-27 2.302E-27 1.461E-27 9.843E-28 6.942E-28 5.076E-28 3.821E-28 2.946E-28 2.316E-28 1.851E-28 1.500E-28 1.228E-28 1.014E-28 8.395E-29 6.897E-29 5.379E-29 0.000E+00 6.198E-26 1.911E-26 8.249E-27 4.290E-27 2.511E-27 1.595E-27 1.075E-27 7.587E-28 5.549E-28 4.178E-28 3.220E-28 2.531E-28 2.021E-28 1.635E-28 1.335E-28 1.094E-28 8.914E-29 6.901E-29 0.000E+00 6.792E-26 2.098E-26 9.076E-27 4.728E-27 2.771E-27 1.762E-27 1.189E-27 8.398E-28 6.146E-28 4.628E-28 3.567E-28 2.802E-28 2.234E-28 1.802E-28 1.462E-28 1.179E-28 9.053E-29 0.000E+00 7.516E-26 2.328E-26 1.010E-26 5.273E-27 3.097E-27 1.973E-27 1.333E-27 9.426E-28 6.904E-28 5.201E-28 4.008E-28 3.145E-28 2.501E-28 2.005E-28 1.601E-28 1.218E-28 0.000E+00 8.385E-26 2.608E-26 1.136E-26 5.952E-27 3.507E-27 2.239E-27 1.517E-27 1.074E-27 7.875E-28 5.936E-28 4.572E-28 3.580E-28 2.832E-28 2.236E-28 1.684E-28 0.000E+00 9.415E-26 2.946E-26 1.291E-26 6.800E-27 4.024E-27 2.579E-27 1.752E-27 1.244E-27 9.133E-28 6.887E-28 5.299E-28 4.129E-28 3.219E-28 2.399E-28 0.000E+00 1.062E-25 3.354E-26 1.482E-26 7.869E-27 4.686E-27 3.019E-27 2.060E-27 1.467E-27 1.079E-27 8.137E-28 6.237E-28 4.795E-28 3.532E-28 0.000E+00 1.202E-25 3.846E-26 1.722E-26 9.241E-27 5.553E-27 3.604E-27 2.472E-27 1.767E-27 1.302E-27 9.798E-28 7.419E-28 5.396E-28 0.000E+00 1.364E-25 4.449E-26 2.029E-26 1.105E-26 6.722E-27 4.404E-27 3.042E-27 2.183E-27 1.608E-27 1.197E-27 8.582E-28 0.000E+00 1.558E-25 5.215E-26 2.437E-26 1.354E-26 8.362E-27 5.540E-27 3.854E-27 2.771E-27 2.022E-27 1.426E-27 0.000E+00 1.806E-25 6.241E-26 3.008E-26 1.712E-26 1.076E-26 7.206E-27 5.035E-27 3.591E-27 2.484E-27 0.000E+00 2.155E-25 7.717E-26 3.853E-26 2.251E-26 1.438E-26 9.710E-27 6.741E-27 4.559E-27 0.000E+00 2.696E-25 9.997E-26 5.176E-26 3.099E-26 2.005E-26 1.349E-26 8.882E-27 0.000E+00 3.599E-25 1.378E-25 7.370E-26 4.498E-26 2.912E-26 1.861E-26 0.000E+00 5.207E-25 2.049E-25 1.125E-25 6.917E-26 4.279E-26 0.000E+00 8.301E-25 3.348E-25 1.870E-25 1.110E-25 0.000E+00 1.501E-24 6.193E-25 3.405E-25 0.000E+00 3.277E-24 1.355E-24 0.000E+00 9.954E-24 1.079E-22
1.000E+02 2 1.250E+04 B 245 25
0.000E+00 8.449E-27 3.270E-27 1.772E-27 1.107E-27 7.482E-28 5.332E-28 3.947E-28 3.009E-28 2.349E-28 1.870E-28 1.513E-28 1.241E-28 1.030E-28 8.639E-29 7.309E-29 6.230E-29 5.343E-29 4.604E-29 3.979E-29 3.438E-29 2.957E-29 2.500E-29 1.978E-29 0.000E+00 9.525E-27 3.689E-27 2.001E-27 1.251E-27 8.462E-28 6.034E-28 4.470E-28 3.410E-28 2.663E-28 2.121E-28 1.716E-28 1.408E-28 1.169E-28 9.806E-29 8.295E-29 7.066E-29 6.052E-29 5.202E-29 4.474E-29 3.832E-29 3.227E-29 2.543E-29 0.000E+00 1.079E-26 4.183E-27 2.271E-27 1.421E-27 9.622E-28 6.866E-28 5.090E-28 3.886E-28 3.036E-28 2.419E-28 1.959E-28 1.608E-28 1.335E-28 1.119E-28 9.464E-29 8.052E-29 6.881E-29 5.888E-29 5.020E-29 4.210E-29 3.303E-29 0.000E+00 1.230E-26 4.770E-27 2.593E-27 1.624E-27 1.101E-27 7.861E-28 5.832E-28 4.455E-28 3.484E-28 2.777E-28 2.250E-28 1.847E-28 1.534E-28 1.286E-28 1.086E-28 9.220E-29 7.846E-29 6.656E-29 5.558E-29 4.342E-29 0.000E+00 1.410E-26 5.473E-27 2.979E-27 1.867E-27 1.267E-27 9.060E-28 6.728E-28 5.144E-28 4.025E-28 3.211E-28 2.602E-28 2.137E-28 1.774E-28 1.486E-28 1.253E-28 1.060E-28 8.943E-29 7.432E-29 5.781E-29 0.000E+00 1.627E-26 6.323E-27 3.446E-27 2.163E-27 1.470E-27 1.052E-27 7.820E-28 5.984E-28 4.687E-28 3.741E-28 3.033E-28 2.491E-28 2.067E-28 1.729E-28 1.453E-28 1.219E-28 1.008E-28 7.804E-29 0.000E+00 1.892E-26 7.359E-27 4.017E-27 2.525E-27 1.718E-27 1.232E-27 9.166E-28 7.022E-28 5.504E-28 4.397E-28 3.566E-28 2.928E-28 2.428E-28 2.024E-28 1.688E-28 1.388E-28 1.070E-28 0.000E+00 2.218E-26 8.638E-27 4.723E-27 2.975E-27 2.027E-27 1.455E-27 1.085E-27 8.318E-28 6.528E-28 5.218E-28 4.233E-28 3.474E-28 2.872E-28 2.378E-28 1.945E-28 1.492E-28 0.000E+00 2.623E-26 1.023E-26 5.607E-27 3.539E-27 2.416E-27 1.738E-27 1.297E-27 9.962E-28 7.826E-28 6.260E-28 5.077E-28 4.158E-28 3.417E-28 2.778E-28 2.119E-28 0.000E+00 3.135E-26 1.225E-26 6.730E-27 4.258E-27 2.914E-27 2.100E-27 1.570E-27 1.208E-27 9.500E-28 7.602E-28 6.158E-28 5.016E-28 4.051E-28 3.074E-28 0.000E+00 3.792E-26 1.485E-26 8.179E-27 5.189E-27 3.561E-27 2.572E-27 1.928E-27 1.486E-27 1.170E-27 9.356E-28 7.546E-28 6.049E-28 4.566E-28 0.000E+00 4.647E-26 1.825E-26 1.008E-26 6.420E-27 4.419E-27 3.202E-27 2.406E-27 1.858E-27 1.464E-27 1.167E-27 9.279E-28 6.966E-28 0.000E+00 5.785E-26 2.278E-26 1.265E-26 8.084E-27 5.587E-27 4.062E-27 3.061E-27 2.368E-27 1.863E-27 1.467E-27 1.095E-27 0.000E+00 7.334E-26 2.899E-26 1.618E-26 1.039E-26 7.219E-27 5.272E-27 3.987E-27 3.085E-27 2.404E-27 1.783E-27 0.000E+00 9.501E-26 3.775E-26 2.120E-26 1.371E-26 9.581E-27 7.034E-27 5.334E-27 4.102E-27 3.024E-27 0.000E+00 1.264E-25 5.053E-26 2.861E-26 1.867E-26 1.315E-26 9.710E-27 7.348E-27 5.381E-27 0.000E+00 1.737E-25 7.002E-26 4.011E-26 2.646E-26 1.883E-26 1.395E-26 1.014E-26 0.000E+00 2.489E-25 1.015E-25 5.906E-26 3.959E-26 2.847E-26 2.049E-26 0.000E+00 3.771E-25 1.563E-25 9.305E-26 6.370E-26 4.521E-26 0.000E+00 6.169E-25 2.624E-25 1.618E-25 1.118E-25 0.000E+00 1.133E-24 5.030E-25 3.240E-25 0.000E+00 2.518E-24 1.203E-24 0.000E+00 8.105E-24 6.143E-23
1.000E+03 2 1.250E+04 B 182 25
0.000E+00 8.510E-27 3.289E-27 1.780E-27 1.110E-27 7.492E-28 5.330E-28 3.939E-28 2.998E-28 2.336E-28 1.856E-28 1.498E-28 1.226E-28 1.016E-28 8.496E-29 7.168E-29 6.092E-29 5.208E-29 4.473E-29 3.853E-29 3.320E-29 2.848E-29 2.407E-29 1.912E-29 0.000E+00 9.586E-27 3.709E-27 2.009E-27 1.254E-27 8.471E-28 6.031E-28 4.460E-28 3.397E-28 2.648E-28 2.105E-28 1.700E-28 1.391E-28 1.152E-28 9.638E-29 8.128E-29 6.901E-29 5.891E-29 5.046E-29 4.325E-29 3.693E-29 3.106E-29 2.457E-29 0.000E+00 1.086E-26 4.203E-27 2.280E-27 1.424E-27 9.630E-28 6.862E-28 5.079E-28 3.870E-28 3.019E-28 2.400E-28 1.939E-28 1.588E-28 1.315E-28 1.099E-28 9.264E-29 7.854E-29 6.687E-29 5.701E-29 4.844E-29 4.054E-29 3.191E-29 0.000E+00 1.236E-26 4.792E-27 2.602E-27 1.627E-27 1.101E-27 7.855E-28 5.819E-28 4.437E-28 3.463E-28 2.755E-28 2.226E-28 1.823E-28 1.510E-28 1.261E-28 1.061E-28 8.978E-29 7.609E-29 6.430E-29 5.355E-29 4.193E-29 0.000E+00 1.417E-26 5.496E-27 2.988E-27 1.871E-27 1.268E-27 9.053E-28 6.712E-28 5.122E-28 4.001E-28 3.184E-28 2.574E-28 2.108E-28 1.744E-28 1.456E-28 1.223E-28 1.030E-28 8.651E-29 7.166E-29 5.580E-29 0.000E+00 1.634E-26 6.348E-27 3.456E-27 2.167E-27 1.470E-27 1.051E-27 7.800E-28 5.958E-28 4.657E-28 3.708E-28 2.998E-28 2.455E-28 2.030E-28 1.691E-28 1.414E-28 1.181E-28 9.727E-29 7.532E-29 0.000E+00 1.900E-26 7.387E-27 4.028E-27 2.530E-27 1.719E-27 1.230E-27 9.140E-28 6.989E-28 5.467E-28 4.355E-28 3.522E-28 2.882E-28 2.380E-28 1.975E-28 1.638E-28 1.341E-28 1.033E-28 0.000E+00 2.226E-26 8.669E-27 4.736E-27 2.979E-27 2.028E-27 1.453E-27 1.081E-27 8.277E-28 6.479E-28 5.165E-28 4.176E-28 3.413E-28 2.809E-28 2.313E-28 1.882E-28 1.440E-28 0.000E+00 2.633E-26 1.027E-26 5.621E-27 3.544E-27 2.417E-27 1.735E-27 1.293E-27 9.907E-28 7.763E-28 6.190E-28 5.001E-28 4.076E-28 3.330E-28 2.691E-28 2.046E-28 0.000E+00 3.147E-26 1.229E-26 6.746E-27 4.263E-27 2.913E-27 2.096E-27 1.564E-27 1.201E-27 9.415E-28 7.506E-28 6.052E-28 4.901E-28 3.932E-28 2.970E-28 0.000E+00 3.805E-26 1.490E-26 8.198E-27 5.195E-27 3.560E-27 2.567E-27 1.920E-27 1.476E-27 1.158E-27 9.219E-28 7.392E-28 5.884E-28 4.415E-28 0.000E+00 4.664E-26 1.830E-26 1.011E-26 6.426E-27 4.417E-27 3.194E-27 2.394E-27 1.843E-27 1.446E-27 1.146E-27 9.046E-28 6.741E-28 0.000E+00 5.805E-26 2.285E-26 1.267E-26 8.090E-27 5.582E-27 4.050E-27 3.044E-27 2.346E-27 1.835E-27 1.434E-27 1.061E-27 0.000E+00 7.359E-26 2.908E-26 1.621E-26 1.040E-26 7.210E-27 5.253E-27 3.958E-27 3.048E-27 2.356E-27 1.731E-27 0.000E+00 9.533E-26 3.785E-26 2.124E-26 1.371E-26 9.564E-27 7.001E-27 5.285E-27 4.034E-27 2.942E-27 0.000E+00 1.268E-25 5.066E-26 2.866E-26 1.866E-26 1.311E-26 9.646E-27 7.249E-27 5.247E-27 0.000E+00 1.743E-25 7.021E-26 4.016E-26 2.644E-26 1.875E-26 1.381E-26 9.915E-27 0.000E+00 2.497E-25 1.018E-25 5.911E-26 3.951E-26 2.826E-26 2.010E-26 0.000E+00 3.782E-25 1.567E-25 9.306E-26 6.342E-26 4.451E-26 0.000E+00 6.188E-25 2.628E-25 1.615E-25 1.105E-25 0.000E+00 1.136E-24 5.033E-25 3.213E-25 0.000E+00 2.524E-24 1.198E-24 0.000E+00 8.101E-24 6.150E-23
1.000E+04 2 1.250E+04 B 124 25
0.000E+00 8.815E-27 3.373E-27 1.811E-27 1.122E-27 7.526E-28 5.326E-28 3.917E-28 2.968E-28 2.303E-28 1.822E-28 1.465E-28 1.195E-28 9.859E-29 8.217E-29 6.908E-29 5.851E-29 4.986E-29 4.269E-29 3.667E-29 3.152E-29 2.701E-29 2.282E-29 1.817E-29 0.000E+00 9.865E-27 3.786E-27 2.038E-27 1.265E-27 8.500E-28 6.024E-28 4.436E-28 3.364E-28 2.612E-28 2.068E-28 1.663E-28 1.357E-28 1.119E-28 9.324E-29 7.834E-29 6.627E-29 5.637E-29 4.813E-29 4.114E-29 3.507E-29 2.947E-29 2.335E-29 0.000E+00 1.111E-26 4.275E-27 2.307E-27 1.434E-27 9.656E-28 6.852E-28 5.051E-28 3.834E-28 2.979E-28 2.359E-28 1.899E-28 1.548E-28 1.277E-28 1.063E-28 8.925E-29 7.537E-29 6.393E-29 5.433E-29 4.604E-29 3.849E-29 3.033E-29 0.000E+00 1.260E-26 4.860E-27 2.627E-27 1.637E-27 1.104E-27 7.841E-28 5.786E-28 4.396E-28 3.418E-28 2.708E-28 2.180E-28 1.778E-28 1.466E-28 1.219E-28 1.022E-28 8.605E-29 7.265E-29 6.120E-29 5.087E-29 3.986E-29 0.000E+00 1.439E-26 5.562E-27 3.013E-27 1.880E-27 1.270E-27 9.033E-28 6.673E-28 5.074E-28 3.948E-28 3.129E-28 2.519E-28 2.054E-28 1.692E-28 1.406E-28 1.175E-28 9.852E-29 8.247E-29 6.813E-29 5.307E-29 0.000E+00 1.656E-26 6.413E-27 3.481E-27 2.176E-27 1.472E-27 1.048E-27 7.753E-28 5.900E-28 4.594E-28 3.643E-28 2.932E-28 2.390E-28 1.967E-28 1.630E-28 1.356E-28 1.128E-28 9.257E-29 7.165E-29 0.000E+00 1.921E-26 7.453E-27 4.053E-27 2.538E-27 1.720E-27 1.227E-27 9.083E-28 6.919E-28 5.390E-28 4.276E-28 3.441E-28 2.802E-28 2.301E-28 1.899E-28 1.567E-28 1.278E-28 9.824E-29 0.000E+00 2.248E-26 8.738E-27 4.762E-27 2.988E-27 2.028E-27 1.449E-27 1.074E-27 8.190E-28 6.384E-28 5.065E-28 4.074E-28 3.311E-28 2.709E-28 2.218E-28 1.795E-28 1.370E-28 0.000E+00 2.656E-26 1.034E-26 5.650E-27 3.553E-27 2.416E-27 1.729E-27 1.283E-27 9.797E-28 7.641E-28 6.061E-28 4.869E-28 3.944E-28 3.201E-28 2.571E-28 1.948E-28 0.000E+00 3.172E-26 1.238E-26 6.777E-27 4.272E-27 2.911E-27 2.087E-27 1.552E-27 1.186E-27 9.255E-28 7.336E-28 5.876E-28 4.725E-28 3.764E-28 2.829E-28 0.000E+00 3.833E-26 1.499E-26 8.233E-27 5.204E-27 3.556E-27 2.555E-27 1.903E-27 1.456E-27 1.136E-27 8.985E-28 7.150E-28 5.645E-28 4.209E-28 0.000E+00 4.696E-26 1.841E-26 1.015E-26 6.436E-27 4.410E-27 3.177E-27 2.371E-27 1.815E-27 1.415E-27 1.113E-27 8.703E-28 6.435E-28 0.000E+00 5.843E-26 2.298E-26 1.272E-26 8.099E-27 5.570E-27 4.025E-27 3.010E-27 2.305E-27 1.788E-27 1.384E-27 1.015E-27 0.000E+00 7.405E-26 2.924E-26 1.626E-26 1.041E-26 7.189E-27 5.213E-27 3.905E-27 2.983E-27 2.283E-27 1.658E-27 0.000E+00 9.592E-26 3.805E-26 2.130E-26 1.372E-26 9.526E-27 6.934E-27 5.195E-27 3.923E-27 2.825E-27 0.000E+00 1.276E-25 5.091E-26 2.874E-26 1.865E-26 1.304E-26 9.525E-27 7.082E-27 5.053E-27 0.000E+00 1.753E-25 7.053E-26 4.024E-26 2.639E-26 1.860E-26 1.356E-26 9.583E-27 0.000E+00 2.512E-25 1.022E-25 5.918E-26 3.935E-26 2.789E-26 1.951E-26 0.000E+00 3.804E-25 1.573E-25 9.304E-26 6.289E-26 4.341E-26 0.000E+00 6.223E-25 2.636E-25 1.609E-25 1.084E-25 0.000E+00 1.142E-24 5.036E-25 3.169E-25 0.000E+00 2.535E-24 1.189E-24 0.000E+00 8.095E-24 6.198E-23
1.000E+05 2 1.250E+04 B 87 25
0.000E+00 1.059E-26 3.883E-27 1.981E-27 1.179E-27 7.673E-28 5.306E-28 3.833E-28 2.863E-28 2.196E-28 1.721E-28 1.374E-28 1.113E-28 9.138E-29 7.585E-29 6.356E-29 5.370E-29 4.568E-29 3.907E-29 3.355E-29 2.886E-29 2.476E-29 2.096E-29 1.675E-29 0.000E+00 1.149E-26 4.253E-27 2.195E-27 1.317E-27 8.627E-28 5.993E-28 4.344E-28 3.253E-28 2.500E-28 1.962E-28 1.567E-28 1.271E-28 1.043E-28 8.655E-29 7.248E-29 6.116E-29 5.193E-29 4.429E-29 3.785E-29 3.228E-29 2.717E-29 2.160E-29 0.000E+00 1.259E-26 4.699E-27 2.450E-27 1.482E-27 9.763E-28 6.810E-28 4.952E-28 3.716E-28 2.861E-28 2.248E-28 1.797E-28 1.457E-28 1.196E-28 9.918E-29 8.296E-29 6.988E-29 5.916E-29 5.021E-29 4.255E-29 3.560E-29 2.813E-29 0.000E+00 1.394E-26 5.240E-27 2.757E-27 1.679E-27 1.112E-27 7.788E-28 5.679E-28 4.271E-28 3.292E-28 2.589E-28 2.071E-28 1.679E-28 1.378E-28 1.141E-28 9.531E-29 8.005E-29 6.745E-29 5.676E-29 4.719E-29 3.705E-29 0.000E+00 1.560E-26 5.901E-27 3.130E-27 1.918E-27 1.276E-27 8.968E-28 6.556E-28 4.940E-28 3.813E-28 3.001E-28 2.400E-28 1.946E-28 1.595E-28 1.319E-28 1.099E-28 9.185E-29 7.673E-29 6.335E-29 4.941E-29 0.000E+00 1.765E-26 6.715E-27 3.586E-27 2.209E-27 1.476E-27 1.040E-27 7.623E-28 5.753E-28 4.445E-28 3.501E-28 2.800E-28 2.269E-28 1.857E-28 1.532E-28 1.270E-28 1.053E-28 8.626E-29 6.680E-29 0.000E+00 2.019E-26 7.724E-27 4.148E-27 2.568E-27 1.722E-27 1.217E-27 8.936E-28 6.754E-28 5.223E-28 4.114E-28 3.290E-28 2.662E-28 2.174E-28 1.785E-28 1.467E-28 1.193E-28 9.171E-29 0.000E+00 2.337E-26 8.984E-27 4.848E-27 3.014E-27 2.028E-27 1.437E-27 1.057E-27 7.998E-28 6.189E-28 4.875E-28 3.895E-28 3.145E-28 2.558E-28 2.083E-28 1.680E-28 1.281E-28 0.000E+00 2.738E-26 1.057E-26 5.730E-27 3.575E-27 2.413E-27 1.714E-27 1.263E-27 9.567E-28 7.406E-28 5.831E-28 4.650E-28 3.741E-28 3.017E-28 2.411E-28 1.822E-28 0.000E+00 3.249E-26 1.260E-26 6.854E-27 4.292E-27 2.904E-27 2.068E-27 1.526E-27 1.157E-27 8.961E-28 7.046E-28 5.600E-28 4.469E-28 3.537E-28 2.649E-28 0.000E+00 3.908E-26 1.521E-26 8.309E-27 5.221E-27 3.544E-27 2.529E-27 1.870E-27 1.419E-27 1.098E-27 8.607E-28 6.790E-28 5.320E-28 3.946E-28 0.000E+00 4.773E-26 1.864E-26 1.023E-26 6.449E-27 4.391E-27 3.141E-27 2.326E-27 1.765E-27 1.363E-27 1.062E-27 8.226E-28 6.040E-28 0.000E+00 5.926E-26 2.323E-26 1.280E-26 8.107E-27 5.539E-27 3.973E-27 2.946E-27 2.234E-27 1.715E-27 1.313E-27 9.538E-28 0.000E+00 7.500E-26 2.953E-26 1.635E-26 1.041E-26 7.140E-27 5.135E-27 3.809E-27 2.877E-27 2.174E-27 1.562E-27 0.000E+00 9.705E-26 3.840E-26 2.140E-26 1.370E-26 9.443E-27 6.809E-27 5.042E-27 3.756E-27 2.667E-27 0.000E+00 1.290E-25 5.135E-26 2.885E-26 1.860E-26 1.289E-26 9.308E-27 6.820E-27 4.787E-27 0.000E+00 1.772E-25 7.110E-26 4.035E-26 2.626E-26 1.831E-26 1.314E-26 9.115E-27 0.000E+00 2.538E-25 1.029E-25 5.925E-26 3.902E-26 2.724E-26 1.866E-26 0.000E+00 3.843E-25 1.582E-25 9.289E-26 6.193E-26 4.177E-26 0.000E+00 6.284E-25 2.648E-25 1.597E-25 1.051E-25 0.000E+00 1.152E-24 5.038E-25 3.099E-25 0.000E+00 2.554E-24 1.174E-24 0.000E+00 8.088E-24 6.534E-23
1.000E+06 2 1.250E+04 B 59 25
0.000E+00 1.653E-26 5.406E-27 2.469E-27 1.348E-27 8.219E-28 5.404E-28 3.753E-28 2.718E-28 2.034E-28 1.563E-28 1.227E-28 9.813E-29 7.970E-29 6.560E-29 5.461E-29 4.590E-29 3.891E-29 3.320E-29 2.848E-29 2.450E-29 2.106E-29 1.789E-29 1.438E-29 0.000E+00 1.757E-26 5.823E-27 2.693E-27 1.484E-27 9.122E-28 6.035E-28 4.213E-28 3.063E-28 2.300E-28 1.772E-28 1.394E-28 1.117E-28 9.085E-29 7.485E-29 6.234E-29 5.240E-29 4.439E-29 3.782E-29 3.234E-29 2.763E-29 2.335E-29 1.867E-29 0.000E+00 1.870E-26 6.291E-27 2.950E-27 1.644E-27 1.019E-27 6.790E-28 4.766E-28 3.480E-28 2.622E-28 2.025E-28 1.597E-28 1.282E-28 1.044E-28 8.603E-29 7.166E-29 6.021E-29 5.092E-29 4.324E-29 3.671E-29 3.083E-29 2.451E-29 0.000E+00 1.995E-26 6.826E-27 3.251E-27 1.834E-27 1.148E-27 7.701E-28 5.435E-28 3.986E-28 3.013E-28 2.334E-28 1.844E-28 1.482E-28 1.208E-28 9.959E-29 8.290E-29 6.954E-29 5.860E-29 4.940E-29 4.122E-29 3.256E-29 0.000E+00 2.140E-26 7.452E-27 3.609E-27 2.063E-27 1.304E-27 8.812E-28 6.255E-28 4.607E-28 3.494E-28 2.713E-28 2.147E-28 1.727E-28 1.408E-28 1.160E-28 9.642E-29 8.058E-29 6.740E-29 5.583E-29 4.379E-29 0.000E+00 2.314E-26 8.202E-27 4.043E-27 2.342E-27 1.495E-27 1.018E-27 7.265E-28 5.373E-28 4.087E-28 3.180E-28 2.520E-28 2.028E-28 1.652E-28 1.359E-28 1.125E-28 9.332E-29 7.667E-29 5.967E-29 0.000E+00 2.529E-26 9.119E-27 4.575E-27 2.687E-27 1.732E-27 1.188E-27 8.520E-28 6.326E-28 4.824E-28 3.759E-28 2.981E-28 2.398E-28 1.950E-28 1.598E-28 1.313E-28 1.069E-28 8.248E-29 0.000E+00 2.802E-26 1.027E-26 5.240E-27 3.117E-27 2.028E-27 1.400E-27 1.009E-27 7.519E-28 5.746E-28 4.482E-28 3.553E-28 2.853E-28 2.311E-28 1.879E-28 1.515E-28 1.158E-28 0.000E+00 3.157E-26 1.173E-26 6.083E-27 3.663E-27 2.403E-27 1.670E-27 1.209E-27 9.029E-28 6.909E-28 5.390E-28 4.267E-28 3.413E-28 2.743E-28 2.189E-28 1.657E-28 0.000E+00 3.623E-26 1.362E-26 7.167E-27 4.362E-27 2.885E-27 2.015E-27 1.464E-27 1.096E-27 8.392E-28 6.539E-28 5.158E-28 4.094E-28 3.230E-28 2.418E-28 0.000E+00 4.242E-26 1.611E-26 8.583E-27 5.275E-27 3.512E-27 2.465E-27 1.796E-27 1.346E-27 1.030E-27 8.003E-28 6.266E-28 4.882E-28 3.613E-28 0.000E+00 5.072E-26 1.944E-26 1.047E-26 6.484E-27 4.343E-27 3.061E-27 2.236E-27 1.676E-27 1.279E-27 9.868E-28 7.587E-28 5.546E-28 0.000E+00 6.201E-26 2.397E-26 1.302E-26 8.121E-27 5.469E-27 3.867E-27 2.828E-27 2.117E-27 1.606E-27 1.217E-27 8.781E-28 0.000E+00 7.762E-26 3.024E-26 1.655E-26 1.039E-26 7.033E-27 4.987E-27 3.647E-27 2.716E-27 2.027E-27 1.442E-27 0.000E+00 9.973E-26 3.914E-26 2.158E-26 1.364E-26 9.275E-27 6.589E-27 4.803E-27 3.523E-27 2.469E-27 0.000E+00 1.320E-25 5.217E-26 2.901E-26 1.847E-26 1.261E-26 8.953E-27 6.443E-27 4.447E-27 0.000E+00 1.808E-25 7.207E-26 4.048E-26 2.598E-26 1.780E-26 1.252E-26 8.507E-27 0.000E+00 2.586E-25 1.042E-25 5.925E-26 3.838E-26 2.622E-26 1.751E-26 0.000E+00 3.911E-25 1.598E-25 9.245E-26 6.030E-26 3.951E-26 0.000E+00 6.390E-25 2.665E-25 1.575E-25 1.003E-25 0.000E+00 1.170E-24 5.037E-25 2.995E-25 0.000E+00 2.584E-24 1.151E-24 0.000E+00 8.084E-24 7.707E-23
1.000E+07 2 1.250E+04 B 50 25
0.000E+00 2.276E-26 7.054E-27 3.061E-27 1.600E-27 9.403E-28 5.995E-28 4.057E-28 2.873E-28 2.109E-28 1.594E-28 1.234E-28 9.740E-29 7.822E-29 6.373E-29 5.257E-29 4.383E-29 3.688E-29 3.127E-29 2.667E-29 2.282E-29 1.952E-29 1.652E-29 1.323E-29 0.000E+00 2.473E-26 7.686E-27 3.345E-27 1.752E-27 1.032E-27 6.593E-28 4.469E-28 3.169E-28 2.329E-28 1.762E-28 1.365E-28 1.078E-28 8.661E-29 7.059E-29 5.823E-29 4.854E-29 4.081E-29 3.454E-29 2.937E-29 2.496E-29 2.101E-29 1.675E-29 0.000E+00 2.695E-26 8.408E-27 3.673E-27 1.930E-27 1.140E-27 7.299E-28 4.957E-28 3.522E-28 2.592E-28 1.963E-28 1.522E-28 1.203E-28 9.675E-29 7.887E-29 6.506E-29 5.420E-29 4.551E-29 3.841E-29 3.244E-29 2.714E-29 2.152E-29 0.000E+00 2.944E-26 9.228E-27 4.050E-27 2.137E-27 1.267E-27 8.138E-28 5.541E-28 3.945E-28 2.909E-28 2.207E-28 1.713E-28 1.356E-28 1.091E-28 8.895E-29 7.336E-29 6.105E-29 5.111E-29 4.287E-29 3.563E-29 2.810E-29 0.000E+00 3.219E-26 1.016E-26 4.487E-27 2.381E-27 1.418E-27 9.143E-28 6.246E-28 4.460E-28 3.296E-28 2.505E-28 1.948E-28 1.544E-28 1.243E-28 1.013E-28 8.350E-29 6.932E-29 5.769E-29 4.763E-29 3.733E-29 0.000E+00 3.522E-26 1.121E-26 4.994E-27 2.669E-27 1.599E-27 1.036E-27 7.108E-28 5.092E-28 3.775E-28 2.875E-28 2.240E-28 1.777E-28 1.431E-28 1.167E-28 9.594E-29 7.918E-29 6.489E-29 5.052E-29 0.000E+00 3.854E-26 1.241E-26 5.588E-27 3.014E-27 1.819E-27 1.186E-27 8.177E-28 5.882E-28 4.374E-28 3.341E-28 2.608E-28 2.071E-28 1.668E-28 1.357E-28 1.110E-28 9.023E-29 6.974E-29 0.000E+00 4.219E-26 1.378E-26 6.293E-27 3.433E-27 2.091E-27 1.373E-27 9.525E-28 6.884E-28 5.139E-28 3.936E-28 3.077E-28 2.445E-28 1.966E-28 1.592E-28 1.282E-28 9.829E-29 0.000E+00 4.626E-26 1.539E-26 7.148E-27 3.953E-27 2.434E-27 1.612E-27 1.126E-27 8.178E-28 6.127E-28 4.704E-28 3.682E-28 2.922E-28 2.338E-28 1.864E-28 1.416E-28 0.000E+00 5.098E-26 1.733E-26 8.211E-27 4.614E-27 2.876E-27 1.923E-27 1.352E-27 9.871E-28 7.422E-28 5.707E-28 4.463E-28 3.525E-28 2.778E-28 2.087E-28 0.000E+00 5.674E-26 1.974E-26 9.572E-27 5.475E-27 3.458E-27 2.334E-27 1.652E-27 1.212E-27 9.131E-28 7.019E-28 5.461E-28 4.246E-28 3.151E-28 0.000E+00 6.418E-26 2.288E-26 1.137E-26 6.622E-27 4.238E-27 2.887E-27 2.056E-27 1.513E-27 1.140E-27 8.720E-28 6.678E-28 4.885E-28 0.000E+00 7.432E-26 2.711E-26 1.380E-26 8.188E-27 5.306E-27 3.644E-27 2.607E-27 1.920E-27 1.440E-27 1.084E-27 7.805E-28 0.000E+00 8.869E-26 3.302E-26 1.720E-26 1.038E-26 6.800E-27 4.701E-27 3.370E-27 2.472E-27 1.825E-27 1.291E-27 0.000E+00 1.097E-25 4.158E-26 2.210E-26 1.353E-26 8.944E-27 6.207E-27 4.439E-27 3.208E-27 2.226E-27 0.000E+00 1.411E-25 5.435E-26 2.938E-26 1.820E-26 1.212E-26 8.407E-27 5.932E-27 4.034E-27 0.000E+00 1.898E-25 7.416E-26 4.067E-26 2.545E-26 1.699E-26 1.167E-26 7.764E-27 0.000E+00 2.685E-25 1.063E-25 5.913E-26 3.729E-26 2.476E-26 1.610E-26 0.000E+00 4.037E-25 1.622E-25 9.152E-26 5.786E-26 3.664E-26 0.000E+00 6.574E-25 2.689E-25 1.540E-25 9.413E-26 0.000E+00 1.200E-24 5.028E-25 2.854E-25 0.000E+00 2.635E-24 1.120E-24 0.000E+00 8.095E-24 8.592E-23
1.000E+08 2 1.250E+04 B 50 25
0.000E+00 3.191E-26 9.801E-27 4.216E-27 2.185E-27 1.275E-27 8.080E-28 5.437E-28 3.831E-28 2.800E-28 2.107E-28 1.624E-28 1.278E-28 1.023E-28 8.310E-29 6.836E-29 5.684E-29 4.770E-29 4.034E-29 3.432E-29 2.930E-29 2.501E-29 2.111E-29 1.687E-29 0.000E+00 3.414E-26 1.049E-26 4.512E-27 2.340E-27 1.366E-27 8.655E-28 5.825E-28 4.105E-28 3.000E-28 2.258E-28 1.741E-28 1.369E-28 1.096E-28 8.897E-29 7.315E-29 6.078E-29 5.094E-29 4.299E-29 3.644E-29 3.089E-29 2.592E-29 2.061E-29 0.000E+00 3.658E-26 1.124E-26 4.841E-27 2.511E-27 1.466E-27 9.295E-28 6.257E-28 4.411E-28 3.223E-28 2.426E-28 1.870E-28 1.471E-28 1.177E-28 9.551E-29 7.846E-29 6.510E-29 5.446E-29 4.579E-29 3.854E-29 3.214E-29 2.540E-29 0.000E+00 3.938E-26 1.211E-26 5.217E-27 2.708E-27 1.582E-27 1.003E-27 6.756E-28 4.763E-28 3.482E-28 2.620E-28 2.020E-28 1.588E-28 1.270E-28 1.030E-28 8.453E-29 7.000E-29 5.835E-29 4.873E-29 4.034E-29 3.168E-29 0.000E+00 4.266E-26 1.313E-26 5.663E-27 2.942E-27 1.720E-27 1.091E-27 7.352E-28 5.185E-28 3.791E-28 2.853E-28 2.199E-28 1.729E-28 1.382E-28 1.120E-28 9.169E-29 7.567E-29 6.264E-29 5.145E-29 4.013E-29 0.000E+00 4.662E-26 1.437E-26 6.205E-27 3.227E-27 1.888E-27 1.199E-27 8.084E-28 5.704E-28 4.172E-28 3.140E-28 2.420E-28 1.902E-28 1.519E-28 1.228E-28 1.003E-28 8.220E-29 6.694E-29 5.180E-29 0.000E+00 5.142E-26 1.588E-26 6.870E-27 3.578E-27 2.097E-27 1.333E-27 8.997E-28 6.353E-28 4.649E-28 3.500E-28 2.697E-28 2.118E-28 1.689E-28 1.362E-28 1.104E-28 8.909E-29 6.836E-29 0.000E+00 5.724E-26 1.773E-26 7.689E-27 4.015E-27 2.358E-27 1.501E-27 1.015E-27 7.172E-28 5.252E-28 3.955E-28 3.047E-28 2.391E-28 1.901E-28 1.523E-28 1.216E-28 9.246E-29 0.000E+00 6.422E-26 1.997E-26 8.697E-27 4.557E-27 2.684E-27 1.713E-27 1.160E-27 8.213E-28 6.021E-28 4.536E-28 3.493E-28 2.734E-28 2.162E-28 1.706E-28 1.284E-28 0.000E+00 7.253E-26 2.269E-26 9.938E-27 5.234E-27 3.096E-27 1.983E-27 1.347E-27 9.555E-28 7.014E-28 5.286E-28 4.065E-28 3.166E-28 2.467E-28 1.837E-28 0.000E+00 8.230E-26 2.597E-26 1.148E-26 6.088E-27 3.623E-27 2.333E-27 1.590E-27 1.132E-27 8.319E-28 6.269E-28 4.801E-28 3.688E-28 2.715E-28 0.000E+00 9.376E-26 2.997E-26 1.340E-26 7.186E-27 4.313E-27 2.796E-27 1.916E-27 1.368E-27 1.007E-27 7.569E-28 5.724E-28 4.158E-28 0.000E+00 1.073E-25 3.491E-26 1.589E-26 8.640E-27 5.245E-27 3.430E-27 2.365E-27 1.695E-27 1.246E-27 9.259E-28 6.627E-28 0.000E+00 1.237E-25 4.123E-26 1.920E-26 1.064E-26 6.551E-27 4.328E-27 3.003E-27 2.153E-27 1.567E-27 1.103E-27 0.000E+00 1.451E-25 4.977E-26 2.385E-26 1.351E-26 8.450E-27 5.637E-27 3.924E-27 2.788E-27 1.922E-27 0.000E+00 1.753E-25 6.206E-26 3.072E-26 1.782E-26 1.131E-26 7.593E-27 5.244E-27 3.528E-27 0.000E+00 2.217E-25 8.099E-26 4.144E-26 2.457E-26 1.576E-26 1.052E-26 6.879E-27 0.000E+00 2.985E-25 1.122E-25 5.911E-26 3.562E-26 2.281E-26 1.444E-26 0.000E+00 4.339E-25 1.672E-25 9.013E-26 5.455E-26 3.329E-26 0.000E+00 6.929E-25 2.729E-25 1.490E-25 8.680E-26 0.000E+00 1.252E-24 5.018E-25 2.683E-25 0.000E+00 2.720E-24 1.082E-24 0.000E+00 8.154E-24 8.977E-23
1.000E+02 2 1.500E+04 B 245 25
0.000E+00 7.371E-27 2.812E-27 1.503E-27 9.263E-28 6.195E-28 4.373E-28 3.211E-28 2.431E-28 1.886E-28 1.494E-28 1.203E-28 9.824E-29 8.125E-29 6.792E-29 5.729E-29 4.870E-29 4.166E-29 3.582E-29 3.089E-29 2.665E-29 2.288E-29 1.932E-29 1.528E-29 0.000E+00 8.313E-27 3.173E-27 1.697E-27 1.047E-27 7.005E-28 4.948E-28 3.636E-28 2.754E-28 2.138E-28 1.693E-28 1.364E-28 1.114E-28 9.217E-29 7.703E-29 6.496E-29 5.518E-29 4.714E-29 4.042E-29 3.470E-29 2.966E-29 2.494E-29 1.964E-29 0.000E+00 9.424E-27 3.599E-27 1.926E-27 1.189E-27 7.965E-28 5.630E-28 4.139E-28 3.137E-28 2.436E-28 1.931E-28 1.555E-28 1.271E-28 1.051E-28 8.786E-29 7.404E-29 6.281E-29 5.354E-29 4.571E-29 3.888E-29 3.255E-29 2.552E-29 0.000E+00 1.074E-26 4.106E-27 2.199E-27 1.359E-27 9.110E-28 6.445E-28 4.741E-28 3.596E-28 2.794E-28 2.215E-28 1.785E-28 1.459E-28 1.207E-28 1.008E-28 8.485E-29 7.183E-29 6.097E-29 5.160E-29 4.300E-29 3.355E-29 0.000E+00 1.232E-26 4.713E-27 2.527E-27 1.563E-27 1.049E-27 7.426E-28 5.468E-28 4.149E-28 3.226E-28 2.559E-28 2.063E-28 1.686E-28 1.394E-28 1.164E-28 9.777E-29 8.244E-29 6.938E-29 5.753E-29 4.467E-29 0.000E+00 1.423E-26 5.446E-27 2.924E-27 1.811E-27 1.216E-27 8.619E-28 6.352E-28 4.824E-28 3.754E-28 2.978E-28 2.402E-28 1.964E-28 1.623E-28 1.352E-28 1.132E-28 9.466E-29 7.807E-29 6.032E-29 0.000E+00 1.655E-26 6.341E-27 3.409E-27 2.114E-27 1.422E-27 1.009E-27 7.441E-28 5.656E-28 4.404E-28 3.496E-28 2.821E-28 2.305E-28 1.902E-28 1.580E-28 1.312E-28 1.076E-28 8.271E-29 0.000E+00 1.941E-26 7.445E-27 4.008E-27 2.490E-27 1.677E-27 1.191E-27 8.797E-28 6.695E-28 5.217E-28 4.144E-28 3.343E-28 2.729E-28 2.246E-28 1.852E-28 1.509E-28 1.154E-28 0.000E+00 2.298E-26 8.823E-27 4.759E-27 2.962E-27 1.998E-27 1.421E-27 1.051E-27 8.008E-28 6.245E-28 4.963E-28 4.002E-28 3.259E-28 2.665E-28 2.157E-28 1.640E-28 0.000E+00 2.748E-26 1.057E-26 5.712E-27 3.562E-27 2.407E-27 1.716E-27 1.271E-27 9.695E-28 7.568E-28 6.014E-28 4.841E-28 3.921E-28 3.150E-28 2.380E-28 0.000E+00 3.325E-26 1.281E-26 6.942E-27 4.340E-27 2.940E-27 2.100E-27 1.558E-27 1.190E-27 9.297E-28 7.382E-28 5.914E-28 4.712E-28 3.538E-28 0.000E+00 4.078E-26 1.575E-26 8.558E-27 5.366E-27 3.645E-27 2.610E-27 1.941E-27 1.485E-27 1.160E-27 9.175E-28 7.242E-28 5.401E-28 0.000E+00 5.080E-26 1.967E-26 1.073E-26 6.751E-27 4.602E-27 3.305E-27 2.464E-27 1.887E-27 1.470E-27 1.148E-27 8.504E-28 0.000E+00 6.445E-26 2.503E-26 1.372E-26 8.671E-27 5.935E-27 4.278E-27 3.197E-27 2.447E-27 1.887E-27 1.387E-27 0.000E+00 8.356E-26 3.259E-26 1.796E-26 1.142E-26 7.856E-27 5.687E-27 4.257E-27 3.234E-27 2.357E-27 0.000E+00 1.112E-25 4.361E-26 2.421E-26 1.551E-26 1.074E-26 7.810E-27 5.823E-27 4.204E-27 0.000E+00 1.530E-25 6.039E-26 3.386E-26 2.190E-26 1.529E-26 1.113E-26 7.948E-27 0.000E+00 2.193E-25 8.743E-26 4.969E-26 3.257E-26 2.292E-26 1.614E-26 0.000E+00 3.321E-25 1.343E-25 7.783E-26 5.189E-26 3.584E-26 0.000E+00 5.429E-25 2.243E-25 1.339E-25 8.944E-26 0.000E+00 9.942E-25 4.255E-25 2.624E-25 0.000E+00 2.195E-24 9.932E-25 0.000E+00 6.915E-24 5.293E-23
1.000E+03 2 1.500E+04 B 182 25
0.000E+00 7.416E-27 2.826E-27 1.508E-27 9.282E-28 6.199E-28 4.370E-28 3.204E-28 2.422E-28 1.877E-28 1.483E-28 1.192E-28 9.719E-29 8.021E-29 6.689E-29 5.628E-29 4.772E-29 4.071E-29 3.489E-29 3.000E-29 2.581E-29 2.212E-29 1.867E-29 1.482E-29 0.000E+00 8.358E-27 3.187E-27 1.702E-27 1.049E-27 7.009E-28 4.944E-28 3.628E-28 2.744E-28 2.126E-28 1.681E-28 1.352E-28 1.102E-28 9.095E-29 7.583E-29 6.377E-29 5.401E-29 4.600E-29 3.932E-29 3.365E-29 2.869E-29 2.410E-29 1.904E-29 0.000E+00 9.469E-27 3.614E-27 1.932E-27 1.191E-27 7.968E-28 5.625E-28 4.130E-28 3.125E-28 2.423E-28 1.917E-28 1.541E-28 1.257E-28 1.037E-28 8.642E-29 7.262E-29 6.141E-29 5.216E-29 4.438E-29 3.764E-29 3.146E-29 2.473E-29 0.000E+00 1.079E-26 4.121E-27 2.205E-27 1.361E-27 9.113E-28 6.438E-28 4.730E-28 3.582E-28 2.779E-28 2.198E-28 1.768E-28 1.442E-28 1.189E-28 9.906E-29 8.312E-29 7.012E-29 5.929E-29 5.000E-29 4.157E-29 3.251E-29 0.000E+00 1.237E-26 4.729E-27 2.533E-27 1.566E-27 1.049E-27 7.418E-28 5.454E-28 4.133E-28 3.208E-28 2.539E-28 2.042E-28 1.665E-28 1.373E-28 1.142E-28 9.562E-29 8.031E-29 6.732E-29 5.565E-29 4.327E-29 0.000E+00 1.428E-26 5.463E-27 2.930E-27 1.813E-27 1.216E-27 8.609E-28 6.335E-28 4.804E-28 3.731E-28 2.954E-28 2.377E-28 1.937E-28 1.596E-28 1.325E-28 1.104E-28 9.198E-29 7.558E-29 5.842E-29 0.000E+00 1.661E-26 6.360E-27 3.416E-27 2.117E-27 1.422E-27 1.007E-27 7.420E-28 5.631E-28 4.376E-28 3.466E-28 2.789E-28 2.272E-28 1.868E-28 1.545E-28 1.277E-28 1.043E-28 8.010E-29 0.000E+00 1.947E-26 7.466E-27 4.017E-27 2.493E-27 1.677E-27 1.189E-27 8.771E-28 6.663E-28 5.181E-28 4.105E-28 3.301E-28 2.686E-28 2.201E-28 1.806E-28 1.464E-28 1.117E-28 0.000E+00 2.305E-26 8.848E-27 4.768E-27 2.964E-27 1.997E-27 1.419E-27 1.048E-27 7.967E-28 6.199E-28 4.912E-28 3.947E-28 3.201E-28 2.604E-28 2.096E-28 1.588E-28 0.000E+00 2.756E-26 1.060E-26 5.723E-27 3.565E-27 2.407E-27 1.713E-27 1.266E-27 9.641E-28 7.506E-28 5.945E-28 4.765E-28 3.839E-28 3.066E-28 2.307E-28 0.000E+00 3.335E-26 1.284E-26 6.954E-27 4.343E-27 2.938E-27 2.095E-27 1.552E-27 1.183E-27 9.210E-28 7.283E-28 5.804E-28 4.595E-28 3.431E-28 0.000E+00 4.090E-26 1.579E-26 8.573E-27 5.369E-27 3.642E-27 2.604E-27 1.932E-27 1.474E-27 1.147E-27 9.028E-28 7.077E-28 5.244E-28 0.000E+00 5.095E-26 1.971E-26 1.075E-26 6.754E-27 4.597E-27 3.295E-27 2.450E-27 1.870E-27 1.451E-27 1.125E-27 8.265E-28 0.000E+00 6.463E-26 2.509E-26 1.374E-26 8.673E-27 5.927E-27 4.263E-27 3.176E-27 2.420E-27 1.853E-27 1.350E-27 0.000E+00 8.379E-26 3.266E-26 1.798E-26 1.142E-26 7.841E-27 5.662E-27 4.221E-27 3.185E-27 2.298E-27 0.000E+00 1.115E-25 4.370E-26 2.424E-26 1.550E-26 1.071E-26 7.762E-27 5.751E-27 4.109E-27 0.000E+00 1.534E-25 6.052E-26 3.389E-26 2.188E-26 1.523E-26 1.103E-26 7.790E-27 0.000E+00 2.199E-25 8.760E-26 4.971E-26 3.250E-26 2.276E-26 1.586E-26 0.000E+00 3.330E-25 1.345E-25 7.782E-26 5.167E-26 3.534E-26 0.000E+00 5.443E-25 2.246E-25 1.336E-25 8.848E-26 0.000E+00 9.965E-25 4.256E-25 2.604E-25 0.000E+00 2.199E-24 9.891E-25 0.000E+00 6.912E-24 5.299E-23
1.000E+04 2 1.500E+04 B 131 25
0.000E+00 7.652E-27 2.887E-27 1.529E-27 9.354E-28 6.214E-28 4.360E-28 3.184E-28 2.398E-28 1.851E-28 1.458E-28 1.168E-28 9.490E-29 7.806E-29 6.489E-29 5.442E-29 4.600E-29 3.912E-29 3.344E-29 2.869E-29 2.463E-29 2.108E-29 1.779E-29 1.416E-29 0.000E+00 8.573E-27 3.243E-27 1.721E-27 1.055E-27 7.021E-28 4.933E-28 3.606E-28 2.717E-28 2.099E-28 1.654E-28 1.325E-28 1.077E-28 8.855E-29 7.358E-29 6.167E-29 5.206E-29 4.420E-29 3.767E-29 3.216E-29 2.737E-29 2.298E-29 1.819E-29 0.000E+00 9.666E-27 3.666E-27 1.950E-27 1.197E-27 7.978E-28 5.611E-28 4.105E-28 3.096E-28 2.393E-28 1.886E-28 1.511E-28 1.228E-28 1.010E-28 8.385E-29 7.020E-29 5.916E-29 5.008E-29 4.249E-29 3.596E-29 3.002E-29 2.364E-29 0.000E+00 1.097E-26 4.170E-27 2.222E-27 1.367E-27 9.119E-28 6.421E-28 4.702E-28 3.549E-28 2.744E-28 2.164E-28 1.734E-28 1.409E-28 1.158E-28 9.605E-29 8.028E-29 6.747E-29 5.686E-29 4.782E-29 3.969E-29 3.107E-29 0.000E+00 1.254E-26 4.776E-27 2.550E-27 1.571E-27 1.049E-27 7.397E-28 5.422E-28 4.095E-28 3.168E-28 2.498E-28 2.002E-28 1.626E-28 1.336E-28 1.106E-28 9.223E-29 7.716E-29 6.446E-29 5.317E-29 4.136E-29 0.000E+00 1.444E-26 5.510E-27 2.947E-27 1.818E-27 1.216E-27 8.583E-28 6.297E-28 4.760E-28 3.684E-28 2.906E-28 2.329E-28 1.891E-28 1.550E-28 1.281E-28 1.063E-28 8.821E-29 7.227E-29 5.585E-29 0.000E+00 1.677E-26 6.407E-27 3.433E-27 2.122E-27 1.421E-27 1.004E-27 7.374E-28 5.578E-28 4.319E-28 3.408E-28 2.730E-28 2.214E-28 1.812E-28 1.491E-28 1.227E-28 9.981E-29 7.659E-29 0.000E+00 1.964E-26 7.515E-27 4.034E-27 2.497E-27 1.675E-27 1.185E-27 8.714E-28 6.597E-28 5.110E-28 4.032E-28 3.228E-28 2.613E-28 2.130E-28 1.738E-28 1.403E-28 1.069E-28 0.000E+00 2.322E-26 8.900E-27 4.787E-27 2.969E-27 1.995E-27 1.414E-27 1.040E-27 7.883E-28 6.109E-28 4.819E-28 3.852E-28 3.107E-28 2.512E-28 2.011E-28 1.520E-28 0.000E+00 2.774E-26 1.065E-26 5.743E-27 3.570E-27 2.404E-27 1.706E-27 1.257E-27 9.532E-28 7.388E-28 5.822E-28 4.639E-28 3.714E-28 2.947E-28 2.208E-28 0.000E+00 3.355E-26 1.291E-26 6.977E-27 4.348E-27 2.934E-27 2.086E-27 1.539E-27 1.168E-27 9.051E-28 7.114E-28 5.631E-28 4.425E-28 3.287E-28 0.000E+00 4.113E-26 1.586E-26 8.598E-27 5.373E-27 3.635E-27 2.590E-27 1.915E-27 1.454E-27 1.124E-27 8.787E-28 6.833E-28 5.028E-28 0.000E+00 5.122E-26 1.980E-26 1.077E-26 6.757E-27 4.586E-27 3.276E-27 2.425E-27 1.840E-27 1.417E-27 1.089E-27 7.936E-28 0.000E+00 6.496E-26 2.520E-26 1.377E-26 8.673E-27 5.908E-27 4.232E-27 3.136E-27 2.373E-27 1.800E-27 1.298E-27 0.000E+00 8.421E-26 3.280E-26 1.802E-26 1.141E-26 7.810E-27 5.611E-27 4.155E-27 3.105E-27 2.215E-27 0.000E+00 1.121E-25 4.387E-26 2.428E-26 1.548E-26 1.065E-26 7.671E-27 5.631E-27 3.972E-27 0.000E+00 1.541E-25 6.074E-26 3.394E-26 2.183E-26 1.512E-26 1.084E-26 7.553E-27 0.000E+00 2.209E-25 8.789E-26 4.975E-26 3.237E-26 2.249E-26 1.544E-26 0.000E+00 3.345E-25 1.349E-25 7.777E-26 5.127E-26 3.455E-26 0.000E+00 5.467E-25 2.250E-25 1.332E-25 8.693E-26 0.000E+00 1.001E-24 4.257E-25 2.572E-25 0.000E+00 2.206E-24 9.822E-25 0.000E+00 6.906E-24 5.337E-23
1.000E+05 2 1.500E+04 B 87 25
0.000E+00 9.007E-27 3.260E-27 1.647E-27 9.721E-28 6.287E-28 4.323E-28 3.109E-28 2.313E-28 1.768E-28 1.381E-28 1.099E-28 8.887E-29 7.279E-29 6.030E-29 5.044E-29 4.254E-29 3.613E-29 3.087E-29 2.647E-29 2.274E-29 1.949E-29 1.649E-29 1.317E-29 0.000E+00 9.821E-27 3.585E-27 1.830E-27 1.089E-27 7.080E-28 4.888E-28 3.525E-28 2.628E-28 2.012E-28 1.574E-28 1.253E-28 1.014E-28 8.301E-29 6.874E-29 5.745E-29 4.840E-29 4.103E-29 3.494E-29 2.983E-29 2.540E-29 2.137E-29 1.697E-29 0.000E+00 1.081E-26 3.975E-27 2.048E-27 1.227E-27 8.022E-28 5.559E-28 4.020E-28 3.003E-28 2.302E-28 1.802E-28 1.436E-28 1.161E-28 9.508E-29 7.868E-29 6.569E-29 5.523E-29 4.668E-29 3.957E-29 3.348E-29 2.798E-29 2.209E-29 0.000E+00 1.201E-26 4.447E-27 2.311E-27 1.393E-27 9.149E-28 6.362E-28 4.611E-28 3.450E-28 2.648E-28 2.075E-28 1.654E-28 1.337E-28 1.094E-28 9.045E-29 7.537E-29 6.319E-29 5.316E-29 4.467E-29 3.709E-29 2.909E-29 0.000E+00 1.348E-26 5.022E-27 2.629E-27 1.594E-27 1.051E-27 7.329E-28 5.324E-28 3.990E-28 3.065E-28 2.403E-28 1.915E-28 1.548E-28 1.266E-28 1.044E-28 8.678E-29 7.241E-29 6.039E-29 4.979E-29 3.878E-29 0.000E+00 1.528E-26 5.729E-27 3.017E-27 1.838E-27 1.216E-27 8.506E-28 6.190E-28 4.645E-28 3.572E-28 2.801E-28 2.232E-28 1.803E-28 1.472E-28 1.211E-28 1.002E-28 8.287E-29 6.780E-29 5.243E-29 0.000E+00 1.752E-26 6.603E-27 3.496E-27 2.139E-27 1.420E-27 9.951E-28 7.255E-28 5.450E-28 4.193E-28 3.289E-28 2.620E-28 2.113E-28 1.720E-28 1.409E-28 1.156E-28 9.381E-29 7.198E-29 0.000E+00 2.032E-26 7.692E-27 4.091E-27 2.512E-27 1.672E-27 1.175E-27 8.577E-28 6.451E-28 4.965E-28 3.893E-28 3.098E-28 2.493E-28 2.021E-28 1.642E-28 1.321E-28 1.005E-28 0.000E+00 2.384E-26 9.064E-27 4.840E-27 2.981E-27 1.990E-27 1.401E-27 1.024E-27 7.709E-28 5.935E-28 4.651E-28 3.694E-28 2.960E-28 2.380E-28 1.897E-28 1.431E-28 0.000E+00 2.832E-26 1.081E-26 5.794E-27 3.580E-27 2.396E-27 1.689E-27 1.237E-27 9.317E-28 7.172E-28 5.611E-28 4.440E-28 3.531E-28 2.786E-28 2.081E-28 0.000E+00 3.411E-26 1.307E-26 7.027E-27 4.355E-27 2.922E-27 2.065E-27 1.514E-27 1.141E-27 8.771E-28 6.841E-28 5.373E-28 4.193E-28 3.100E-28 0.000E+00 4.170E-26 1.602E-26 8.649E-27 5.378E-27 3.618E-27 2.562E-27 1.880E-27 1.417E-27 1.087E-27 8.418E-28 6.492E-28 4.748E-28 0.000E+00 5.183E-26 1.998E-26 1.083E-26 6.757E-27 4.559E-27 3.235E-27 2.377E-27 1.788E-27 1.364E-27 1.038E-27 7.503E-28 0.000E+00 6.565E-26 2.540E-26 1.383E-26 8.666E-27 5.867E-27 4.172E-27 3.065E-27 2.296E-27 1.723E-27 1.230E-27 0.000E+00 8.503E-26 3.304E-26 1.808E-26 1.139E-26 7.743E-27 5.517E-27 4.043E-27 2.985E-27 2.103E-27 0.000E+00 1.131E-25 4.417E-26 2.435E-26 1.543E-26 1.054E-26 7.510E-27 5.441E-27 3.781E-27 0.000E+00 1.555E-25 6.113E-26 3.400E-26 2.172E-26 1.490E-26 1.054E-26 7.219E-27 0.000E+00 2.228E-25 8.840E-26 4.976E-26 3.211E-26 2.201E-26 1.483E-26 0.000E+00 3.373E-25 1.356E-25 7.761E-26 5.054E-26 3.336E-26 0.000E+00 5.511E-25 2.258E-25 1.322E-25 8.452E-26 0.000E+00 1.008E-24 4.257E-25 2.520E-25 0.000E+00 2.219E-24 9.710E-25 0.000E+00 6.900E-24 5.615E-23
1.000E+06 2 1.500E+04 B 62 25
0.000E+00 1.345E-26 4.392E-27 2.003E-27 1.092E-27 6.646E-28 4.364E-28 3.027E-28 2.189E-28 1.636E-28 1.256E-28 9.854E-29 7.873E-29 6.389E-29 5.254E-29 4.370E-29 3.671E-29 3.109E-29 2.652E-29 2.273E-29 1.954E-29 1.678E-29 1.425E-29 1.144E-29 0.000E+00 1.437E-26 4.750E-27 2.191E-27 1.205E-27 7.393E-28 4.883E-28 3.403E-28 2.471E-28 1.852E-28 1.425E-28 1.120E-28 8.965E-29 7.284E-29 5.995E-29 4.988E-29 4.190E-29 3.546E-29 3.019E-29 2.579E-29 2.202E-29 1.859E-29 1.485E-29 0.000E+00 1.538E-26 5.154E-27 2.409E-27 1.339E-27 8.281E-28 5.504E-28 3.855E-28 2.810E-28 2.113E-28 1.630E-28 1.284E-28 1.029E-28 8.365E-29 6.888E-29 5.732E-29 4.810E-29 4.064E-29 3.448E-29 2.924E-29 2.454E-29 1.949E-29 0.000E+00 1.652E-26 5.620E-27 2.665E-27 1.498E-27 9.346E-28 6.253E-28 4.402E-28 3.221E-28 2.430E-28 1.879E-28 1.482E-28 1.189E-28 9.677E-29 7.968E-29 6.625E-29 5.550E-29 4.672E-29 3.934E-29 3.279E-29 2.587E-29 0.000E+00 1.784E-26 6.167E-27 2.971E-27 1.690E-27 1.064E-27 7.166E-28 5.071E-28 3.725E-28 2.818E-28 2.184E-28 1.725E-28 1.385E-28 1.127E-28 9.274E-29 7.696E-29 6.423E-29 5.366E-29 4.439E-29 3.477E-29 0.000E+00 1.943E-26 6.824E-27 3.340E-27 1.924E-27 1.222E-27 8.289E-28 5.895E-28 4.346E-28 3.297E-28 2.558E-28 2.023E-28 1.625E-28 1.321E-28 1.085E-28 8.967E-29 7.425E-29 6.092E-29 4.734E-29 0.000E+00 2.139E-26 7.628E-27 3.795E-27 2.213E-27 1.418E-27 9.682E-28 6.917E-28 5.117E-28 3.890E-28 3.022E-28 2.391E-28 1.919E-28 1.557E-28 1.273E-28 1.044E-28 8.489E-29 6.540E-29 0.000E+00 2.387E-26 8.632E-27 4.363E-27 2.575E-27 1.664E-27 1.143E-27 8.197E-28 6.080E-28 4.630E-28 3.600E-28 2.846E-28 2.280E-28 1.842E-28 1.495E-28 1.203E-28 9.180E-29 0.000E+00 2.706E-26 9.907E-27 5.081E-27 3.032E-27 1.974E-27 1.363E-27 9.815E-28 7.297E-28 5.562E-28 4.324E-28 3.412E-28 2.722E-28 2.182E-28 1.738E-28 1.312E-28 0.000E+00 3.121E-26 1.156E-26 6.004E-27 3.618E-27 2.372E-27 1.646E-27 1.189E-27 8.850E-28 6.747E-28 5.238E-28 4.118E-28 3.259E-28 2.564E-28 1.915E-28 0.000E+00 3.668E-26 1.372E-26 7.208E-27 4.380E-27 2.890E-27 2.012E-27 1.457E-27 1.086E-27 8.271E-28 6.399E-28 4.992E-28 3.877E-28 2.862E-28 0.000E+00 4.400E-26 1.660E-26 8.805E-27 5.389E-27 3.574E-27 2.498E-27 1.811E-27 1.350E-27 1.025E-27 7.874E-28 6.031E-28 4.393E-28 0.000E+00 5.392E-26 2.051E-26 1.096E-26 6.753E-27 4.498E-27 3.152E-27 2.288E-27 1.702E-27 1.284E-27 9.687E-28 6.960E-28 0.000E+00 6.763E-26 2.590E-26 1.395E-26 8.640E-27 5.780E-27 4.059E-27 2.944E-27 2.178E-27 1.615E-27 1.143E-27 0.000E+00 8.702E-26 3.355E-26 1.819E-26 1.133E-26 7.610E-27 5.350E-27 3.866E-27 2.815E-27 1.960E-27 0.000E+00 1.153E-25 4.474E-26 2.444E-26 1.532E-26 1.032E-26 7.245E-27 5.165E-27 3.536E-27 0.000E+00 1.581E-25 6.180E-26 3.405E-26 2.149E-26 1.451E-26 1.008E-26 6.778E-27 0.000E+00 2.262E-25 8.922E-26 4.970E-26 3.160E-26 2.124E-26 1.399E-26 0.000E+00 3.422E-25 1.366E-25 7.719E-26 4.930E-26 3.171E-26 0.000E+00 5.588E-25 2.269E-25 1.305E-25 8.104E-26 0.000E+00 1.021E-24 4.251E-25 2.443E-25 0.000E+00 2.241E-24 9.537E-25 0.000E+00 6.893E-24 6.631E-23
1.000E+07 2 1.500E+04 B 50 25
0.000E+00 1.815E-26 5.623E-27 2.440E-27 1.275E-27 7.493E-28 4.777E-28 3.232E-28 2.289E-28 1.680E-28 1.269E-28 9.822E-29 7.754E-29 6.225E-29 5.071E-29 4.183E-29 3.487E-29 2.934E-29 2.487E-29 2.120E-29 1.814E-29 1.552E-29 1.313E-29 1.051E-29 0.000E+00 1.978E-26 6.145E-27 2.674E-27 1.401E-27 8.249E-28 5.268E-28 3.570E-28 2.531E-28 1.860E-28 1.407E-28 1.089E-28 8.604E-29 6.911E-29 5.631E-29 4.645E-29 3.871E-29 3.254E-29 2.754E-29 2.340E-29 1.989E-29 1.673E-29 1.334E-29 0.000E+00 2.162E-26 6.743E-27 2.945E-27 1.547E-27 9.136E-28 5.848E-28 3.971E-28 2.820E-28 2.075E-28 1.571E-28 1.218E-28 9.627E-29 7.737E-29 6.306E-29 5.201E-29 4.332E-29 3.636E-29 3.068E-29 2.590E-29 2.166E-29 1.717E-29 0.000E+00 2.369E-26 7.423E-27 3.257E-27 1.718E-27 1.018E-27 6.537E-28 4.450E-28 3.167E-28 2.334E-28 1.770E-28 1.374E-28 1.087E-28 8.741E-29 7.126E-29 5.875E-29 4.887E-29 4.090E-29 3.429E-29 2.850E-29 2.246E-29 0.000E+00 2.599E-26 8.198E-27 3.619E-27 1.920E-27 1.143E-27 7.364E-28 5.028E-28 3.588E-28 2.651E-28 2.014E-28 1.565E-28 1.240E-28 9.974E-29 8.131E-29 6.697E-29 5.557E-29 4.623E-29 3.815E-29 2.988E-29 0.000E+00 2.855E-26 9.080E-27 4.041E-27 2.158E-27 1.292E-27 8.366E-28 5.735E-28 4.106E-28 3.041E-28 2.315E-28 1.802E-28 1.429E-28 1.150E-28 9.372E-29 7.702E-29 6.353E-29 5.203E-29 4.048E-29 0.000E+00 3.138E-26 1.009E-26 4.538E-27 2.444E-27 1.474E-27 9.599E-28 6.612E-28 4.752E-28 3.530E-28 2.694E-28 2.101E-28 1.667E-28 1.342E-28 1.091E-28 8.916E-29 7.241E-29 5.591E-29 0.000E+00 3.453E-26 1.126E-26 5.130E-27 2.794E-27 1.699E-27 1.114E-27 7.717E-28 5.570E-28 4.153E-28 3.177E-28 2.481E-28 1.969E-28 1.582E-28 1.279E-28 1.030E-28 7.883E-29 0.000E+00 3.812E-26 1.264E-26 5.851E-27 3.228E-27 1.983E-27 1.311E-27 9.135E-28 6.624E-28 4.955E-28 3.799E-28 2.969E-28 2.353E-28 1.880E-28 1.497E-28 1.135E-28 0.000E+00 4.233E-26 1.431E-26 6.752E-27 3.781E-27 2.349E-27 1.566E-27 1.098E-27 8.002E-28 6.003E-28 4.607E-28 3.596E-28 2.835E-28 2.230E-28 1.673E-28 0.000E+00 4.751E-26 1.640E-26 7.907E-27 4.500E-27 2.830E-27 1.903E-27 1.343E-27 9.823E-28 7.382E-28 5.660E-28 4.394E-28 3.409E-28 2.524E-28 0.000E+00 5.423E-26 1.913E-26 9.430E-27 5.459E-27 3.475E-27 2.356E-27 1.671E-27 1.226E-27 9.206E-28 7.021E-28 5.361E-28 3.912E-28 0.000E+00 6.332E-26 2.280E-26 1.150E-26 6.765E-27 4.355E-27 2.975E-27 2.118E-27 1.553E-27 1.161E-27 8.705E-28 6.248E-28 0.000E+00 7.610E-26 2.792E-26 1.438E-26 8.589E-27 5.584E-27 3.835E-27 2.733E-27 1.995E-27 1.467E-27 1.034E-27 0.000E+00 9.461E-26 3.530E-26 1.851E-26 1.120E-26 7.340E-27 5.056E-27 3.592E-27 2.581E-27 1.783E-27 0.000E+00 1.222E-25 4.628E-26 2.464E-26 1.507E-26 9.929E-27 6.830E-27 4.784E-27 3.233E-27 0.000E+00 1.648E-25 6.324E-26 3.411E-26 2.104E-26 1.389E-26 9.443E-27 6.232E-27 0.000E+00 2.336E-25 9.070E-26 4.950E-26 3.073E-26 2.014E-26 1.295E-26 0.000E+00 3.514E-25 1.382E-25 7.635E-26 4.742E-26 2.958E-26 0.000E+00 5.720E-25 2.283E-25 1.276E-25 7.639E-26 0.000E+00 1.042E-24 4.238E-25 2.336E-25 0.000E+00 2.276E-24 9.293E-25 0.000E+00 6.895E-24 7.422E-23
1.000E+08 2 1.500E+04 B 50 25
0.000E+00 2.466E-26 7.574E-27 3.258E-27 1.689E-27 9.855E-28 6.244E-28 4.202E-28 2.961E-28 2.163E-28 1.628E-28 1.255E-28 9.876E-29 7.905E-29 6.421E-29 5.281E-29 4.392E-29 3.686E-29 3.117E-29 2.652E-29 2.264E-29 1.932E-29 1.630E-29 1.303E-29 0.000E+00 2.650E-26 8.141E-27 3.503E-27 1.816E-27 1.060E-27 6.719E-28 4.522E-28 3.187E-28 2.329E-28 1.752E-28 1.351E-28 1.063E-28 8.505E-29 6.905E-29 5.677E-29 4.717E-29 3.953E-29 3.336E-29 2.828E-29 2.397E-29 2.011E-29 1.599E-29 0.000E+00 2.855E-26 8.774E-27 3.777E-27 1.959E-27 1.144E-27 7.252E-28 4.882E-28 3.441E-28 2.515E-28 1.892E-28 1.459E-28 1.147E-28 9.179E-29 7.449E-29 6.119E-29 5.077E-29 4.247E-29 3.571E-29 3.005E-29 2.505E-29 1.980E-29 0.000E+00 3.089E-26 9.501E-27 4.093E-27 2.124E-27 1.241E-27 7.870E-28 5.299E-28 3.736E-28 2.731E-28 2.055E-28 1.584E-28 1.246E-28 9.960E-29 8.077E-29 6.627E-29 5.488E-29 4.574E-29 3.819E-29 3.161E-29 2.482E-29 0.000E+00 3.365E-26 1.036E-26 4.467E-27 2.320E-27 1.356E-27 8.606E-28 5.798E-28 4.088E-28 2.989E-28 2.250E-28 1.734E-28 1.363E-28 1.089E-28 8.823E-29 7.225E-29 5.963E-29 4.935E-29 4.053E-29 3.160E-29 0.000E+00 3.697E-26 1.140E-26 4.920E-27 2.558E-27 1.497E-27 9.506E-28 6.407E-28 4.521E-28 3.306E-28 2.488E-28 1.918E-28 1.507E-28 1.203E-28 9.728E-29 7.940E-29 6.508E-29 5.299E-29 4.100E-29 0.000E+00 4.098E-26 1.266E-26 5.474E-27 2.851E-27 1.671E-27 1.062E-27 7.165E-28 5.059E-28 3.701E-28 2.786E-28 2.147E-28 1.686E-28 1.344E-28 1.083E-28 8.784E-29 7.084E-29 5.435E-29 0.000E+00 4.583E-26 1.419E-26 6.155E-27 3.213E-27 1.887E-27 1.201E-27 8.115E-28 5.735E-28 4.199E-28 3.162E-28 2.436E-28 1.910E-28 1.519E-28 1.217E-28 9.708E-29 7.380E-29 0.000E+00 5.166E-26 1.606E-26 6.992E-27 3.663E-27 2.157E-27 1.377E-27 9.317E-28 6.594E-28 4.832E-28 3.640E-28 2.802E-28 2.193E-28 1.733E-28 1.367E-28 1.029E-28 0.000E+00 5.861E-26 1.833E-26 8.024E-27 4.224E-27 2.498E-27 1.599E-27 1.086E-27 7.698E-28 5.648E-28 4.255E-28 3.271E-28 2.546E-28 1.983E-28 1.476E-28 0.000E+00 6.684E-26 2.108E-26 9.305E-27 4.933E-27 2.934E-27 1.888E-27 1.286E-27 9.145E-28 6.719E-28 5.060E-28 3.872E-28 2.973E-28 2.186E-28 0.000E+00 7.657E-26 2.444E-26 1.092E-26 5.847E-27 3.506E-27 2.270E-27 1.554E-27 1.109E-27 8.153E-28 6.121E-28 4.624E-28 3.355E-28 0.000E+00 8.820E-26 2.863E-26 1.300E-26 7.058E-27 4.278E-27 2.793E-27 1.923E-27 1.375E-27 1.010E-27 7.492E-28 5.354E-28 0.000E+00 1.026E-25 3.403E-26 1.580E-26 8.725E-27 5.357E-27 3.530E-27 2.444E-27 1.748E-27 1.270E-27 8.913E-28 0.000E+00 1.214E-25 4.135E-26 1.971E-26 1.111E-26 6.923E-27 4.602E-27 3.193E-27 2.262E-27 1.554E-27 0.000E+00 1.482E-25 5.191E-26 2.550E-26 1.469E-26 9.274E-27 6.195E-27 4.259E-27 2.853E-27 0.000E+00 1.891E-25 6.814E-26 3.449E-26 2.027E-26 1.291E-26 8.561E-27 5.567E-27 0.000E+00 2.562E-25 9.476E-26 4.926E-26 2.936E-26 1.863E-26 1.170E-26 0.000E+00 3.738E-25 1.415E-25 7.502E-26 4.480E-26 2.704E-26 0.000E+00 5.979E-25 2.305E-25 1.235E-25 7.079E-26 0.000E+00 1.079E-24 4.218E-25 2.203E-25 0.000E+00 2.335E-24 8.988E-25 0.000E+00 6.925E-24 7.727E-23
1.000E+02 2 2.000E+04 B 245 25
0.000E+00 5.905E-27 2.197E-27 1.146E-27 6.923E-28 4.551E-28 3.166E-28 2.297E-28 1.721E-28 1.323E-28 1.040E-28 8.314E-29 6.751E-29 5.553E-29 4.620E-29 3.880E-29 3.285E-29 2.801E-29 2.400E-29 2.064E-29 1.777E-29 1.522E-29 1.284E-29 1.014E-29 0.000E+00 6.664E-27 2.480E-27 1.295E-27 7.825E-28 5.146E-28 3.582E-28 2.600E-28 1.949E-28 1.499E-28 1.178E-28 9.421E-29 7.651E-29 6.293E-29 5.234E-29 4.394E-29 3.717E-29 3.165E-29 2.705E-29 2.316E-29 1.975E-29 1.658E-29 1.304E-29 0.000E+00 7.559E-27 2.815E-27 1.470E-27 8.891E-28 5.851E-28 4.075E-28 2.959E-28 2.219E-28 1.707E-28 1.342E-28 1.074E-28 8.718E-29 7.171E-29 5.962E-29 5.001E-29 4.226E-29 3.588E-29 3.054E-29 2.591E-29 2.164E-29 1.694E-29 0.000E+00 8.623E-27 3.212E-27 1.679E-27 1.016E-27 6.691E-28 4.663E-28 3.388E-28 2.541E-28 1.956E-28 1.538E-28 1.231E-28 9.995E-29 8.219E-29 6.829E-29 5.722E-29 4.824E-29 4.079E-29 3.441E-29 2.860E-29 2.228E-29 0.000E+00 9.896E-27 3.688E-27 1.929E-27 1.169E-27 7.701E-28 5.371E-28 3.904E-28 2.930E-28 2.257E-28 1.775E-28 1.420E-28 1.153E-28 9.481E-29 7.870E-29 6.581E-29 5.525E-29 4.632E-29 3.829E-29 2.967E-29 0.000E+00 1.144E-26 4.264E-27 2.233E-27 1.354E-27 8.928E-28 6.231E-28 4.532E-28 3.404E-28 2.623E-28 2.063E-28 1.651E-28 1.341E-28 1.101E-28 9.123E-29 7.599E-29 6.328E-29 5.200E-29 4.008E-29 0.000E+00 1.331E-26 4.967E-27 2.604E-27 1.580E-27 1.043E-27 7.287E-28 5.305E-28 3.986E-28 3.073E-28 2.418E-28 1.935E-28 1.570E-28 1.288E-28 1.063E-28 8.788E-29 7.175E-29 5.497E-29 0.000E+00 1.563E-26 5.835E-27 3.062E-27 1.861E-27 1.230E-27 8.599E-28 6.265E-28 4.712E-28 3.634E-28 2.860E-28 2.288E-28 1.855E-28 1.516E-28 1.243E-28 1.007E-28 7.670E-29 0.000E+00 1.851E-26 6.918E-27 3.636E-27 2.212E-27 1.464E-27 1.025E-27 7.475E-28 5.626E-28 4.341E-28 3.417E-28 2.732E-28 2.208E-28 1.793E-28 1.442E-28 1.091E-28 0.000E+00 2.216E-26 8.290E-27 4.364E-27 2.660E-27 1.763E-27 1.236E-27 9.023E-28 6.797E-28 5.247E-28 4.128E-28 3.293E-28 2.645E-28 2.110E-28 1.585E-28 0.000E+00 2.684E-26 1.005E-26 5.303E-27 3.239E-27 2.150E-27 1.510E-27 1.104E-27 8.322E-28 6.425E-28 5.048E-28 4.005E-28 3.163E-28 2.358E-28 0.000E+00 3.295E-26 1.236E-26 6.536E-27 4.001E-27 2.662E-27 1.873E-27 1.371E-27 1.035E-27 7.981E-28 6.242E-28 4.876E-28 3.605E-28 0.000E+00 4.109E-26 1.545E-26 8.190E-27 5.027E-27 3.354E-27 2.364E-27 1.734E-27 1.309E-27 1.006E-27 7.760E-28 5.684E-28 0.000E+00 5.218E-26 1.966E-26 1.046E-26 6.445E-27 4.314E-27 3.049E-27 2.239E-27 1.686E-27 1.281E-27 9.291E-28 0.000E+00 6.773E-26 2.560E-26 1.368E-26 8.465E-27 5.688E-27 4.031E-27 2.960E-27 2.209E-27 1.583E-27 0.000E+00 9.025E-26 3.424E-26 1.840E-26 1.145E-26 7.733E-27 5.494E-27 4.008E-27 2.835E-27 0.000E+00 1.242E-25 4.737E-26 2.566E-26 1.609E-26 1.092E-26 7.741E-27 5.389E-27 0.000E+00 1.782E-25 6.842E-26 3.746E-26 2.371E-26 1.615E-26 1.102E-26 0.000E+00 2.699E-25 1.047E-25 5.816E-26 3.723E-26 2.470E-26 0.000E+00 4.405E-25 1.735E-25 9.846E-26 6.247E-26 0.000E+00 8.034E-25 3.241E-25 1.869E-25 0.000E+00 1.754E-24 7.292E-25 0.000E+00 5.360E-24 4.167E-23
1.000E+03 2 2.000E+04 B 192 25
0.000E+00 5.933E-27 2.205E-27 1.149E-27 6.931E-28 4.551E-28 3.163E-28 2.292E-28 1.715E-28 1.317E-28 1.033E-28 8.251E-29 6.689E-29 5.492E-29 4.560E-29 3.822E-29 3.229E-29 2.746E-29 2.347E-29 2.014E-29 1.729E-29 1.479E-29 1.246E-29 9.887E-30 0.000E+00 6.692E-27 2.488E-27 1.297E-27 7.833E-28 5.146E-28 3.578E-28 2.594E-28 1.942E-28 1.492E-28 1.170E-28 9.348E-29 7.578E-29 6.222E-29 5.164E-29 4.325E-29 3.650E-29 3.099E-29 2.642E-29 2.256E-29 1.919E-29 1.610E-29 1.271E-29 0.000E+00 7.587E-27 2.823E-27 1.473E-27 8.899E-28 5.850E-28 4.070E-28 2.952E-28 2.211E-28 1.699E-28 1.333E-28 1.065E-28 8.633E-29 7.086E-29 5.878E-29 4.919E-29 4.145E-29 3.510E-29 2.978E-29 2.520E-29 2.102E-29 1.650E-29 0.000E+00 8.651E-27 3.220E-27 1.682E-27 1.017E-27 6.690E-28 4.657E-28 3.379E-28 2.532E-28 1.946E-28 1.528E-28 1.221E-28 9.893E-29 8.118E-29 6.728E-29 5.622E-29 4.725E-29 3.983E-29 3.350E-29 2.779E-29 2.169E-29 0.000E+00 9.925E-27 3.697E-27 1.933E-27 1.169E-27 7.699E-28 5.364E-28 3.894E-28 2.919E-28 2.245E-28 1.763E-28 1.408E-28 1.141E-28 9.357E-29 7.745E-29 6.456E-29 5.402E-29 4.514E-29 3.722E-29 2.888E-29 0.000E+00 1.147E-26 4.274E-27 2.236E-27 1.354E-27 8.925E-28 6.222E-28 4.521E-28 3.391E-28 2.608E-28 2.049E-28 1.636E-28 1.325E-28 1.086E-28 8.967E-29 7.443E-29 6.175E-29 5.058E-29 3.900E-29 0.000E+00 1.335E-26 4.978E-27 2.607E-27 1.581E-27 1.043E-27 7.276E-28 5.290E-28 3.970E-28 3.056E-28 2.400E-28 1.917E-28 1.551E-28 1.268E-28 1.043E-28 8.587E-29 6.985E-29 5.350E-29 0.000E+00 1.566E-26 5.847E-27 3.066E-27 1.862E-27 1.229E-27 8.585E-28 6.247E-28 4.691E-28 3.612E-28 2.837E-28 2.264E-28 1.829E-28 1.490E-28 1.216E-28 9.817E-29 7.465E-29 0.000E+00 1.855E-26 6.932E-27 3.641E-27 2.213E-27 1.463E-27 1.023E-27 7.453E-28 5.600E-28 4.313E-28 3.387E-28 2.700E-28 2.174E-28 1.758E-28 1.407E-28 1.062E-28 0.000E+00 2.221E-26 8.306E-27 4.370E-27 2.661E-27 1.762E-27 1.234E-27 8.994E-28 6.763E-28 5.210E-28 4.088E-28 3.249E-28 2.598E-28 2.062E-28 1.543E-28 0.000E+00 2.690E-26 1.007E-26 5.309E-27 3.239E-27 2.149E-27 1.507E-27 1.100E-27 8.276E-28 6.373E-28 4.990E-28 3.942E-28 3.096E-28 2.297E-28 0.000E+00 3.302E-26 1.238E-26 6.543E-27 4.002E-27 2.660E-27 1.868E-27 1.366E-27 1.028E-27 7.906E-28 6.157E-28 4.782E-28 3.515E-28 0.000E+00 4.117E-26 1.547E-26 8.198E-27 5.028E-27 3.350E-27 2.358E-27 1.726E-27 1.299E-27 9.945E-28 7.625E-28 5.549E-28 0.000E+00 5.229E-26 1.969E-26 1.047E-26 6.444E-27 4.307E-27 3.039E-27 2.226E-27 1.671E-27 1.262E-27 9.081E-28 0.000E+00 6.786E-26 2.564E-26 1.369E-26 8.463E-27 5.678E-27 4.015E-27 2.939E-27 2.180E-27 1.550E-27 0.000E+00 9.042E-26 3.429E-26 1.842E-26 1.145E-26 7.714E-27 5.464E-27 3.966E-27 2.781E-27 0.000E+00 1.245E-25 4.743E-26 2.567E-26 1.607E-26 1.088E-26 7.678E-27 5.297E-27 0.000E+00 1.785E-25 6.851E-26 3.746E-26 2.367E-26 1.606E-26 1.086E-26 0.000E+00 2.703E-25 1.048E-25 5.814E-26 3.709E-26 2.441E-26 0.000E+00 4.413E-25 1.736E-25 9.829E-26 6.191E-26 0.000E+00 8.047E-25 3.241E-25 1.857E-25 0.000E+00 1.757E-24 7.266E-25 0.000E+00 5.357E-24 4.171E-23
1.000E+04 2 2.000E+04 B 131 25
0.000E+00 6.089E-27 2.241E-27 1.160E-27 6.960E-28 4.551E-28 3.151E-28 2.276E-28 1.698E-28 1.301E-28 1.018E-28 8.104E-29 6.552E-29 5.366E-29 4.443E-29 3.714E-29 3.130E-29 2.655E-29 2.264E-29 1.938E-29 1.662E-29 1.420E-29 1.197E-29 9.517E-30 0.000E+00 6.832E-27 2.521E-27 1.307E-27 7.859E-28 5.144E-28 3.566E-28 2.577E-28 1.924E-28 1.474E-28 1.154E-28 9.187E-29 7.427E-29 6.081E-29 5.033E-29 4.204E-29 3.538E-29 2.996E-29 2.548E-29 2.171E-29 1.845E-29 1.547E-29 1.223E-29 0.000E+00 7.714E-27 2.853E-27 1.482E-27 8.923E-28 5.847E-28 4.056E-28 2.934E-28 2.191E-28 1.680E-28 1.315E-28 1.047E-28 8.463E-29 6.926E-29 5.728E-29 4.779E-29 4.015E-29 3.390E-29 2.870E-29 2.424E-29 2.021E-29 1.589E-29 0.000E+00 8.768E-27 3.249E-27 1.691E-27 1.019E-27 6.685E-28 4.642E-28 3.360E-28 2.511E-28 1.925E-28 1.507E-28 1.200E-28 9.698E-29 7.932E-29 6.554E-29 5.459E-29 4.573E-29 3.844E-29 3.225E-29 2.672E-29 2.089E-29 0.000E+00 1.003E-26 3.724E-27 1.941E-27 1.172E-27 7.693E-28 5.346E-28 3.872E-28 2.895E-28 2.220E-28 1.738E-28 1.384E-28 1.118E-28 9.138E-29 7.538E-29 6.262E-29 5.222E-29 4.351E-29 3.581E-29 2.781E-29 0.000E+00 1.157E-26 4.300E-27 2.245E-27 1.356E-27 8.916E-28 6.201E-28 4.495E-28 3.362E-28 2.579E-28 2.020E-28 1.608E-28 1.298E-28 1.059E-28 8.715E-29 7.207E-29 5.959E-29 4.870E-29 3.756E-29 0.000E+00 1.344E-26 5.005E-27 2.616E-27 1.583E-27 1.042E-27 7.251E-28 5.259E-28 3.936E-28 3.021E-28 2.365E-28 1.882E-28 1.517E-28 1.235E-28 1.012E-28 8.299E-29 6.730E-29 5.152E-29 0.000E+00 1.576E-26 5.874E-27 3.075E-27 1.863E-27 1.228E-27 8.555E-28 6.209E-28 4.650E-28 3.569E-28 2.794E-28 2.221E-28 1.787E-28 1.449E-28 1.177E-28 9.468E-29 7.190E-29 0.000E+00 1.865E-26 6.961E-27 3.650E-27 2.215E-27 1.461E-27 1.019E-27 7.405E-28 5.549E-28 4.259E-28 3.332E-28 2.644E-28 2.119E-28 1.705E-28 1.359E-28 1.023E-28 0.000E+00 2.231E-26 8.338E-27 4.380E-27 2.662E-27 1.759E-27 1.229E-27 8.933E-28 6.696E-28 5.139E-28 4.015E-28 3.176E-28 2.526E-28 1.994E-28 1.487E-28 0.000E+00 2.701E-26 1.011E-26 5.320E-27 3.240E-27 2.145E-27 1.500E-27 1.092E-27 8.187E-28 6.278E-28 4.891E-28 3.841E-28 2.999E-28 2.215E-28 0.000E+00 3.315E-26 1.243E-26 6.555E-27 4.002E-27 2.654E-27 1.859E-27 1.355E-27 1.016E-27 7.772E-28 6.017E-28 4.641E-28 3.392E-28 0.000E+00 4.133E-26 1.552E-26 8.212E-27 5.026E-27 3.341E-27 2.345E-27 1.710E-27 1.281E-27 9.748E-28 7.419E-28 5.361E-28 0.000E+00 5.248E-26 1.975E-26 1.049E-26 6.441E-27 4.294E-27 3.020E-27 2.202E-27 1.643E-27 1.231E-27 8.786E-28 0.000E+00 6.811E-26 2.571E-26 1.371E-26 8.455E-27 5.656E-27 3.984E-27 2.899E-27 2.134E-27 1.503E-27 0.000E+00 9.074E-26 3.438E-26 1.844E-26 1.143E-26 7.676E-27 5.409E-27 3.896E-27 2.702E-27 0.000E+00 1.249E-25 4.755E-26 2.569E-26 1.603E-26 1.081E-26 7.569E-27 5.161E-27 0.000E+00 1.791E-25 6.867E-26 3.746E-26 2.358E-26 1.589E-26 1.061E-26 0.000E+00 2.712E-25 1.050E-25 5.808E-26 3.684E-26 2.395E-26 0.000E+00 4.427E-25 1.739E-25 9.797E-26 6.099E-26 0.000E+00 8.072E-25 3.240E-25 1.837E-25 0.000E+00 1.761E-24 7.224E-25 0.000E+00 5.353E-24 4.198E-23
1.000E+05 2 2.000E+04 B 92 25
0.000E+00 6.964E-27 2.465E-27 1.224E-27 7.131E-28 4.562E-28 3.109E-28 2.218E-28 1.640E-28 1.246E-28 9.692E-29 7.682E-29 6.186E-29 5.050E-29 4.171E-29 3.480E-29 2.928E-29 2.482E-29 2.116E-29 1.811E-29 1.553E-29 1.329E-29 1.123E-29 8.958E-30 0.000E+00 7.645E-27 2.725E-27 1.366E-27 8.007E-28 5.146E-28 3.519E-28 2.517E-28 1.863E-28 1.418E-28 1.104E-28 8.749E-29 7.046E-29 5.751E-29 4.747E-29 3.957E-29 3.325E-29 2.813E-29 2.391E-29 2.037E-29 1.732E-29 1.455E-29 1.154E-29 0.000E+00 8.462E-27 3.037E-27 1.535E-27 9.050E-28 5.841E-28 4.005E-28 2.871E-28 2.128E-28 1.621E-28 1.263E-28 1.001E-28 8.063E-29 6.578E-29 5.425E-29 4.516E-29 3.788E-29 3.194E-29 2.702E-29 2.282E-29 1.905E-29 1.501E-29 0.000E+00 9.449E-27 3.413E-27 1.737E-27 1.030E-27 6.671E-28 4.587E-28 3.294E-28 2.445E-28 1.864E-28 1.452E-28 1.152E-28 9.271E-29 7.558E-29 6.226E-29 5.173E-29 4.326E-29 3.631E-29 3.045E-29 2.524E-29 1.976E-29 0.000E+00 1.065E-26 3.870E-27 1.982E-27 1.180E-27 7.672E-28 5.287E-28 3.803E-28 2.826E-28 2.156E-28 1.680E-28 1.332E-28 1.072E-28 8.727E-29 7.177E-29 5.946E-29 4.948E-29 4.117E-29 3.388E-29 2.635E-29 0.000E+00 1.212E-26 4.429E-27 2.281E-27 1.364E-27 8.888E-28 6.138E-28 4.420E-28 3.288E-28 2.510E-28 1.956E-28 1.550E-28 1.246E-28 1.013E-28 8.307E-29 6.850E-29 5.652E-29 4.614E-29 3.562E-29 0.000E+00 1.394E-26 5.119E-27 2.648E-27 1.589E-27 1.038E-27 7.181E-28 5.178E-28 3.855E-28 2.943E-28 2.293E-28 1.816E-28 1.458E-28 1.182E-28 9.649E-29 7.889E-29 6.386E-29 4.889E-29 0.000E+00 1.620E-26 5.977E-27 3.104E-27 1.868E-27 1.223E-27 8.475E-28 6.118E-28 4.558E-28 3.480E-28 2.710E-28 2.144E-28 1.717E-28 1.386E-28 1.122E-28 8.997E-29 6.829E-29 0.000E+00 1.905E-26 7.056E-27 3.676E-27 2.218E-27 1.455E-27 1.010E-27 7.299E-28 5.440E-28 4.153E-28 3.231E-28 2.551E-28 2.034E-28 1.628E-28 1.293E-28 9.722E-29 0.000E+00 2.268E-26 8.428E-27 4.404E-27 2.664E-27 1.751E-27 1.217E-27 8.804E-28 6.564E-28 5.009E-28 3.890E-28 3.059E-28 2.419E-28 1.900E-28 1.414E-28 0.000E+00 2.736E-26 1.020E-26 5.344E-27 3.240E-27 2.135E-27 1.486E-27 1.075E-27 8.018E-28 6.110E-28 4.730E-28 3.690E-28 2.864E-28 2.108E-28 0.000E+00 3.350E-26 1.252E-26 6.579E-27 4.000E-27 2.640E-27 1.840E-27 1.333E-27 9.931E-28 7.548E-28 5.800E-28 4.443E-28 3.231E-28 0.000E+00 4.170E-26 1.562E-26 8.236E-27 5.021E-27 3.322E-27 2.319E-27 1.680E-27 1.249E-27 9.434E-28 7.122E-28 5.112E-28 0.000E+00 5.289E-26 1.987E-26 1.051E-26 6.430E-27 4.265E-27 2.981E-27 2.158E-27 1.597E-27 1.186E-27 8.391E-28 0.000E+00 6.859E-26 2.584E-26 1.373E-26 8.434E-27 5.611E-27 3.925E-27 2.832E-27 2.063E-27 1.438E-27 0.000E+00 9.134E-26 3.454E-26 1.846E-26 1.139E-26 7.600E-27 5.311E-27 3.783E-27 2.592E-27 0.000E+00 1.257E-25 4.776E-26 2.570E-26 1.595E-26 1.067E-26 7.388E-27 4.966E-27 0.000E+00 1.802E-25 6.893E-26 3.744E-26 2.340E-26 1.560E-26 1.025E-26 0.000E+00 2.729E-25 1.053E-25 5.793E-26 3.638E-26 2.325E-26 0.000E+00 4.453E-25 1.742E-25 9.733E-26 5.955E-26 0.000E+00 8.114E-25 3.238E-25 1.806E-25 0.000E+00 1.768E-24 7.154E-25 0.000E+00 5.347E-24 4.404E-23
1.000E+06 2 2.000E+04 B 62 25
0.000E+00 9.732E-27 3.162E-27 1.437E-27 7.805E-28 4.738E-28 3.103E-28 2.147E-28 1.550E-28 1.156E-28 8.858E-29 6.938E-29 5.535E-29 4.485E-29 3.684E-29 3.060E-29 2.568E-29 2.172E-29 1.851E-29 1.585E-29 1.361E-29 1.168E-29 9.901E-30 7.942E-30 0.000E+00 1.048E-26 3.441E-27 1.580E-27 8.654E-28 5.288E-28 3.481E-28 2.419E-28 1.752E-28 1.310E-28 1.006E-28 7.891E-29 6.304E-29 5.113E-29 4.201E-29 3.491E-29 2.928E-29 2.475E-29 2.104E-29 1.796E-29 1.531E-29 1.291E-29 1.030E-29 0.000E+00 1.132E-26 3.760E-27 1.746E-27 9.654E-28 5.942E-28 3.933E-28 2.745E-28 1.994E-28 1.496E-28 1.151E-28 9.041E-29 7.230E-29 5.868E-29 4.823E-29 4.006E-29 3.357E-29 2.832E-29 2.399E-29 2.032E-29 1.703E-29 1.350E-29 0.000E+00 1.228E-26 4.130E-27 1.943E-27 1.085E-27 6.727E-28 4.479E-28 3.140E-28 2.289E-28 1.721E-28 1.326E-28 1.044E-28 8.352E-29 6.781E-29 5.572E-29 4.623E-29 3.866E-29 3.249E-29 2.731E-29 2.273E-29 1.790E-29 0.000E+00 1.340E-26 4.568E-27 2.177E-27 1.229E-27 7.680E-28 5.143E-28 3.621E-28 2.648E-28 1.996E-28 1.541E-28 1.213E-28 9.715E-29 7.885E-29 6.473E-29 5.360E-29 4.464E-29 3.722E-29 3.073E-29 2.403E-29 0.000E+00 1.476E-26 5.094E-27 2.463E-27 1.405E-27 8.847E-28 5.958E-28 4.212E-28 3.090E-28 2.333E-28 1.804E-28 1.421E-28 1.138E-28 9.224E-29 7.555E-29 6.230E-29 5.147E-29 4.213E-29 3.268E-29 0.000E+00 1.642E-26 5.739E-27 2.813E-27 1.621E-27 1.029E-27 6.968E-28 4.945E-28 3.636E-28 2.750E-28 2.128E-28 1.677E-28 1.341E-28 1.085E-28 8.845E-29 7.234E-29 5.867E-29 4.509E-29 0.000E+00 1.850E-26 6.542E-27 3.250E-27 1.892E-27 1.210E-27 8.230E-28 5.860E-28 4.318E-28 3.270E-28 2.530E-28 1.992E-28 1.589E-28 1.280E-28 1.035E-28 8.310E-29 6.325E-29 0.000E+00 2.115E-26 7.559E-27 3.803E-27 2.235E-27 1.437E-27 9.824E-28 7.014E-28 5.177E-28 3.922E-28 3.032E-28 2.382E-28 1.893E-28 1.512E-28 1.200E-28 9.037E-29 0.000E+00 2.457E-26 8.868E-27 4.512E-27 2.673E-27 1.729E-27 1.186E-27 8.486E-28 6.270E-28 4.748E-28 3.665E-28 2.867E-28 2.259E-28 1.771E-28 1.318E-28 0.000E+00 2.905E-26 1.058E-26 5.434E-27 3.242E-27 2.107E-27 1.450E-27 1.039E-27 7.678E-28 5.807E-28 4.465E-28 3.465E-28 2.679E-28 1.970E-28 0.000E+00 3.500E-26 1.285E-26 6.654E-27 3.993E-27 2.606E-27 1.797E-27 1.289E-27 9.521E-28 7.177E-28 5.476E-28 4.172E-28 3.025E-28 0.000E+00 4.304E-26 1.592E-26 8.298E-27 5.005E-27 3.277E-27 2.265E-27 1.625E-27 1.197E-27 8.959E-28 6.712E-28 4.795E-28 0.000E+00 5.413E-26 2.015E-26 1.056E-26 6.400E-27 4.204E-27 2.908E-27 2.084E-27 1.526E-27 1.122E-27 7.885E-28 0.000E+00 6.981E-26 2.613E-26 1.377E-26 8.382E-27 5.521E-27 3.820E-27 2.724E-27 1.962E-27 1.354E-27 0.000E+00 9.266E-26 3.485E-26 1.848E-26 1.130E-26 7.458E-27 5.147E-27 3.617E-27 2.447E-27 0.000E+00 1.272E-25 4.811E-26 2.569E-26 1.579E-26 1.042E-26 7.110E-27 4.705E-27 0.000E+00 1.822E-25 6.936E-26 3.735E-26 2.306E-26 1.513E-26 9.758E-27 0.000E+00 2.757E-25 1.058E-25 5.760E-26 3.560E-26 2.226E-26 0.000E+00 4.497E-25 1.747E-25 9.617E-26 5.744E-26 0.000E+00 8.188E-25 3.231E-25 1.758E-25 0.000E+00 1.780E-24 7.044E-25 0.000E+00 5.340E-24 5.210E-23
1.000E+07 2 2.000E+04 B 50 25
0.000E+00 1.268E-26 3.929E-27 1.704E-27 8.903E-28 5.231E-28 3.334E-28 2.255E-28 1.596E-28 1.171E-28 8.848E-29 6.844E-29 5.402E-29 4.336E-29 3.531E-29 2.912E-29 2.427E-29 2.041E-29 1.730E-29 1.475E-29 1.261E-29 1.078E-29 9.119E-30 7.300E-30 0.000E+00 1.389E-26 4.314E-27 1.876E-27 9.823E-28 5.783E-28 3.692E-28 2.501E-28 1.772E-28 1.302E-28 9.841E-29 7.618E-29 6.016E-29 4.831E-29 3.935E-29 3.244E-29 2.703E-29 2.271E-29 1.922E-29 1.633E-29 1.387E-29 1.166E-29 9.291E-30 0.000E+00 1.526E-26 4.755E-27 2.075E-27 1.090E-27 6.431E-28 4.114E-28 2.792E-28 1.982E-28 1.458E-28 1.103E-28 8.546E-29 6.753E-29 5.425E-29 4.419E-29 3.643E-29 3.033E-29 2.545E-29 2.146E-29 1.811E-29 1.514E-29 1.199E-29 0.000E+00 1.680E-26 5.259E-27 2.306E-27 1.215E-27 7.197E-28 4.617E-28 3.140E-28 2.233E-28 1.645E-28 1.247E-28 9.669E-29 7.646E-29 6.145E-29 5.007E-29 4.125E-29 3.430E-29 2.869E-29 2.404E-29 1.996E-29 1.572E-29 0.000E+00 1.853E-26 5.837E-27 2.574E-27 1.364E-27 8.108E-28 5.219E-28 3.560E-28 2.538E-28 1.873E-28 1.422E-28 1.104E-28 8.739E-29 7.027E-29 5.724E-29 4.711E-29 3.906E-29 3.247E-29 2.678E-29 2.095E-29 0.000E+00 2.049E-26 6.501E-27 2.888E-27 1.540E-27 9.205E-28 5.951E-28 4.074E-28 2.913E-28 2.155E-28 1.639E-28 1.274E-28 1.009E-28 8.117E-29 6.607E-29 5.424E-29 4.470E-29 3.657E-29 2.842E-29 0.000E+00 2.268E-26 7.269E-27 3.261E-27 1.752E-27 1.054E-27 6.852E-28 4.711E-28 3.380E-28 2.507E-28 1.910E-28 1.487E-28 1.179E-28 9.475E-29 7.694E-29 6.280E-29 5.094E-29 3.928E-29 0.000E+00 2.519E-26 8.169E-27 3.708E-27 2.012E-27 1.220E-27 7.979E-28 5.512E-28 3.970E-28 2.953E-28 2.255E-28 1.757E-28 1.393E-28 1.117E-28 9.018E-29 7.245E-29 5.537E-29 0.000E+00 2.810E-26 9.244E-27 4.256E-27 2.337E-27 1.430E-27 9.414E-28 6.538E-28 4.727E-28 3.526E-28 2.696E-28 2.102E-28 1.663E-28 1.326E-28 1.053E-28 7.970E-29 0.000E+00 3.158E-26 1.056E-26 4.944E-27 2.750E-27 1.699E-27 1.127E-27 7.871E-28 5.712E-28 4.271E-28 3.267E-28 2.543E-28 1.999E-28 1.569E-28 1.173E-28 0.000E+00 3.592E-26 1.222E-26 5.827E-27 3.288E-27 2.053E-27 1.372E-27 9.629E-28 7.009E-28 5.245E-28 4.006E-28 3.099E-28 2.397E-28 1.769E-28 0.000E+00 4.155E-26 1.438E-26 6.993E-27 4.004E-27 2.525E-27 1.699E-27 1.198E-27 8.731E-28 6.525E-28 4.954E-28 3.768E-28 2.738E-28 0.000E+00 4.912E-26 1.729E-26 8.572E-27 4.977E-27 3.169E-27 2.145E-27 1.515E-27 1.104E-27 8.200E-28 6.119E-28 4.371E-28 0.000E+00 5.964E-26 2.134E-26 1.077E-26 6.331E-27 4.063E-27 2.761E-27 1.950E-27 1.413E-27 1.032E-27 7.230E-28 0.000E+00 7.474E-26 2.713E-26 1.391E-26 8.263E-27 5.335E-27 3.630E-27 2.553E-27 1.819E-27 1.248E-27 0.000E+00 9.709E-26 3.572E-26 1.854E-26 1.111E-26 7.198E-27 4.885E-27 3.384E-27 2.265E-27 0.000E+00 1.314E-25 4.890E-26 2.565E-26 1.547E-26 1.002E-26 6.713E-27 4.376E-27 0.000E+00 1.867E-25 7.013E-26 3.713E-26 2.248E-26 1.443E-26 9.125E-27 0.000E+00 2.812E-25 1.066E-25 5.695E-26 3.438E-26 2.095E-26 0.000E+00 4.574E-25 1.752E-25 9.422E-26 5.457E-26 0.000E+00 8.312E-25 3.217E-25 1.691E-25 0.000E+00 1.800E-24 6.885E-25 0.000E+00 5.336E-24 5.879E-23
1.000E+08 2 2.000E+04 B 50 25
0.000E+00 1.647E-26 5.059E-27 2.176E-27 1.128E-27 6.581E-28 4.170E-28 2.806E-28 1.977E-28 1.445E-28 1.087E-28 8.380E-29 6.593E-29 5.277E-29 4.286E-29 3.525E-29 2.931E-29 2.460E-29 2.080E-29 1.770E-29 1.511E-29 1.289E-29 1.088E-29 8.690E-30 0.000E+00 1.782E-26 5.475E-27 2.356E-27 1.221E-27 7.129E-28 4.518E-28 3.040E-28 2.142E-28 1.565E-28 1.178E-28 9.081E-29 7.143E-29 5.716E-29 4.641E-29 3.815E-29 3.169E-29 2.656E-29 2.241E-29 1.899E-29 1.610E-29 1.351E-29 1.073E-29 0.000E+00 1.935E-26 5.946E-27 2.559E-27 1.327E-27 7.751E-28 4.913E-28 3.307E-28 2.331E-28 1.703E-28 1.282E-28 9.878E-29 7.769E-29 6.215E-29 5.043E-29 4.142E-29 3.437E-29 2.874E-29 2.416E-29 2.033E-29 1.695E-29 1.339E-29 0.000E+00 2.110E-26 6.490E-27 2.795E-27 1.451E-27 8.474E-28 5.373E-28 3.618E-28 2.550E-28 1.864E-28 1.402E-28 1.081E-28 8.499E-29 6.795E-29 5.510E-29 4.520E-29 3.743E-29 3.119E-29 2.604E-29 2.155E-29 1.691E-29 0.000E+00 2.318E-26 7.134E-27 3.075E-27 1.597E-27 9.336E-28 5.923E-28 3.989E-28 2.813E-28 2.056E-28 1.547E-28 1.192E-28 9.372E-29 7.488E-29 6.065E-29 4.966E-29 4.097E-29 3.390E-29 2.784E-29 2.170E-29 0.000E+00 2.566E-26 7.908E-27 3.413E-27 1.775E-27 1.038E-27 6.591E-28 4.442E-28 3.133E-28 2.291E-28 1.724E-28 1.328E-28 1.044E-28 8.330E-29 6.735E-29 5.496E-29 4.503E-29 3.666E-29 2.835E-29 0.000E+00 2.866E-26 8.848E-27 3.826E-27 1.992E-27 1.167E-27 7.416E-28 5.002E-28 3.531E-28 2.582E-28 1.944E-28 1.497E-28 1.175E-28 9.366E-29 7.548E-29 6.118E-29 4.933E-29 3.783E-29 0.000E+00 3.228E-26 9.991E-27 4.331E-27 2.260E-27 1.327E-27 8.443E-28 5.702E-28 4.028E-28 2.948E-28 2.219E-28 1.709E-28 1.339E-28 1.064E-28 8.523E-29 6.799E-29 5.165E-29 0.000E+00 3.664E-26 1.138E-26 4.952E-27 2.593E-27 1.526E-27 9.732E-28 6.583E-28 4.657E-28 3.411E-28 2.568E-28 1.976E-28 1.545E-28 1.220E-28 9.621E-29 7.235E-29 0.000E+00 4.186E-26 1.308E-26 5.720E-27 3.008E-27 1.777E-27 1.137E-27 7.710E-28 5.463E-28 4.005E-28 3.015E-28 2.316E-28 1.801E-28 1.402E-28 1.042E-28 0.000E+00 4.811E-26 1.514E-26 6.676E-27 3.534E-27 2.099E-27 1.349E-27 9.177E-28 6.518E-28 4.783E-28 3.598E-28 2.751E-28 2.109E-28 1.549E-28 0.000E+00 5.562E-26 1.770E-26 7.887E-27 4.214E-27 2.521E-27 1.629E-27 1.113E-27 7.927E-28 5.820E-28 4.362E-28 3.290E-28 2.383E-28 0.000E+00 6.479E-26 2.092E-26 9.461E-27 5.117E-27 3.091E-27 2.012E-27 1.381E-27 9.855E-28 7.218E-28 5.342E-28 3.807E-28 0.000E+00 7.635E-26 2.511E-26 1.158E-26 6.359E-27 3.885E-27 2.549E-27 1.757E-27 1.253E-27 9.066E-28 6.341E-28 0.000E+00 9.178E-26 3.083E-26 1.455E-26 8.136E-27 5.033E-27 3.325E-27 2.294E-27 1.617E-27 1.105E-27 0.000E+00 1.137E-25 3.909E-26 1.893E-26 1.078E-26 6.743E-27 4.468E-27 3.050E-27 2.029E-27 0.000E+00 1.471E-25 5.174E-26 2.571E-26 1.489E-26 9.366E-27 6.149E-27 3.962E-27 0.000E+00 2.011E-25 7.236E-26 3.676E-26 2.151E-26 1.345E-26 8.343E-27 0.000E+00 2.951E-25 1.082E-25 5.586E-26 3.264E-26 1.935E-26 0.000E+00 4.730E-25 1.760E-25 9.134E-26 5.100E-26 0.000E+00 8.524E-25 3.193E-25 1.605E-25 0.000E+00 1.833E-24 6.677E-25 0.000E+00 5.344E-24 6.098E-23
1.000E+02 2 3.000E+04 B 245 25
0.000E+00 4.259E-27 1.523E-27 7.666E-28 4.497E-28 2.887E-28 1.970E-28 1.407E-28 1.040E-28 7.905E-29 6.149E-29 4.876E-29 3.930E-29 3.211E-29 2.656E-29 2.219E-29 1.870E-29 1.588E-29 1.356E-29 1.162E-29 9.974E-30 8.530E-30 7.182E-30 5.674E-30 0.000E+00 4.810E-27 1.720E-27 8.661E-28 5.083E-28 3.264E-28 2.228E-28 1.591E-28 1.177E-28 8.947E-29 6.961E-29 5.520E-29 4.448E-29 3.635E-29 3.005E-29 2.509E-29 2.113E-29 1.791E-29 1.525E-29 1.302E-29 1.107E-29 9.277E-30 7.294E-30 0.000E+00 5.460E-27 1.953E-27 9.837E-28 5.776E-28 3.711E-28 2.534E-28 1.810E-28 1.339E-28 1.018E-28 7.922E-29 6.282E-29 5.063E-29 4.136E-29 3.417E-29 2.851E-29 2.397E-29 2.027E-29 1.719E-29 1.454E-29 1.212E-29 9.479E-30 0.000E+00 6.232E-27 2.229E-27 1.124E-27 6.601E-28 4.243E-28 2.898E-28 2.071E-28 1.532E-28 1.166E-28 9.070E-29 7.193E-29 5.795E-29 4.732E-29 3.908E-29 3.256E-29 2.731E-29 2.299E-29 1.933E-29 1.602E-29 1.246E-29 0.000E+00 7.159E-27 2.561E-27 1.292E-27 7.591E-28 4.882E-28 3.337E-28 2.385E-28 1.765E-28 1.343E-28 1.045E-28 8.288E-29 6.676E-29 5.448E-29 4.493E-29 3.736E-29 3.121E-29 2.605E-29 2.146E-29 1.660E-29 0.000E+00 8.279E-27 2.963E-27 1.495E-27 8.792E-28 5.657E-28 3.868E-28 2.766E-28 2.048E-28 1.559E-28 1.213E-28 9.617E-29 7.743E-29 6.312E-29 5.196E-29 4.303E-29 3.565E-29 2.917E-29 2.243E-29 0.000E+00 9.646E-27 3.453E-27 1.744E-27 1.026E-27 6.607E-28 4.520E-28 3.234E-28 2.395E-28 1.823E-28 1.419E-28 1.125E-28 9.047E-29 7.362E-29 6.037E-29 4.960E-29 4.029E-29 3.077E-29 0.000E+00 1.133E-26 4.058E-27 2.051E-27 1.208E-27 7.783E-28 5.329E-28 3.815E-28 2.826E-28 2.151E-28 1.674E-28 1.326E-28 1.065E-28 8.638E-29 7.030E-29 5.665E-29 4.296E-29 0.000E+00 1.344E-26 4.814E-27 2.435E-27 1.436E-27 9.259E-28 6.344E-28 4.544E-28 3.367E-28 2.564E-28 1.994E-28 1.578E-28 1.263E-28 1.017E-28 8.124E-29 6.113E-29 0.000E+00 1.611E-26 5.772E-27 2.923E-27 1.725E-27 1.114E-27 7.636E-28 5.473E-28 4.058E-28 3.089E-28 2.401E-28 1.894E-28 1.506E-28 1.191E-28 8.888E-29 0.000E+00 1.953E-26 7.004E-27 3.551E-27 2.099E-27 1.356E-27 9.310E-28 6.677E-28 4.951E-28 3.767E-28 2.921E-28 2.291E-28 1.791E-28 1.324E-28 0.000E+00 2.401E-26 8.615E-27 4.375E-27 2.590E-27 1.676E-27 1.152E-27 8.265E-28 6.129E-28 4.655E-28 3.591E-28 2.770E-28 2.027E-28 0.000E+00 2.998E-26 1.077E-26 5.478E-27 3.249E-27 2.106E-27 1.449E-27 1.040E-27 7.708E-28 5.829E-28 4.429E-28 3.203E-28 0.000E+00 3.812E-26 1.371E-26 6.990E-27 4.155E-27 2.699E-27 1.859E-27 1.335E-27 9.858E-28 7.354E-28 5.248E-28 0.000E+00 4.954E-26 1.784E-26 9.125E-27 5.439E-27 3.541E-27 2.442E-27 1.750E-27 1.277E-27 8.976E-28 0.000E+00 6.610E-26 2.385E-26 1.224E-26 7.324E-27 4.781E-27 3.296E-27 2.341E-27 1.615E-27 0.000E+00 9.108E-26 3.295E-26 1.700E-26 1.021E-26 6.681E-27 4.579E-27 3.089E-27 0.000E+00 1.307E-25 4.747E-26 2.465E-26 1.489E-26 9.720E-27 6.371E-27 0.000E+00 1.980E-25 7.225E-26 3.784E-26 2.295E-26 1.446E-26 0.000E+00 3.227E-25 1.186E-25 6.278E-26 3.723E-26 0.000E+00 5.855E-25 2.171E-25 1.144E-25 0.000E+00 1.261E-24 4.661E-25 0.000E+00 3.707E-24 2.946E-23
1.000E+03 2 3.000E+04 B 192 25
0.000E+00 4.273E-27 1.526E-27 7.675E-28 4.499E-28 2.886E-28 1.968E-28 1.404E-28 1.037E-28 7.874E-29 6.118E-29 4.846E-29 3.901E-29 3.183E-29 2.629E-29 2.193E-29 1.845E-29 1.563E-29 1.332E-29 1.140E-29 9.762E-30 8.336E-30 7.018E-30 5.563E-30 0.000E+00 4.823E-27 1.723E-27 8.671E-28 5.085E-28 3.263E-28 2.226E-28 1.588E-28 1.173E-28 8.912E-29 6.926E-29 5.485E-29 4.415E-29 3.602E-29 2.973E-29 2.478E-29 2.083E-29 1.762E-29 1.497E-29 1.275E-29 1.083E-29 9.065E-30 7.149E-30 0.000E+00 5.472E-27 1.956E-27 9.847E-28 5.777E-28 3.709E-28 2.531E-28 1.806E-28 1.335E-28 1.014E-28 7.882E-29 6.243E-29 5.024E-29 4.097E-29 3.380E-29 2.814E-29 2.361E-29 1.992E-29 1.685E-29 1.422E-29 1.184E-29 9.288E-30 0.000E+00 6.245E-27 2.233E-27 1.125E-27 6.602E-28 4.240E-28 2.895E-28 2.067E-28 1.528E-28 1.161E-28 9.022E-29 7.146E-29 5.749E-29 4.686E-29 3.862E-29 3.211E-29 2.687E-29 2.257E-29 1.892E-29 1.566E-29 1.221E-29 0.000E+00 7.172E-27 2.565E-27 1.293E-27 7.593E-28 4.879E-28 3.332E-28 2.380E-28 1.760E-28 1.337E-28 1.039E-28 8.231E-29 6.620E-29 5.392E-29 4.438E-29 3.680E-29 3.066E-29 2.553E-29 2.099E-29 1.626E-29 0.000E+00 8.292E-27 2.967E-27 1.496E-27 8.793E-28 5.654E-28 3.863E-28 2.760E-28 2.041E-28 1.552E-28 1.206E-28 9.548E-29 7.674E-29 6.243E-29 5.126E-29 4.233E-29 3.497E-29 2.854E-29 2.196E-29 0.000E+00 9.661E-27 3.457E-27 1.745E-27 1.026E-27 6.603E-28 4.514E-28 3.227E-28 2.387E-28 1.815E-28 1.410E-28 1.116E-28 8.959E-29 7.273E-29 5.947E-29 4.870E-29 3.945E-29 3.013E-29 0.000E+00 1.135E-26 4.063E-27 2.052E-27 1.208E-27 7.778E-28 5.321E-28 3.805E-28 2.816E-28 2.141E-28 1.663E-28 1.315E-28 1.054E-28 8.521E-29 6.912E-29 5.551E-29 4.206E-29 0.000E+00 1.346E-26 4.820E-27 2.437E-27 1.436E-27 9.252E-28 6.334E-28 4.532E-28 3.355E-28 2.551E-28 1.980E-28 1.563E-28 1.248E-28 1.001E-28 7.969E-29 5.986E-29 0.000E+00 1.613E-26 5.778E-27 2.925E-27 1.725E-27 1.113E-27 7.624E-28 5.458E-28 4.041E-28 3.071E-28 2.382E-28 1.874E-28 1.485E-28 1.170E-28 8.706E-29 0.000E+00 1.956E-26 7.011E-27 3.553E-27 2.098E-27 1.355E-27 9.293E-28 6.657E-28 4.929E-28 3.743E-28 2.895E-28 2.263E-28 1.761E-28 1.297E-28 0.000E+00 2.404E-26 8.624E-27 4.377E-27 2.589E-27 1.674E-27 1.149E-27 8.238E-28 6.098E-28 4.621E-28 3.552E-28 2.728E-28 1.987E-28 0.000E+00 3.001E-26 1.078E-26 5.480E-27 3.248E-27 2.103E-27 1.446E-27 1.036E-27 7.662E-28 5.776E-28 4.368E-28 3.143E-28 0.000E+00 3.817E-26 1.372E-26 6.993E-27 4.154E-27 2.695E-27 1.854E-27 1.329E-27 9.785E-28 7.267E-28 5.156E-28 0.000E+00 4.960E-26 1.786E-26 9.128E-27 5.437E-27 3.535E-27 2.434E-27 1.740E-27 1.264E-27 8.828E-28 0.000E+00 6.617E-26 2.387E-26 1.225E-26 7.319E-27 4.771E-27 3.282E-27 2.321E-27 1.591E-27 0.000E+00 9.118E-26 3.298E-26 1.700E-26 1.020E-26 6.662E-27 4.550E-27 3.048E-27 0.000E+00 1.309E-25 4.751E-26 2.464E-26 1.487E-26 9.675E-27 6.299E-27 0.000E+00 1.982E-25 7.230E-26 3.782E-26 2.288E-26 1.433E-26 0.000E+00 3.231E-25 1.186E-25 6.269E-26 3.697E-26 0.000E+00 5.861E-25 2.171E-25 1.138E-25 0.000E+00 1.262E-24 4.649E-25 0.000E+00 3.705E-24 2.948E-23
1.000E+04 2 3.000E+04 B 131 25
0.000E+00 4.357E-27 1.542E-27 7.712E-28 4.503E-28 2.880E-28 1.959E-28 1.394E-28 1.028E-28 7.791E-29 6.043E-29 4.777E-29 3.838E-29 3.126E-29 2.576E-29 2.144E-29 1.801E-29 1.523E-29 1.295E-29 1.106E-29 9.466E-30 8.078E-30 6.803E-30 5.404E-30 0.000E+00 4.899E-27 1.738E-27 8.705E-28 5.088E-28 3.257E-28 2.217E-28 1.578E-28 1.164E-28 8.824E-29 6.844E-29 5.410E-29 4.345E-29 3.538E-29 2.914E-29 2.424E-29 2.033E-29 1.716E-29 1.455E-29 1.237E-29 1.050E-29 8.790E-30 6.945E-30 0.000E+00 5.540E-27 1.969E-27 9.879E-28 5.780E-28 3.702E-28 2.521E-28 1.796E-28 1.325E-28 1.005E-28 7.792E-29 6.159E-29 4.946E-29 4.025E-29 3.312E-29 2.752E-29 2.304E-29 1.939E-29 1.637E-29 1.380E-29 1.149E-29 9.022E-30 0.000E+00 6.306E-27 2.245E-27 1.128E-27 6.605E-28 4.233E-28 2.884E-28 2.056E-28 1.517E-28 1.150E-28 8.922E-29 7.051E-29 5.659E-29 4.602E-29 3.784E-29 3.138E-29 2.620E-29 2.195E-29 1.837E-29 1.519E-29 1.186E-29 0.000E+00 7.227E-27 2.577E-27 1.296E-27 7.595E-28 4.871E-28 3.321E-28 2.368E-28 1.747E-28 1.325E-28 1.028E-28 8.121E-29 6.515E-29 5.293E-29 4.344E-29 3.593E-29 2.986E-29 2.481E-29 2.037E-29 1.579E-29 0.000E+00 8.343E-27 2.978E-27 1.499E-27 8.794E-28 5.645E-28 3.851E-28 2.746E-28 2.027E-28 1.538E-28 1.193E-28 9.418E-29 7.549E-29 6.124E-29 5.013E-29 4.128E-29 3.401E-29 2.771E-29 2.133E-29 0.000E+00 9.709E-27 3.469E-27 1.748E-27 1.026E-27 6.592E-28 4.499E-28 3.210E-28 2.370E-28 1.798E-28 1.394E-28 1.100E-28 8.806E-29 7.126E-29 5.809E-29 4.742E-29 3.833E-29 2.927E-29 0.000E+00 1.140E-26 4.075E-27 2.055E-27 1.208E-27 7.765E-28 5.303E-28 3.786E-28 2.796E-28 2.121E-28 1.643E-28 1.295E-28 1.035E-28 8.337E-29 6.739E-29 5.397E-29 4.086E-29 0.000E+00 1.350E-26 4.832E-27 2.440E-27 1.436E-27 9.236E-28 6.312E-28 4.508E-28 3.330E-28 2.525E-28 1.955E-28 1.538E-28 1.223E-28 9.779E-29 7.754E-29 5.816E-29 0.000E+00 1.617E-26 5.792E-27 2.928E-27 1.725E-27 1.111E-27 7.597E-28 5.428E-28 4.009E-28 3.039E-28 2.349E-28 1.841E-28 1.453E-28 1.140E-28 8.461E-29 0.000E+00 1.961E-26 7.026E-27 3.557E-27 2.098E-27 1.352E-27 9.258E-28 6.617E-28 4.887E-28 3.699E-28 2.850E-28 2.217E-28 1.718E-28 1.261E-28 0.000E+00 2.410E-26 8.641E-27 4.381E-27 2.588E-27 1.671E-27 1.145E-27 8.184E-28 6.040E-28 4.560E-28 3.489E-28 2.666E-28 1.933E-28 0.000E+00 3.008E-26 1.080E-26 5.484E-27 3.246E-27 2.098E-27 1.439E-27 1.029E-27 7.578E-28 5.686E-28 4.276E-28 3.060E-28 0.000E+00 3.825E-26 1.374E-26 6.998E-27 4.150E-27 2.688E-27 1.845E-27 1.318E-27 9.657E-28 7.129E-28 5.025E-28 0.000E+00 4.971E-26 1.789E-26 9.132E-27 5.431E-27 3.524E-27 2.419E-27 1.722E-27 1.243E-27 8.617E-28 0.000E+00 6.631E-26 2.391E-26 1.225E-26 7.308E-27 4.751E-27 3.256E-27 2.289E-27 1.555E-27 0.000E+00 9.137E-26 3.303E-26 1.700E-26 1.018E-26 6.625E-27 4.499E-27 2.987E-27 0.000E+00 1.312E-25 4.757E-26 2.463E-26 1.482E-26 9.596E-27 6.189E-27 0.000E+00 1.986E-25 7.237E-26 3.778E-26 2.276E-26 1.412E-26 0.000E+00 3.237E-25 1.187E-25 6.251E-26 3.655E-26 0.000E+00 5.871E-25 2.170E-25 1.129E-25 0.000E+00 1.264E-24 4.628E-25 0.000E+00 3.703E-24 2.965E-23
1.000E+05 2 3.000E+04 B 92 25
0.000E+00 4.820E-27 1.647E-27 7.970E-28 4.548E-28 2.863E-28 1.926E-28 1.359E-28 9.958E-29 7.511E-29 5.803E-29 4.573E-29 3.665E-29 2.979E-29 2.451E-29 2.038E-29 1.710E-29 1.445E-29 1.229E-29 1.050E-29 8.989E-30 7.680E-30 6.479E-30 5.162E-30 0.000E+00 5.333E-27 1.833E-27 8.931E-28 5.122E-28 3.236E-28 2.181E-28 1.542E-28 1.131E-28 8.538E-29 6.599E-29 5.201E-29 4.167E-29 3.386E-29 2.784E-29 2.312E-29 1.937E-29 1.634E-29 1.386E-29 1.178E-29 1.000E-29 8.386E-30 6.643E-30 0.000E+00 5.944E-27 2.054E-27 1.008E-27 5.804E-28 3.678E-28 2.485E-28 1.759E-28 1.291E-28 9.753E-29 7.539E-29 5.942E-29 4.759E-29 3.864E-29 3.174E-29 2.633E-29 2.202E-29 1.852E-29 1.563E-29 1.317E-29 1.098E-29 8.641E-30 0.000E+00 6.677E-27 2.321E-27 1.145E-27 6.621E-28 4.206E-28 2.847E-28 2.018E-28 1.482E-28 1.120E-28 8.658E-29 6.822E-29 5.462E-29 4.431E-29 3.635E-29 3.010E-29 2.509E-29 2.100E-29 1.757E-29 1.454E-29 1.137E-29 0.000E+00 7.564E-27 2.643E-27 1.310E-27 7.604E-28 4.842E-28 3.282E-28 2.329E-28 1.712E-28 1.294E-28 1.000E-28 7.877E-29 6.301E-29 5.106E-29 4.181E-29 3.451E-29 2.863E-29 2.377E-29 1.951E-29 1.515E-29 0.000E+00 8.645E-27 3.036E-27 1.511E-27 8.797E-28 5.613E-28 3.810E-28 2.706E-28 1.990E-28 1.504E-28 1.162E-28 9.149E-29 7.311E-29 5.914E-29 4.829E-29 3.968E-29 3.264E-29 2.658E-29 2.048E-29 0.000E+00 9.977E-27 3.519E-27 1.758E-27 1.026E-27 6.558E-28 4.456E-28 3.167E-28 2.330E-28 1.761E-28 1.360E-28 1.070E-28 8.535E-29 6.885E-29 5.596E-29 4.559E-29 3.680E-29 2.811E-29 0.000E+00 1.163E-26 4.120E-27 2.064E-27 1.207E-27 7.727E-28 5.256E-28 3.738E-28 2.750E-28 2.078E-28 1.604E-28 1.260E-28 1.003E-28 8.052E-29 6.489E-29 5.187E-29 3.927E-29 0.000E+00 1.371E-26 4.873E-27 2.448E-27 1.434E-27 9.193E-28 6.259E-28 4.453E-28 3.277E-28 2.475E-28 1.908E-28 1.495E-28 1.185E-28 9.435E-29 7.461E-29 5.592E-29 0.000E+00 1.636E-26 5.830E-27 2.935E-27 1.723E-27 1.106E-27 7.534E-28 5.363E-28 3.945E-28 2.977E-28 2.291E-28 1.788E-28 1.405E-28 1.098E-28 8.138E-29 0.000E+00 1.978E-26 7.063E-27 3.564E-27 2.095E-27 1.346E-27 9.181E-28 6.536E-28 4.806E-28 3.621E-28 2.776E-28 2.149E-28 1.657E-28 1.214E-28 0.000E+00 2.426E-26 8.679E-27 4.388E-27 2.584E-27 1.662E-27 1.135E-27 8.079E-28 5.933E-28 4.456E-28 3.391E-28 2.576E-28 1.862E-28 0.000E+00 3.025E-26 1.084E-26 5.491E-27 3.240E-27 2.087E-27 1.426E-27 1.014E-27 7.432E-28 5.543E-28 4.142E-28 2.949E-28 0.000E+00 3.843E-26 1.379E-26 7.004E-27 4.141E-27 2.672E-27 1.826E-27 1.297E-27 9.444E-28 6.922E-28 4.848E-28 0.000E+00 4.992E-26 1.794E-26 9.137E-27 5.416E-27 3.500E-27 2.390E-27 1.690E-27 1.211E-27 8.326E-28 0.000E+00 6.658E-26 2.397E-26 1.225E-26 7.283E-27 4.712E-27 3.209E-27 2.237E-27 1.506E-27 0.000E+00 9.172E-26 3.310E-26 1.699E-26 1.014E-26 6.556E-27 4.415E-27 2.899E-27 0.000E+00 1.316E-25 4.766E-26 2.460E-26 1.472E-26 9.457E-27 6.025E-27 0.000E+00 1.993E-25 7.249E-26 3.768E-26 2.253E-26 1.380E-26 0.000E+00 3.248E-25 1.188E-25 6.218E-26 3.588E-26 0.000E+00 5.890E-25 2.168E-25 1.114E-25 0.000E+00 1.267E-24 4.594E-25 0.000E+00 3.699E-24 3.099E-23
1.000E+06 2 3.000E+04 B 62 25
0.000E+00 6.172E-27 1.985E-27 8.954E-28 4.835E-28 2.920E-28 1.904E-28 1.312E-28 9.438E-29 7.019E-29 5.363E-29 4.189E-29 3.335E-29 2.697E-29 2.210E-29 1.833E-29 1.535E-29 1.297E-29 1.103E-29 9.432E-30 8.090E-30 6.930E-30 5.868E-30 4.700E-30 0.000E+00 6.723E-27 2.179E-27 9.910E-28 5.388E-28 3.271E-28 2.142E-28 1.481E-28 1.068E-28 7.959E-29 6.091E-29 4.764E-29 3.796E-29 3.071E-29 2.518E-29 2.088E-29 1.748E-29 1.475E-29 1.252E-29 1.066E-29 9.076E-30 7.640E-30 6.085E-30 0.000E+00 7.353E-27 2.403E-27 1.103E-27 6.041E-28 3.689E-28 2.426E-28 1.684E-28 1.217E-28 9.089E-29 6.966E-29 5.454E-29 4.348E-29 3.519E-29 2.885E-29 2.391E-29 1.999E-29 1.683E-29 1.423E-29 1.203E-29 1.006E-29 7.962E-30 0.000E+00 8.086E-27 2.666E-27 1.236E-27 6.821E-28 4.191E-28 2.769E-28 1.928E-28 1.397E-28 1.045E-28 8.022E-29 6.287E-29 5.014E-29 4.058E-29 3.325E-29 2.752E-29 2.295E-29 1.925E-29 1.614E-29 1.341E-29 1.054E-29 0.000E+00 8.952E-27 2.977E-27 1.395E-27 7.763E-28 4.799E-28 3.185E-28 2.225E-28 1.616E-28 1.211E-28 9.306E-29 7.297E-29 5.819E-29 4.707E-29 3.851E-29 3.180E-29 2.641E-29 2.197E-29 1.810E-29 1.412E-29 0.000E+00 9.995E-27 3.353E-27 1.588E-27 8.912E-28 5.543E-28 3.694E-28 2.589E-28 1.885E-28 1.414E-28 1.087E-28 8.527E-29 6.796E-29 5.490E-29 4.481E-29 3.683E-29 3.035E-29 2.478E-29 1.917E-29 0.000E+00 1.127E-26 3.813E-27 1.825E-27 1.033E-27 6.462E-28 4.324E-28 3.038E-28 2.216E-28 1.664E-28 1.280E-28 1.003E-28 7.985E-29 6.433E-29 5.227E-29 4.261E-29 3.446E-29 2.642E-29 0.000E+00 1.285E-26 4.384E-27 2.121E-27 1.210E-27 7.608E-28 5.109E-28 3.598E-28 2.628E-28 1.975E-28 1.518E-28 1.188E-28 9.433E-29 7.566E-29 6.096E-29 4.877E-29 3.702E-29 0.000E+00 1.484E-26 5.106E-27 2.494E-27 1.433E-27 9.053E-28 6.098E-28 4.302E-28 3.145E-28 2.362E-28 1.814E-28 1.416E-28 1.120E-28 8.904E-29 7.039E-29 5.285E-29 0.000E+00 1.738E-26 6.031E-27 2.972E-27 1.718E-27 1.090E-27 7.357E-28 5.197E-28 3.800E-28 2.852E-28 2.185E-28 1.699E-28 1.331E-28 1.039E-28 7.707E-29 0.000E+00 2.069E-26 7.234E-27 3.592E-27 2.086E-27 1.328E-27 8.983E-28 6.351E-28 4.641E-28 3.477E-28 2.653E-28 2.045E-28 1.573E-28 1.151E-28 0.000E+00 2.506E-26 8.825E-27 4.409E-27 2.572E-27 1.641E-27 1.112E-27 7.861E-28 5.736E-28 4.281E-28 3.241E-28 2.452E-28 1.769E-28 0.000E+00 3.095E-26 1.097E-26 5.507E-27 3.223E-27 2.061E-27 1.398E-27 9.874E-28 7.182E-28 5.321E-28 3.954E-28 2.805E-28 0.000E+00 3.906E-26 1.391E-26 7.014E-27 4.118E-27 2.638E-27 1.789E-27 1.261E-27 9.111E-28 6.629E-28 4.619E-28 0.000E+00 5.052E-26 1.806E-26 9.141E-27 5.382E-27 3.452E-27 2.338E-27 1.639E-27 1.164E-27 7.945E-28 0.000E+00 6.719E-26 2.409E-26 1.224E-26 7.230E-27 4.640E-27 3.130E-27 2.160E-27 1.440E-27 0.000E+00 9.243E-26 3.324E-26 1.697E-26 1.004E-26 6.435E-27 4.283E-27 2.779E-27 0.000E+00 1.325E-25 4.782E-26 2.453E-26 1.455E-26 9.231E-27 5.797E-27 0.000E+00 2.006E-25 7.266E-26 3.748E-26 2.214E-26 1.334E-26 0.000E+00 3.268E-25 1.189E-25 6.156E-26 3.489E-26 0.000E+00 5.923E-25 2.162E-25 1.091E-25 0.000E+00 1.272E-24 4.539E-25 0.000E+00 3.694E-24 3.675E-23
1.000E+07 2 3.000E+04 B 50 25
0.000E+00 7.646E-27 2.366E-27 1.026E-27 5.353E-28 3.143E-28 2.002E-28 1.353E-28 9.574E-29 7.021E-29 5.301E-29 4.099E-29 3.233E-29 2.594E-29 2.112E-29 1.741E-29 1.450E-29 1.219E-29 1.033E-29 8.800E-30 7.524E-30 6.430E-30 5.434E-30 4.348E-30 0.000E+00 8.427E-27 2.613E-27 1.136E-27 5.939E-28 3.493E-28 2.228E-28 1.508E-28 1.068E-28 7.839E-29 5.922E-29 4.582E-29 3.616E-29 2.902E-29 2.362E-29 1.947E-29 1.621E-29 1.362E-29 1.151E-29 9.776E-30 8.302E-30 6.977E-30 5.553E-30 0.000E+00 9.317E-27 2.898E-27 1.263E-27 6.623E-28 3.904E-28 2.495E-28 1.691E-28 1.199E-28 8.813E-29 6.664E-29 5.159E-29 4.073E-29 3.270E-29 2.662E-29 2.193E-29 1.825E-29 1.530E-29 1.289E-29 1.087E-29 9.083E-30 7.189E-30 0.000E+00 1.033E-26 3.226E-27 1.412E-27 7.427E-28 4.391E-28 2.812E-28 1.910E-28 1.357E-28 9.984E-29 7.557E-29 5.856E-29 4.626E-29 3.715E-29 3.024E-29 2.489E-29 2.068E-29 1.728E-29 1.447E-29 1.201E-29 9.445E-30 0.000E+00 1.149E-26 3.606E-27 1.586E-27 8.379E-28 4.971E-28 3.194E-28 2.175E-28 1.548E-28 1.141E-28 8.645E-29 6.705E-29 5.300E-29 4.256E-29 3.463E-29 2.847E-29 2.358E-29 1.958E-29 1.613E-29 1.261E-29 0.000E+00 1.282E-26 4.048E-27 1.791E-27 9.517E-28 5.671E-28 3.657E-28 2.497E-28 1.782E-28 1.316E-28 9.985E-29 7.752E-29 6.130E-29 4.922E-29 4.000E-29 3.280E-29 2.699E-29 2.205E-29 1.711E-29 0.000E+00 1.435E-26 4.566E-27 2.037E-27 1.089E-27 6.527E-28 4.227E-28 2.897E-28 2.072E-28 1.533E-28 1.166E-28 9.056E-29 7.163E-29 5.746E-29 4.658E-29 3.794E-29 3.072E-29 2.364E-29 0.000E+00 1.615E-26 5.182E-27 2.334E-27 1.259E-27 7.589E-28 4.940E-28 3.398E-28 2.438E-28 1.808E-28 1.376E-28 1.070E-28 8.455E-29 6.765E-29 5.449E-29 4.367E-29 3.330E-29 0.000E+00 1.828E-26 5.928E-27 2.701E-27 1.470E-27 8.930E-28 5.844E-28 4.037E-28 2.905E-28 2.159E-28 1.644E-28 1.278E-28 1.007E-28 8.009E-29 6.345E-29 4.786E-29 0.000E+00 2.090E-26 6.852E-27 3.163E-27 1.740E-27 1.065E-27 7.011E-28 4.863E-28 3.509E-28 2.610E-28 1.988E-28 1.541E-28 1.207E-28 9.436E-29 7.032E-29 0.000E+00 2.419E-26 8.024E-27 3.757E-27 2.090E-27 1.290E-27 8.541E-28 5.946E-28 4.298E-28 3.198E-28 2.429E-28 1.870E-28 1.440E-28 1.058E-28 0.000E+00 2.846E-26 9.554E-27 4.541E-27 2.555E-27 1.590E-27 1.058E-27 7.383E-28 5.340E-28 3.963E-28 2.991E-28 2.262E-28 1.636E-28 0.000E+00 3.416E-26 1.161E-26 5.601E-27 3.186E-27 1.996E-27 1.333E-27 9.315E-28 6.724E-28 4.956E-28 3.674E-28 2.609E-28 0.000E+00 4.200E-26 1.445E-26 7.069E-27 4.059E-27 2.557E-27 1.711E-27 1.194E-27 8.565E-28 6.202E-28 4.314E-28 0.000E+00 5.313E-26 1.850E-26 9.159E-27 5.299E-27 3.350E-27 2.242E-27 1.556E-27 1.096E-27 7.449E-28 0.000E+00 6.950E-26 2.446E-26 1.222E-26 7.112E-27 4.502E-27 3.000E-27 2.048E-27 1.355E-27 0.000E+00 9.453E-26 3.355E-26 1.689E-26 9.863E-27 6.231E-27 4.091E-27 2.624E-27 0.000E+00 1.347E-25 4.810E-26 2.436E-26 1.424E-26 8.889E-27 5.497E-27 0.000E+00 2.031E-25 7.289E-26 3.709E-26 2.153E-26 1.271E-26 0.000E+00 3.302E-25 1.189E-25 6.052E-26 3.350E-26 0.000E+00 5.977E-25 2.152E-25 1.058E-25 0.000E+00 1.281E-24 4.457E-25 0.000E+00 3.689E-24 4.206E-23
1.000E+08 2 3.000E+04 B 50 25
0.000E+00 9.372E-27 2.878E-27 1.238E-27 6.414E-28 3.743E-28 2.371E-28 1.595E-28 1.124E-28 8.212E-29 6.179E-29 4.763E-29 3.747E-29 2.999E-29 2.436E-29 2.003E-29 1.665E-29 1.397E-29 1.182E-29 1.005E-29 8.579E-30 7.319E-30 6.176E-30 4.933E-30 0.000E+00 1.023E-26 3.143E-27 1.352E-27 7.009E-28 4.091E-28 2.592E-28 1.744E-28 1.229E-28 8.979E-29 6.756E-29 5.207E-29 4.096E-29 3.277E-29 2.660E-29 2.187E-29 1.816E-29 1.522E-29 1.284E-29 1.088E-29 9.222E-30 7.735E-30 6.145E-30 0.000E+00 1.122E-26 3.447E-27 1.484E-27 7.693E-28 4.491E-28 2.846E-28 1.916E-28 1.350E-28 9.862E-29 7.420E-29 5.719E-29 4.497E-29 3.597E-29 2.918E-29 2.396E-29 1.988E-29 1.662E-29 1.397E-29 1.176E-29 9.797E-30 7.737E-30 0.000E+00 1.236E-26 3.801E-27 1.637E-27 8.493E-28 4.960E-28 3.144E-28 2.117E-28 1.492E-28 1.090E-28 8.201E-29 6.319E-29 4.968E-29 3.971E-29 3.219E-29 2.640E-29 2.186E-29 1.821E-29 1.520E-29 1.258E-29 9.867E-30 0.000E+00 1.372E-26 4.222E-27 1.819E-27 9.446E-28 5.520E-28 3.501E-28 2.357E-28 1.662E-28 1.214E-28 9.135E-29 7.038E-29 5.530E-29 4.418E-29 3.577E-29 2.928E-29 2.415E-29 1.998E-29 1.640E-29 1.278E-29 0.000E+00 1.535E-26 4.727E-27 2.039E-27 1.060E-27 6.198E-28 3.933E-28 2.650E-28 1.868E-28 1.365E-28 1.027E-28 7.912E-29 6.214E-29 4.958E-29 4.007E-29 3.269E-29 2.678E-29 2.179E-29 1.684E-29 0.000E+00 1.731E-26 5.338E-27 2.307E-27 1.200E-27 7.028E-28 4.464E-28 3.009E-28 2.123E-28 1.552E-28 1.168E-28 8.990E-29 7.054E-29 5.619E-29 4.526E-29 3.667E-29 2.955E-29 2.264E-29 0.000E+00 1.967E-26 6.083E-27 2.634E-27 1.373E-27 8.054E-28 5.122E-28 3.457E-28 2.440E-28 1.785E-28 1.343E-28 1.033E-28 8.095E-29 6.428E-29 5.144E-29 4.101E-29 3.113E-29 0.000E+00 2.254E-26 6.991E-27 3.037E-27 1.588E-27 9.334E-28 5.947E-28 4.019E-28 2.840E-28 2.078E-28 1.563E-28 1.202E-28 9.390E-29 7.411E-29 5.837E-29 4.385E-29 0.000E+00 2.602E-26 8.104E-27 3.537E-27 1.857E-27 1.095E-27 6.994E-28 4.736E-28 3.351E-28 2.454E-28 1.845E-28 1.415E-28 1.100E-28 8.544E-29 6.345E-29 0.000E+00 3.024E-26 9.477E-27 4.164E-27 2.198E-27 1.302E-27 8.347E-28 5.667E-28 4.017E-28 2.942E-28 2.209E-28 1.686E-28 1.290E-28 9.459E-29 0.000E+00 3.543E-26 1.120E-26 4.964E-27 2.640E-27 1.574E-27 1.013E-27 6.903E-28 4.901E-28 3.589E-28 2.683E-28 2.018E-28 1.458E-28 0.000E+00 4.193E-26 1.339E-26 6.010E-27 3.229E-27 1.939E-27 1.256E-27 8.584E-28 6.100E-28 4.451E-28 3.282E-28 2.331E-28 0.000E+00 5.037E-26 1.629E-26 7.423E-27 4.038E-27 2.447E-27 1.594E-27 1.092E-27 7.743E-28 5.575E-28 3.880E-28 0.000E+00 6.182E-26 2.028E-26 9.409E-27 5.190E-27 3.175E-27 2.078E-27 1.422E-27 9.950E-28 6.757E-28 0.000E+00 7.817E-26 2.604E-26 1.232E-26 6.894E-27 4.250E-27 2.783E-27 1.880E-27 1.240E-27 0.000E+00 1.028E-25 3.481E-26 1.681E-26 9.515E-27 5.881E-27 3.805E-27 2.422E-27 0.000E+00 1.422E-25 4.900E-26 2.404E-26 1.370E-26 8.383E-27 5.113E-27 0.000E+00 2.101E-25 7.343E-26 3.639E-26 2.061E-26 1.192E-26 0.000E+00 3.375E-25 1.189E-25 5.891E-26 3.171E-26 0.000E+00 6.071E-25 2.134E-25 1.014E-25 0.000E+00 1.295E-24 4.346E-25 0.000E+00 3.687E-24 4.356E-23
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10 7
1.000E+02 1 5.000E+02 B 117 25
0.000E+00 4.214E-27 1.756E-27 1.035E-27 7.012E-28 5.117E-28 3.909E-28 3.081E-28 2.485E-28 2.040E-28 1.698E-28 1.430E-28 1.216E-28 1.042E-28 8.994E-29 7.806E-29 6.808E-29 5.960E-29 5.231E-29 4.598E-29 4.038E-29 3.530E-29 3.038E-29 2.462E-29 0.000E+00 4.643E-27 1.938E-27 1.147E-27 7.809E-28 5.723E-28 4.390E-28 3.473E-28 2.810E-28 2.314E-28 1.931E-28 1.630E-28 1.388E-28 1.192E-28 1.029E-28 8.940E-29 7.797E-29 6.820E-29 5.975E-29 5.232E-29 4.559E-29 3.912E-29 3.161E-29 0.000E+00 5.158E-27 2.158E-27 1.282E-27 8.762E-28 6.449E-28 4.965E-28 3.942E-28 3.201E-28 2.643E-28 2.211E-28 1.870E-28 1.596E-28 1.372E-28 1.186E-28 1.030E-28 8.981E-29 7.843E-29 6.847E-29 5.949E-29 5.090E-29 4.101E-29 0.000E+00 5.776E-27 2.423E-27 1.444E-27 9.911E-28 7.323E-28 5.660E-28 4.510E-28 3.673E-28 3.041E-28 2.551E-28 2.162E-28 1.848E-28 1.591E-28 1.376E-28 1.195E-28 1.041E-28 9.058E-29 7.848E-29 6.697E-29 5.379E-29 0.000E+00 6.520E-27 2.743E-27 1.641E-27 1.130E-27 8.385E-28 6.505E-28 5.201E-28 4.250E-28 3.529E-28 2.968E-28 2.521E-28 2.159E-28 1.860E-28 1.610E-28 1.397E-28 1.212E-28 1.048E-28 8.917E-29 7.142E-29 0.000E+00 7.422E-27 3.133E-27 1.881E-27 1.301E-27 9.687E-28 7.544E-28 6.054E-28 4.963E-28 4.134E-28 3.486E-28 2.968E-28 2.545E-28 2.195E-28 1.899E-28 1.643E-28 1.417E-28 1.203E-28 9.611E-29 0.000E+00 8.522E-27 3.610E-27 2.175E-27 1.511E-27 1.130E-27 8.837E-28 7.119E-28 5.857E-28 4.895E-28 4.139E-28 3.531E-28 3.033E-28 2.616E-28 2.258E-28 1.943E-28 1.646E-28 1.313E-28 0.000E+00 9.875E-27 4.199E-27 2.542E-27 1.773E-27 1.332E-27 1.047E-27 8.467E-28 6.993E-28 5.865E-28 4.974E-28 4.254E-28 3.657E-28 3.150E-28 2.705E-28 2.289E-28 1.822E-28 0.000E+00 1.156E-26 4.934E-27 3.002E-27 2.105E-27 1.590E-27 1.255E-27 1.020E-27 8.464E-28 7.126E-28 6.063E-28 5.195E-28 4.466E-28 3.830E-28 3.238E-28 2.574E-28 0.000E+00 1.367E-26 5.865E-27 3.589E-27 2.532E-27 1.923E-27 1.527E-27 1.248E-27 1.040E-27 8.798E-28 7.511E-28 6.444E-28 5.522E-28 4.668E-28 3.711E-28 0.000E+00 1.637E-26 7.060E-27 4.349E-27 3.090E-27 2.363E-27 1.889E-27 1.554E-27 1.303E-27 1.107E-27 9.480E-28 8.122E-28 6.872E-28 5.471E-28 0.000E+00 1.987E-26 8.625E-27 5.356E-27 3.836E-27 2.958E-27 2.383E-27 1.975E-27 1.668E-27 1.425E-27 1.221E-27 1.036E-27 8.269E-28 0.000E+00 2.450E-26 1.072E-26 6.719E-27 4.861E-27 3.786E-27 3.081E-27 2.577E-27 2.194E-27 1.882E-27 1.602E-27 1.286E-27 0.000E+00 3.078E-26 1.359E-26 8.621E-27 6.314E-27 4.980E-27 4.103E-27 3.472E-27 2.980E-27 2.550E-27 2.064E-27 0.000E+00 3.954E-26 1.766E-26 1.137E-26 8.460E-27 6.781E-27 5.677E-27 4.871E-27 4.197E-27 3.438E-27 0.000E+00 5.220E-26 2.366E-26 1.553E-26 1.179E-26 9.662E-27 8.258E-27 7.174E-27 5.977E-27 0.000E+00 7.131E-26 3.296E-26 2.219E-26 1.735E-26 1.464E-26 1.282E-26 1.093E-26 0.000E+00 1.018E-25 4.834E-26 3.376E-26 2.751E-26 2.418E-26 2.121E-26 0.000E+00 1.543E-25 7.622E-26 5.628E-26 4.883E-26 4.436E-26 0.000E+00 2.547E-25 1.341E-25 1.086E-25 1.021E-25 0.000E+00 4.795E-25 2.840E-25 2.676E-25 0.000E+00 1.141E-24 8.616E-25 0.000E+00 4.542E-24 3.293E-23
1.000E+03 1 5.000E+02 B 82 25
0.000E+00 6.859E-27 2.680E-27 1.441E-27 9.001E-28 6.130E-28 4.419E-28 3.316E-28 2.565E-28 2.031E-28 1.639E-28 1.344E-28 1.117E-28 9.382E-29 7.957E-29 6.804E-29 5.859E-29 5.074E-29 4.414E-29 3.853E-29 3.366E-29 2.932E-29 2.521E-29 2.046E-29 0.000E+00 7.002E-27 2.791E-27 1.532E-27 9.731E-28 6.715E-28 4.890E-28 3.701E-28 2.882E-28 2.295E-28 1.861E-28 1.532E-28 1.276E-28 1.075E-28 9.132E-29 7.818E-29 6.735E-29 5.831E-29 5.066E-29 4.407E-29 3.823E-29 3.272E-29 2.645E-29 0.000E+00 7.251E-27 2.939E-27 1.645E-27 1.061E-27 7.414E-28 5.454E-28 4.161E-28 3.262E-28 2.612E-28 2.127E-28 1.757E-28 1.468E-28 1.239E-28 1.054E-28 9.034E-29 7.781E-29 6.728E-29 5.826E-29 5.032E-29 4.289E-29 3.452E-29 0.000E+00 7.633E-27 3.135E-27 1.784E-27 1.168E-27 8.258E-28 6.134E-28 4.716E-28 3.721E-28 2.995E-28 2.450E-28 2.030E-28 1.701E-28 1.438E-28 1.225E-28 1.050E-28 9.033E-29 7.786E-29 6.694E-29 5.681E-29 4.553E-29 0.000E+00 8.178E-27 3.392E-27 1.959E-27 1.299E-27 9.289E-28 6.962E-28 5.393E-28 4.281E-28 3.463E-28 2.844E-28 2.365E-28 1.986E-28 1.682E-28 1.433E-28 1.227E-28 1.053E-28 9.010E-29 7.613E-29 6.074E-29 0.000E+00 8.920E-27 3.726E-27 2.180E-27 1.463E-27 1.056E-27 7.983E-28 6.227E-28 4.972E-28 4.042E-28 3.332E-28 2.778E-28 2.338E-28 1.982E-28 1.688E-28 1.441E-28 1.228E-28 1.033E-28 8.207E-29 0.000E+00 9.903E-27 4.160E-27 2.460E-27 1.668E-27 1.215E-27 9.256E-28 7.269E-28 5.836E-28 4.766E-28 3.943E-28 3.297E-28 2.778E-28 2.355E-28 2.001E-28 1.698E-28 1.422E-28 1.125E-28 0.000E+00 1.118E-26 4.720E-27 2.816E-27 1.927E-27 1.416E-27 1.087E-27 8.587E-28 6.932E-28 5.685E-28 4.720E-28 3.954E-28 3.334E-28 2.821E-28 2.384E-28 1.989E-28 1.567E-28 0.000E+00 1.283E-26 5.443E-27 3.274E-27 2.259E-27 1.673E-27 1.293E-27 1.028E-27 8.344E-28 6.872E-28 5.722E-28 4.801E-28 4.045E-28 3.404E-28 2.830E-28 2.221E-28 0.000E+00 1.496E-26 6.381E-27 3.867E-27 2.690E-27 2.007E-27 1.562E-27 1.250E-27 1.020E-27 8.433E-28 7.039E-28 5.906E-28 4.954E-28 4.106E-28 3.213E-28 0.000E+00 1.772E-26 7.607E-27 4.646E-27 3.257E-27 2.450E-27 1.921E-27 1.547E-27 1.269E-27 1.053E-27 8.801E-28 7.361E-28 6.088E-28 4.752E-28 0.000E+00 2.135E-26 9.230E-27 5.684E-27 4.020E-27 3.050E-27 2.410E-27 1.954E-27 1.611E-27 1.341E-27 1.120E-27 9.247E-28 7.211E-28 0.000E+00 2.620E-26 1.142E-26 7.097E-27 5.070E-27 3.883E-27 3.096E-27 2.530E-27 2.097E-27 1.747E-27 1.443E-27 1.126E-27 0.000E+00 3.280E-26 1.443E-26 9.074E-27 6.558E-27 5.081E-27 4.093E-27 3.373E-27 2.808E-27 2.323E-27 1.818E-27 0.000E+00 4.205E-26 1.871E-26 1.193E-26 8.751E-27 6.876E-27 5.609E-27 4.662E-27 3.872E-27 3.049E-27 0.000E+00 5.543E-26 2.501E-26 1.625E-26 1.214E-26 9.713E-27 8.043E-27 6.716E-27 5.346E-27 0.000E+00 7.564E-26 3.479E-26 2.314E-26 1.774E-26 1.453E-26 1.220E-26 9.874E-27 0.000E+00 1.079E-25 5.093E-26 3.504E-26 2.781E-26 2.345E-26 1.941E-26 0.000E+00 1.635E-25 8.009E-26 5.792E-26 4.833E-26 4.121E-26 0.000E+00 2.695E-25 1.401E-25 1.097E-25 9.648E-26 0.000E+00 5.065E-25 2.928E-25 2.581E-25 0.000E+00 1.197E-24 8.496E-25 0.000E+00 4.612E-24 3.795E-23
1.000E+04 1 5.000E+02 B 54 25
0.000E+00 1.622E-26 5.293E-27 2.416E-27 1.321E-27 8.087E-28 5.345E-28 3.735E-28 2.722E-28 2.050E-28 1.586E-28 1.254E-28 1.010E-28 8.254E-29 6.838E-29 5.729E-29 4.847E-29 4.134E-29 3.551E-29 3.066E-29 2.655E-29 2.297E-29 1.966E-29 1.593E-29 0.000E+00 1.658E-26 5.497E-27 2.546E-27 1.410E-27 8.718E-28 5.813E-28 4.092E-28 3.002E-28 2.274E-28 1.767E-28 1.403E-28 1.134E-28 9.299E-29 7.724E-29 6.485E-29 5.496E-29 4.692E-29 4.030E-29 3.473E-29 2.992E-29 2.551E-29 2.060E-29 0.000E+00 1.686E-26 5.698E-27 2.686E-27 1.509E-27 9.450E-28 6.366E-28 4.520E-28 3.340E-28 2.545E-28 1.989E-28 1.586E-28 1.287E-28 1.059E-28 8.818E-29 7.419E-29 6.295E-29 5.376E-29 4.610E-29 3.954E-29 3.356E-29 2.699E-29 0.000E+00 1.706E-26 5.900E-27 2.840E-27 1.624E-27 1.031E-27 7.027E-28 5.038E-28 3.752E-28 2.879E-28 2.262E-28 1.813E-28 1.477E-28 1.219E-28 1.018E-28 8.577E-29 7.281E-29 6.210E-29 5.299E-29 4.477E-29 3.585E-29 0.000E+00 1.721E-26 6.114E-27 3.015E-27 1.759E-27 1.135E-27 7.832E-28 5.673E-28 4.262E-28 3.293E-28 2.603E-28 2.096E-28 1.714E-28 1.419E-28 1.187E-28 1.001E-28 8.490E-29 7.205E-29 6.057E-29 4.827E-29 0.000E+00 1.736E-26 6.358E-27 3.223E-27 1.921E-27 1.261E-27 8.822E-28 6.461E-28 4.897E-28 3.812E-28 3.031E-28 2.452E-28 2.012E-28 1.670E-28 1.399E-28 1.179E-28 9.944E-29 8.313E-29 6.591E-29 0.000E+00 1.761E-26 6.660E-27 3.477E-27 2.121E-27 1.417E-27 1.006E-27 7.451E-28 5.698E-28 4.468E-28 3.573E-28 2.903E-28 2.390E-28 1.986E-28 1.662E-28 1.394E-28 1.158E-28 9.129E-29 0.000E+00 1.810E-26 7.060E-27 3.797E-27 2.372E-27 1.614E-27 1.162E-27 8.707E-28 6.719E-28 5.305E-28 4.265E-28 3.479E-28 2.869E-28 2.383E-28 1.985E-28 1.640E-28 1.284E-28 0.000E+00 1.897E-26 7.609E-27 4.213E-27 2.693E-27 1.866E-27 1.363E-27 1.032E-27 8.035E-28 6.386E-28 5.158E-28 4.218E-28 3.479E-28 2.878E-28 2.361E-28 1.838E-28 0.000E+00 2.041E-26 8.378E-27 4.764E-27 3.113E-27 2.195E-27 1.624E-27 1.244E-27 9.758E-28 7.801E-28 6.325E-28 5.176E-28 4.252E-28 3.466E-28 2.680E-28 0.000E+00 2.265E-26 9.462E-27 5.508E-27 3.671E-27 2.631E-27 1.972E-27 1.525E-27 1.206E-27 9.685E-28 7.866E-28 6.418E-28 5.199E-28 3.995E-28 0.000E+00 2.595E-26 1.099E-26 6.528E-27 4.430E-27 3.222E-27 2.445E-27 1.908E-27 1.518E-27 1.224E-27 9.920E-28 7.989E-28 6.105E-28 0.000E+00 3.070E-26 1.316E-26 7.952E-27 5.485E-27 4.046E-27 3.105E-27 2.444E-27 1.954E-27 1.575E-27 1.262E-27 9.599E-28 0.000E+00 3.748E-26 1.626E-26 9.982E-27 6.992E-27 5.228E-27 4.056E-27 3.216E-27 2.578E-27 2.058E-27 1.561E-27 0.000E+00 4.726E-26 2.076E-26 1.295E-26 9.217E-27 6.987E-27 5.480E-27 4.370E-27 3.481E-27 2.637E-27 0.000E+00 6.166E-26 2.749E-26 1.746E-26 1.265E-26 9.735E-27 7.714E-27 6.144E-27 4.666E-27 0.000E+00 8.364E-26 3.797E-26 2.466E-26 1.825E-26 1.429E-26 1.139E-26 8.715E-27 0.000E+00 1.189E-25 5.530E-26 3.698E-26 2.813E-26 2.242E-26 1.738E-26 0.000E+00 1.797E-25 8.645E-26 6.028E-26 4.750E-26 3.754E-26 0.000E+00 2.955E-25 1.498E-25 1.112E-25 8.984E-26 0.000E+00 5.531E-25 3.065E-25 2.467E-25 0.000E+00 1.293E-24 8.386E-25 0.000E+00 4.758E-24 4.365E-23
1.000E+05 1 5.000E+02 B 50 25
0.000E+00 2.768E-26 8.566E-27 3.713E-27 1.939E-27 1.139E-27 7.261E-28 4.915E-28 3.482E-28 2.557E-28 1.934E-28 1.497E-28 1.183E-28 9.509E-29 7.755E-29 6.403E-29 5.344E-29 4.501E-29 3.821E-29 3.262E-29 2.795E-29 2.394E-29 2.029E-29 1.629E-29 0.000E+00 2.908E-26 9.020E-27 3.920E-27 2.051E-27 1.208E-27 7.715E-28 5.231E-28 3.711E-28 2.730E-28 2.066E-28 1.602E-28 1.267E-28 1.019E-28 8.316E-29 6.869E-29 5.733E-29 4.827E-29 4.092E-29 3.484E-29 2.968E-29 2.502E-29 2.000E-29 0.000E+00 3.066E-26 9.543E-27 4.161E-27 2.184E-27 1.290E-27 8.260E-28 5.613E-28 3.991E-28 2.940E-28 2.230E-28 1.731E-28 1.371E-28 1.104E-28 9.013E-29 7.448E-29 6.216E-29 5.229E-29 4.422E-29 3.744E-29 3.140E-29 2.498E-29 0.000E+00 3.241E-26 1.013E-26 4.439E-27 2.340E-27 1.387E-27 8.913E-28 6.075E-28 4.331E-28 3.199E-28 2.431E-28 1.891E-28 1.500E-28 1.209E-28 9.881E-29 8.169E-29 6.815E-29 5.721E-29 4.812E-29 4.013E-29 3.177E-29 0.000E+00 3.428E-26 1.079E-26 4.756E-27 2.521E-27 1.502E-27 9.694E-28 6.634E-28 4.746E-28 3.516E-28 2.679E-28 2.089E-28 1.660E-28 1.341E-28 1.097E-28 9.069E-29 7.554E-29 6.311E-29 5.233E-29 4.121E-29 0.000E+00 3.623E-26 1.150E-26 5.113E-27 2.732E-27 1.638E-27 1.064E-27 7.317E-28 5.259E-28 3.912E-28 2.991E-28 2.339E-28 1.864E-28 1.508E-28 1.235E-28 1.020E-28 8.459E-29 6.970E-29 5.461E-29 0.000E+00 3.817E-26 1.226E-26 5.515E-27 2.977E-27 1.801E-27 1.179E-27 8.163E-28 5.901E-28 4.412E-28 3.389E-28 2.660E-28 2.125E-28 1.722E-28 1.410E-28 1.161E-28 9.502E-29 7.404E-29 0.000E+00 4.003E-26 1.307E-26 5.971E-27 3.267E-27 2.000E-27 1.322E-27 9.230E-28 6.722E-28 5.057E-28 3.904E-28 3.077E-28 2.465E-28 2.000E-28 1.633E-28 1.328E-28 1.029E-28 0.000E+00 4.173E-26 1.393E-26 6.494E-27 3.616E-27 2.247E-27 1.503E-27 1.061E-27 7.793E-28 5.905E-28 4.586E-28 3.630E-28 2.914E-28 2.360E-28 1.905E-28 1.466E-28 0.000E+00 4.327E-26 1.486E-26 7.117E-27 4.052E-27 2.563E-27 1.740E-27 1.243E-27 9.223E-28 7.044E-28 5.502E-28 4.369E-28 3.505E-28 2.807E-28 2.146E-28 0.000E+00 4.481E-26 1.595E-26 7.892E-27 4.613E-27 2.981E-27 2.058E-27 1.490E-27 1.117E-27 8.597E-28 6.746E-28 5.358E-28 4.254E-28 3.227E-28 0.000E+00 4.673E-26 1.733E-26 8.906E-27 5.365E-27 3.548E-27 2.494E-27 1.831E-27 1.386E-27 1.074E-27 8.438E-28 6.636E-28 4.992E-28 0.000E+00 4.973E-26 1.925E-26 1.030E-26 6.405E-27 4.339E-27 3.107E-27 2.311E-27 1.765E-27 1.371E-27 1.067E-27 7.954E-28 0.000E+00 5.485E-26 2.208E-26 1.230E-26 7.895E-27 5.477E-27 3.989E-27 3.001E-27 2.303E-27 1.775E-27 1.310E-27 0.000E+00 6.352E-26 2.642E-26 1.528E-26 1.010E-26 7.167E-27 5.300E-27 4.017E-27 3.066E-27 2.243E-27 0.000E+00 7.784E-26 3.328E-26 1.990E-26 1.352E-26 9.778E-27 7.316E-27 5.533E-27 4.019E-27 0.000E+00 1.013E-25 4.439E-26 2.735E-26 1.905E-26 1.402E-26 1.052E-26 7.609E-27 0.000E+00 1.405E-25 6.319E-26 4.012E-26 2.864E-26 2.131E-26 1.541E-26 0.000E+00 2.095E-25 9.716E-26 6.387E-26 4.670E-26 3.395E-26 0.000E+00 3.417E-25 1.655E-25 1.138E-25 8.331E-26 0.000E+00 6.341E-25 3.286E-25 2.363E-25 0.000E+00 1.456E-24 8.380E-25 0.000E+00 5.061E-24 4.887E-23
1.000E+06 1 5.000E+02 B 50 25
0.000E+00 5.698E-26 1.749E-26 7.523E-27 3.899E-27 2.275E-27 1.441E-27 9.698E-28 6.833E-28 4.993E-28 3.758E-28 2.897E-28 2.280E-28 1.825E-28 1.482E-28 1.219E-28 1.014E-28 8.511E-29 7.199E-29 6.125E-29 5.230E-29 4.464E-29 3.768E-29 3.012E-29 0.000E+00 5.753E-26 1.767E-26 7.600E-27 3.940E-27 2.299E-27 1.457E-27 9.806E-28 6.910E-28 5.050E-28 3.800E-28 2.930E-28 2.305E-28 1.845E-28 1.498E-28 1.232E-28 1.024E-28 8.580E-29 7.242E-29 6.140E-29 5.207E-29 4.370E-29 3.475E-29 0.000E+00 5.811E-26 1.785E-26 7.683E-27 3.984E-27 2.326E-27 1.474E-27 9.924E-28 6.995E-28 5.113E-28 3.848E-28 2.967E-28 2.334E-28 1.867E-28 1.516E-28 1.245E-28 1.034E-28 8.647E-29 7.273E-29 6.124E-29 5.107E-29 4.038E-29 0.000E+00 5.900E-26 1.814E-26 7.809E-27 4.052E-27 2.367E-27 1.501E-27 1.011E-27 7.125E-28 5.208E-28 3.920E-28 3.022E-28 2.377E-28 1.901E-28 1.542E-28 1.266E-28 1.049E-28 8.745E-29 7.306E-29 6.051E-29 4.755E-29 0.000E+00 6.045E-26 1.860E-26 8.015E-27 4.162E-27 2.433E-27 1.543E-27 1.040E-27 7.333E-28 5.363E-28 4.037E-28 3.113E-28 2.448E-28 1.957E-28 1.586E-28 1.300E-28 1.073E-28 8.888E-29 7.306E-29 5.702E-29 0.000E+00 6.265E-26 1.930E-26 8.327E-27 4.328E-27 2.533E-27 1.608E-27 1.084E-27 7.652E-28 5.598E-28 4.215E-28 3.250E-28 2.556E-28 2.042E-28 1.652E-28 1.350E-28 1.107E-28 9.026E-29 6.994E-29 0.000E+00 6.574E-26 2.028E-26 8.767E-27 4.564E-27 2.674E-27 1.700E-27 1.148E-27 8.106E-28 5.934E-28 4.471E-28 3.448E-28 2.710E-28 2.162E-28 1.745E-28 1.417E-28 1.144E-28 8.797E-29 0.000E+00 6.977E-26 2.158E-26 9.352E-27 4.880E-27 2.865E-27 1.825E-27 1.234E-27 8.727E-28 6.395E-28 4.821E-28 3.719E-28 2.921E-28 2.325E-28 1.866E-28 1.492E-28 1.137E-28 0.000E+00 7.478E-26 2.322E-26 1.010E-26 5.289E-27 3.115E-27 1.989E-27 1.348E-27 9.553E-28 7.012E-28 5.291E-28 4.081E-28 3.201E-28 2.536E-28 2.006E-28 1.515E-28 0.000E+00 8.077E-26 2.522E-26 1.103E-26 5.807E-27 3.436E-27 2.203E-27 1.498E-27 1.065E-27 7.833E-28 5.918E-28 4.563E-28 3.565E-28 2.787E-28 2.084E-28 0.000E+00 8.765E-26 2.761E-26 1.218E-26 6.462E-27 3.850E-27 2.483E-27 1.697E-27 1.211E-27 8.938E-28 6.761E-28 5.201E-28 4.015E-28 2.972E-28 0.000E+00 9.529E-26 3.041E-26 1.359E-26 7.296E-27 4.391E-27 2.858E-27 1.967E-27 1.412E-27 1.046E-27 7.909E-28 6.023E-28 4.411E-28 0.000E+00 1.035E-25 3.371E-26 1.536E-26 8.389E-27 5.123E-27 3.375E-27 2.346E-27 1.696E-27 1.259E-27 9.456E-28 6.849E-28 0.000E+00 1.123E-25 3.766E-26 1.766E-26 9.881E-27 6.155E-27 4.120E-27 2.899E-27 2.110E-27 1.560E-27 1.117E-27 0.000E+00 1.222E-25 4.274E-26 2.084E-26 1.204E-26 7.689E-27 5.243E-27 3.733E-27 2.715E-27 1.919E-27 0.000E+00 1.358E-25 4.998E-26 2.559E-26 1.535E-26 1.008E-26 6.999E-27 5.001E-27 3.485E-27 0.000E+00 1.581E-25 6.146E-26 3.320E-26 2.073E-26 1.398E-26 9.792E-27 6.722E-27 0.000E+00 1.989E-25 8.136E-26 4.632E-26 3.001E-26 2.056E-26 1.390E-26 0.000E+00 2.766E-25 1.184E-25 7.069E-26 4.701E-26 3.136E-26 0.000E+00 4.329E-25 1.938E-25 1.204E-25 7.917E-26 0.000E+00 7.837E-25 3.689E-25 2.331E-25 0.000E+00 1.753E-24 8.703E-25 0.000E+00 5.707E-24 5.787E-23
1.000E+07 1 5.000E+02 B 50 25
0.000E+00 1.126E-25 3.453E-26 1.483E-26 7.678E-27 4.476E-27 2.833E-27 1.904E-27 1.341E-27 9.788E-28 7.360E-28 5.670E-28 4.457E-28 3.565E-28 2.894E-28 2.379E-28 1.977E-28 1.658E-28 1.401E-28 1.191E-28 1.016E-28 8.659E-29 7.300E-29 5.824E-29 0.000E+00 1.234E-25 3.783E-26 1.625E-26 8.412E-27 4.903E-27 3.103E-27 2.086E-27 1.468E-27 1.072E-27 8.057E-28 6.205E-28 4.877E-28 3.899E-28 3.163E-28 2.598E-28 2.157E-28 1.806E-28 1.523E-28 1.289E-28 1.092E-28 9.148E-29 7.258E-29 0.000E+00 1.337E-25 4.100E-26 1.761E-26 9.116E-27 5.313E-27 3.362E-27 2.260E-27 1.590E-27 1.161E-27 8.724E-28 6.717E-28 5.277E-28 4.217E-28 3.418E-28 2.805E-28 2.325E-28 1.942E-28 1.631E-28 1.371E-28 1.141E-28 9.002E-29 0.000E+00 1.428E-25 4.379E-26 1.881E-26 9.735E-27 5.674E-27 3.590E-27 2.412E-27 1.698E-27 1.239E-27 9.308E-28 7.164E-28 5.625E-28 4.492E-28 3.638E-28 2.981E-28 2.465E-28 2.052E-28 1.710E-28 1.413E-28 1.107E-28 0.000E+00 1.497E-25 4.591E-26 1.972E-26 1.021E-26 5.949E-27 3.764E-27 2.529E-27 1.779E-27 1.298E-27 9.750E-28 7.500E-28 5.886E-28 4.695E-28 3.797E-28 3.104E-28 2.558E-28 2.113E-28 1.732E-28 1.347E-28 0.000E+00 1.539E-25 4.720E-26 2.027E-26 1.049E-26 6.116E-27 3.869E-27 2.599E-27 1.828E-27 1.333E-27 1.001E-27 7.697E-28 6.035E-28 4.808E-28 3.880E-28 3.160E-28 2.585E-28 2.100E-28 1.621E-28 0.000E+00 1.555E-25 4.768E-26 2.048E-26 1.060E-26 6.180E-27 3.909E-27 2.626E-27 1.847E-27 1.346E-27 1.010E-27 7.761E-28 6.077E-28 4.831E-28 3.884E-28 3.141E-28 2.527E-28 1.933E-28 0.000E+00 1.555E-25 4.771E-26 2.050E-26 1.061E-26 6.185E-27 3.913E-27 2.628E-27 1.848E-27 1.347E-27 1.010E-27 7.747E-28 6.054E-28 4.796E-28 3.829E-28 3.046E-28 2.307E-28 0.000E+00 1.558E-25 4.782E-26 2.055E-26 1.064E-26 6.205E-27 3.925E-27 2.637E-27 1.853E-27 1.350E-27 1.011E-27 7.742E-28 6.029E-28 4.744E-28 3.726E-28 2.792E-28 0.000E+00 1.582E-25 4.858E-26 2.089E-26 1.083E-26 6.313E-27 3.995E-27 2.683E-27 1.885E-27 1.372E-27 1.026E-27 7.832E-28 6.059E-28 4.691E-28 3.472E-28 0.000E+00 1.640E-25 5.042E-26 2.171E-26 1.126E-26 6.569E-27 4.158E-27 2.793E-27 1.962E-27 1.426E-27 1.063E-27 8.067E-28 6.144E-28 4.485E-28 0.000E+00 1.741E-25 5.363E-26 2.313E-26 1.201E-26 7.018E-27 4.446E-27 2.987E-27 2.097E-27 1.521E-27 1.128E-27 8.429E-28 6.057E-28 0.000E+00 1.892E-25 5.845E-26 2.528E-26 1.317E-26 7.710E-27 4.892E-27 3.289E-27 2.306E-27 1.665E-27 1.218E-27 8.596E-28 0.000E+00 2.099E-25 6.518E-26 2.835E-26 1.483E-26 8.717E-27 5.546E-27 3.732E-27 2.610E-27 1.862E-27 1.289E-27 0.000E+00 2.369E-25 7.426E-26 3.259E-26 1.719E-26 1.017E-26 6.503E-27 4.380E-27 3.036E-27 2.057E-27 0.000E+00 2.712E-25 8.641E-26 3.855E-26 2.063E-26 1.235E-26 7.945E-27 5.332E-27 3.528E-27 0.000E+00 3.148E-25 1.031E-25 4.732E-26 2.592E-26 1.578E-26 1.021E-26 6.589E-27 0.000E+00 3.743E-25 1.282E-25 6.142E-26 3.480E-26 2.157E-26 1.356E-26 0.000E+00 4.712E-25 1.711E-25 8.685E-26 5.102E-26 3.109E-26 0.000E+00 6.642E-25 2.567E-25 1.381E-25 8.094E-26 0.000E+00 1.110E-24 4.543E-25 2.485E-25 0.000E+00 2.351E-24 9.846E-25 0.000E+00 7.130E-24 7.648E-23
1.000E+08 1 5.000E+02 B 50 25
0.000E+00 1.392E-25 4.269E-26 1.833E-26 9.489E-27 5.531E-27 3.500E-27 2.352E-27 1.656E-27 1.209E-27 9.087E-28 7.000E-28 5.503E-28 4.401E-28 3.571E-28 2.935E-28 2.439E-28 2.045E-28 1.728E-28 1.468E-28 1.252E-28 1.067E-28 8.996E-29 7.174E-29 0.000E+00 1.614E-25 4.949E-26 2.125E-26 1.100E-26 6.410E-27 4.056E-27 2.726E-27 1.918E-27 1.400E-27 1.052E-27 8.104E-28 6.368E-28 5.090E-28 4.129E-28 3.391E-28 2.814E-28 2.356E-28 1.986E-28 1.681E-28 1.423E-28 1.192E-28 9.453E-29 0.000E+00 1.880E-25 5.764E-26 2.475E-26 1.281E-26 7.463E-27 4.721E-27 3.172E-27 2.232E-27 1.629E-27 1.224E-27 9.421E-28 7.400E-28 5.912E-28 4.791E-28 3.931E-28 3.257E-28 2.720E-28 2.284E-28 1.919E-28 1.597E-28 1.258E-28 0.000E+00 2.197E-25 6.735E-26 2.891E-26 1.496E-26 8.716E-27 5.513E-27 3.704E-27 2.606E-27 1.901E-27 1.428E-27 1.098E-27 8.623E-28 6.884E-28 5.573E-28 4.565E-28 3.774E-28 3.139E-28 2.616E-28 2.161E-28 1.691E-28 0.000E+00 2.570E-25 7.877E-26 3.382E-26 1.749E-26 1.019E-26 6.445E-27 4.328E-27 3.044E-27 2.220E-27 1.667E-27 1.282E-27 1.005E-27 8.016E-28 6.480E-28 5.295E-28 4.360E-28 3.600E-28 2.949E-28 2.292E-28 0.000E+00 2.998E-25 9.190E-26 3.945E-26 2.041E-26 1.188E-26 7.514E-27 5.045E-27 3.547E-27 2.585E-27 1.940E-27 1.491E-27 1.168E-27 9.299E-28 7.499E-28 6.104E-28 4.989E-28 4.049E-28 3.121E-28 0.000E+00 3.470E-25 1.064E-25 4.565E-26 2.361E-26 1.375E-26 8.689E-27 5.832E-27 4.098E-27 2.985E-27 2.239E-27 1.718E-27 1.344E-27 1.068E-27 8.578E-28 6.930E-28 5.567E-28 4.252E-28 0.000E+00 3.952E-25 1.211E-25 5.196E-26 2.687E-26 1.564E-26 9.884E-27 6.631E-27 4.657E-27 3.390E-27 2.539E-27 1.946E-27 1.519E-27 1.202E-27 9.584E-28 7.611E-28 5.754E-28 0.000E+00 4.381E-25 1.342E-25 5.759E-26 2.977E-26 1.733E-26 1.094E-26 7.339E-27 5.151E-27 3.746E-27 2.801E-27 2.142E-27 1.666E-27 1.308E-27 1.025E-27 7.664E-28 0.000E+00 4.679E-25 1.433E-25 6.149E-26 3.178E-26 1.849E-26 1.167E-26 7.822E-27 5.484E-27 3.982E-27 2.972E-27 2.264E-27 1.747E-27 1.349E-27 9.955E-28 0.000E+00 4.792E-25 1.468E-25 6.296E-26 3.253E-26 1.892E-26 1.194E-26 7.992E-27 5.596E-27 4.055E-27 3.015E-27 2.280E-27 1.730E-27 1.258E-27 0.000E+00 4.756E-25 1.457E-25 6.247E-26 3.227E-26 1.876E-26 1.182E-26 7.908E-27 5.526E-27 3.989E-27 2.945E-27 2.190E-27 1.565E-27 0.000E+00 4.690E-25 1.437E-25 6.161E-26 3.182E-26 1.848E-26 1.164E-26 7.770E-27 5.411E-27 3.880E-27 2.817E-27 1.974E-27 0.000E+00 4.731E-25 1.450E-25 6.217E-26 3.210E-26 1.864E-26 1.172E-26 7.799E-27 5.396E-27 3.808E-27 2.606E-27 0.000E+00 4.971E-25 1.524E-25 6.542E-26 3.378E-26 1.960E-26 1.229E-26 8.134E-27 5.542E-27 3.688E-27 0.000E+00 5.476E-25 1.682E-25 7.229E-26 3.736E-26 2.165E-26 1.352E-26 8.823E-27 5.678E-27 0.000E+00 6.317E-25 1.948E-25 8.402E-26 4.350E-26 2.517E-26 1.555E-26 9.610E-27 0.000E+00 7.615E-25 2.368E-25 1.030E-25 5.356E-26 3.083E-26 1.815E-26 0.000E+00 9.613E-25 3.044E-25 1.347E-25 7.053E-26 3.916E-26 0.000E+00 1.295E-24 4.240E-25 1.933E-25 9.974E-26 0.000E+00 1.980E-24 6.757E-25 3.126E-25 0.000E+00 3.811E-24 1.310E-24 0.000E+00 1.055E-23 1.198E-22
1.000E+02 1 1.000E+03 B 124 25
0.000E+00 2.559E-27 1.043E-27 5.992E-28 3.955E-28 2.811E-28 2.095E-28 1.613E-28 1.272E-28 1.024E-28 8.362E-29 6.920E-29 5.789E-29 4.888E-29 4.160E-29 3.564E-29 3.071E-29 2.658E-29 2.308E-29 2.009E-29 1.747E-29 1.513E-29 1.291E-29 1.037E-29 0.000E+00 2.839E-27 1.161E-27 6.692E-28 4.432E-28 3.161E-28 2.362E-28 1.823E-28 1.442E-28 1.162E-28 9.508E-29 7.878E-29 6.598E-29 5.575E-29 4.746E-29 4.066E-29 3.501E-29 3.026E-29 2.622E-29 2.271E-29 1.959E-29 1.665E-29 1.332E-29 0.000E+00 3.174E-27 1.301E-27 7.525E-28 5.001E-28 3.578E-28 2.681E-28 2.075E-28 1.644E-28 1.327E-28 1.088E-28 9.025E-29 7.565E-29 6.395E-29 5.445E-29 4.663E-29 4.011E-29 3.459E-29 2.984E-29 2.564E-29 2.170E-29 1.730E-29 0.000E+00 3.574E-27 1.469E-27 8.524E-28 5.683E-28 4.078E-28 3.064E-28 2.377E-28 1.888E-28 1.527E-28 1.253E-28 1.041E-28 8.733E-29 7.386E-29 6.288E-29 5.380E-29 4.618E-29 3.967E-29 3.394E-29 2.861E-29 2.271E-29 0.000E+00 4.055E-27 1.671E-27 9.729E-28 6.507E-28 4.683E-28 3.528E-28 2.743E-28 2.183E-28 1.769E-28 1.455E-28 1.210E-28 1.016E-28 8.592E-29 7.311E-29 6.244E-29 5.339E-29 4.550E-29 3.820E-29 3.019E-29 0.000E+00 4.637E-27 1.917E-27 1.119E-27 7.510E-28 5.422E-28 4.096E-28 3.193E-28 2.547E-28 2.068E-28 1.703E-28 1.418E-28 1.191E-28 1.008E-28 8.561E-29 7.287E-29 6.183E-29 5.170E-29 4.069E-29 0.000E+00 5.348E-27 2.217E-27 1.299E-27 8.745E-28 6.333E-28 4.799E-28 3.751E-28 3.000E-28 2.441E-28 2.013E-28 1.678E-28 1.410E-28 1.192E-28 1.009E-28 8.528E-29 7.103E-29 5.568E-29 0.000E+00 6.222E-27 2.588E-27 1.522E-27 1.028E-27 7.472E-28 5.681E-28 4.453E-28 3.570E-28 2.911E-28 2.405E-28 2.007E-28 1.686E-28 1.421E-28 1.196E-28 9.921E-29 7.746E-29 0.000E+00 7.311E-27 3.051E-27 1.801E-27 1.222E-27 8.915E-28 6.802E-28 5.350E-28 4.302E-28 3.517E-28 2.910E-28 2.429E-28 2.037E-28 1.707E-28 1.411E-28 1.098E-28 0.000E+00 8.681E-27 3.637E-27 2.157E-27 1.470E-27 1.077E-27 8.254E-28 6.517E-28 5.257E-28 4.309E-28 3.571E-28 2.979E-28 2.485E-28 2.048E-28 1.588E-28 0.000E+00 1.043E-26 4.390E-27 2.618E-27 1.794E-27 1.321E-27 1.017E-27 8.066E-28 6.532E-28 5.368E-28 4.451E-28 3.699E-28 3.039E-28 2.350E-28 0.000E+00 1.271E-26 5.376E-27 3.226E-27 2.225E-27 1.649E-27 1.276E-27 1.018E-27 8.275E-28 6.816E-28 5.641E-28 4.623E-28 3.569E-28 0.000E+00 1.573E-26 6.693E-27 4.048E-27 2.812E-27 2.100E-27 1.637E-27 1.313E-27 1.073E-27 8.840E-28 7.234E-28 5.583E-28 0.000E+00 1.982E-26 8.499E-27 5.188E-27 3.639E-27 2.743E-27 2.157E-27 1.743E-27 1.429E-27 1.168E-27 9.032E-28 0.000E+00 2.554E-26 1.105E-26 6.827E-27 4.847E-27 3.696E-27 2.939E-27 2.393E-27 1.956E-27 1.518E-27 0.000E+00 3.381E-26 1.480E-26 9.283E-27 6.696E-27 5.187E-27 4.179E-27 3.416E-27 2.671E-27 0.000E+00 4.628E-26 2.058E-26 1.317E-26 9.709E-27 7.677E-27 6.267E-27 4.953E-27 0.000E+00 6.615E-26 3.007E-26 1.980E-26 1.504E-26 1.220E-26 9.796E-27 0.000E+00 1.002E-25 4.701E-26 3.231E-26 2.564E-26 2.097E-26 0.000E+00 1.649E-25 8.131E-26 5.982E-26 4.968E-26 0.000E+00 3.077E-25 1.659E-25 1.353E-25 0.000E+00 7.144E-25 4.578E-25 0.000E+00 2.616E-24 1.939E-23
1.000E+03 1 1.000E+03 B 82 25
0.000E+00 3.610E-27 1.393E-27 7.425E-28 4.596E-28 3.101E-28 2.214E-28 1.645E-28 1.260E-28 9.889E-29 7.912E-29 6.432E-29 5.301E-29 4.418E-29 3.719E-29 3.158E-29 2.700E-29 2.323E-29 2.008E-29 1.741E-29 1.512E-29 1.308E-29 1.117E-29 9.009E-30 0.000E+00 3.786E-27 1.483E-27 8.041E-28 5.045E-28 3.439E-28 2.475E-28 1.851E-28 1.425E-28 1.123E-28 9.011E-29 7.344E-29 6.063E-29 5.061E-29 4.264E-29 3.621E-29 3.095E-29 2.660E-29 2.294E-29 1.981E-29 1.706E-29 1.450E-29 1.163E-29 0.000E+00 4.022E-27 1.596E-27 8.786E-28 5.582E-28 3.842E-28 2.786E-28 2.096E-28 1.622E-28 1.283E-28 1.033E-28 8.435E-29 6.975E-29 5.829E-29 4.913E-29 4.172E-29 3.562E-29 3.055E-29 2.624E-29 2.248E-29 1.901E-29 1.517E-29 0.000E+00 4.333E-27 1.737E-27 9.696E-28 6.231E-28 4.328E-28 3.161E-28 2.392E-28 1.859E-28 1.475E-28 1.191E-28 9.749E-29 8.074E-29 6.752E-29 5.692E-29 4.829E-29 4.115E-29 3.515E-29 2.995E-29 2.519E-29 2.000E-29 0.000E+00 4.736E-27 1.915E-27 1.082E-27 7.022E-28 4.918E-28 3.616E-28 2.751E-28 2.147E-28 1.710E-28 1.384E-28 1.135E-28 9.407E-29 7.870E-29 6.630E-29 5.615E-29 4.767E-29 4.039E-29 3.378E-29 2.668E-29 0.000E+00 5.253E-27 2.139E-27 1.220E-27 7.995E-28 5.642E-28 4.174E-28 3.191E-28 2.500E-28 1.997E-28 1.620E-28 1.331E-28 1.104E-28 9.234E-29 7.767E-29 6.553E-29 5.520E-29 4.592E-29 3.606E-29 0.000E+00 5.911E-27 2.421E-27 1.394E-27 9.205E-28 6.540E-28 4.865E-28 3.737E-28 2.939E-28 2.355E-28 1.914E-28 1.574E-28 1.306E-28 1.091E-28 9.147E-29 7.659E-29 6.335E-29 4.947E-29 0.000E+00 6.748E-27 2.779E-27 1.612E-27 1.072E-27 7.666E-28 5.733E-28 4.423E-28 3.491E-28 2.804E-28 2.284E-28 1.879E-28 1.558E-28 1.298E-28 1.080E-28 8.884E-29 6.897E-29 0.000E+00 7.813E-27 3.234E-27 1.889E-27 1.265E-27 9.097E-28 6.838E-28 5.298E-28 4.196E-28 3.379E-28 2.755E-28 2.267E-28 1.876E-28 1.552E-28 1.269E-28 9.795E-29 0.000E+00 9.178E-27 3.820E-27 2.246E-27 1.513E-27 1.094E-27 8.269E-28 6.434E-28 5.113E-28 4.126E-28 3.367E-28 2.766E-28 2.274E-28 1.850E-28 1.420E-28 0.000E+00 1.094E-26 4.580E-27 2.710E-27 1.838E-27 1.337E-27 1.016E-27 7.937E-28 6.328E-28 5.116E-28 4.172E-28 3.410E-28 2.758E-28 2.107E-28 0.000E+00 1.326E-26 5.582E-27 3.326E-27 2.271E-27 1.663E-27 1.270E-27 9.972E-28 7.976E-28 6.454E-28 5.243E-28 4.220E-28 3.208E-28 0.000E+00 1.634E-26 6.927E-27 4.160E-27 2.863E-27 2.112E-27 1.623E-27 1.281E-27 1.027E-27 8.293E-28 6.647E-28 5.035E-28 0.000E+00 2.055E-26 8.777E-27 5.320E-27 3.695E-27 2.749E-27 2.128E-27 1.688E-27 1.354E-27 1.082E-27 8.175E-28 0.000E+00 2.643E-26 1.140E-26 6.987E-27 4.908E-27 3.689E-27 2.881E-27 2.295E-27 1.828E-27 1.381E-27 0.000E+00 3.494E-26 1.524E-26 9.482E-27 6.758E-27 5.147E-27 4.058E-27 3.226E-27 2.444E-27 0.000E+00 4.779E-26 2.117E-26 1.342E-26 9.753E-27 7.552E-27 5.990E-27 4.566E-27 0.000E+00 6.828E-26 3.088E-26 2.011E-26 1.500E-26 1.182E-26 9.113E-27 0.000E+00 1.034E-25 4.819E-26 3.263E-26 2.520E-26 1.972E-26 0.000E+00 1.700E-25 8.304E-26 5.968E-26 4.734E-26 0.000E+00 3.168E-25 1.679E-25 1.308E-25 0.000E+00 7.323E-25 4.501E-25 0.000E+00 2.628E-24 2.202E-23
1.000E+04 1 1.000E+03 B 56 25
0.000E+00 7.345E-27 2.413E-27 1.107E-27 6.081E-28 3.732E-28 2.470E-28 1.727E-28 1.259E-28 9.481E-29 7.329E-29 5.789E-29 4.656E-29 3.802E-29 3.146E-29 2.632E-29 2.223E-29 1.893E-29 1.623E-29 1.399E-29 1.209E-29 1.044E-29 8.910E-30 7.201E-30 0.000E+00 7.596E-27 2.535E-27 1.181E-27 6.565E-28 4.070E-28 2.717E-28 1.913E-28 1.403E-28 1.062E-28 8.241E-29 6.533E-29 5.270E-29 4.314E-29 3.577E-29 2.997E-29 2.534E-29 2.159E-29 1.850E-29 1.590E-29 1.366E-29 1.161E-29 9.347E-30 0.000E+00 7.830E-27 2.663E-27 1.263E-27 7.121E-28 4.467E-28 3.010E-28 2.136E-28 1.576E-28 1.200E-28 9.354E-29 7.443E-29 6.022E-29 4.943E-29 4.105E-29 3.444E-29 2.914E-29 2.481E-29 2.121E-29 1.813E-29 1.533E-29 1.228E-29 0.000E+00 8.057E-27 2.802E-27 1.355E-27 7.771E-28 4.939E-28 3.363E-28 2.407E-28 1.789E-28 1.369E-28 1.072E-28 8.563E-29 6.950E-29 5.717E-29 4.756E-29 3.993E-29 3.377E-29 2.869E-29 2.438E-29 2.051E-29 1.634E-29 0.000E+00 8.296E-27 2.958E-27 1.464E-27 8.546E-28 5.508E-28 3.793E-28 2.739E-28 2.050E-28 1.578E-28 1.242E-28 9.953E-29 8.100E-29 6.676E-29 5.559E-29 4.666E-29 3.937E-29 3.325E-29 2.780E-29 2.202E-29 0.000E+00 8.580E-27 3.142E-27 1.594E-27 9.485E-28 6.206E-28 4.324E-28 3.151E-28 2.375E-28 1.838E-28 1.453E-28 1.169E-28 9.533E-29 7.866E-29 6.549E-29 5.485E-29 4.600E-29 3.821E-29 3.007E-29 0.000E+00 8.958E-27 3.369E-27 1.753E-27 1.064E-27 7.071E-28 4.984E-28 3.665E-28 2.782E-28 2.165E-28 1.719E-28 1.386E-28 1.132E-28 9.345E-29 7.764E-29 6.461E-29 5.329E-29 4.165E-29 0.000E+00 9.492E-27 3.660E-27 1.953E-27 1.210E-27 8.158E-28 5.817E-28 4.316E-28 3.298E-28 2.580E-28 2.055E-28 1.661E-28 1.357E-28 1.118E-28 9.228E-29 7.553E-29 5.859E-29 0.000E+00 1.026E-26 4.044E-27 2.210E-27 1.395E-27 9.545E-28 6.881E-28 5.148E-28 3.959E-28 3.110E-28 2.484E-28 2.009E-28 1.639E-28 1.342E-28 1.089E-28 8.385E-29 0.000E+00 1.136E-26 4.558E-27 2.546E-27 1.635E-27 1.134E-27 8.261E-28 6.228E-28 4.817E-28 3.798E-28 3.038E-28 2.455E-28 1.991E-28 1.603E-28 1.224E-28 0.000E+00 1.290E-26 5.256E-27 2.991E-27 1.952E-27 1.371E-27 1.008E-27 7.653E-28 5.948E-28 4.701E-28 3.760E-28 3.022E-28 2.412E-28 1.826E-28 0.000E+00 1.506E-26 6.212E-27 3.594E-27 2.378E-27 1.689E-27 1.253E-27 9.573E-28 7.468E-28 5.908E-28 4.704E-28 3.723E-28 2.795E-28 0.000E+00 1.807E-26 7.537E-27 4.422E-27 2.964E-27 2.127E-27 1.591E-27 1.222E-27 9.557E-28 7.538E-28 5.917E-28 4.408E-28 0.000E+00 2.230E-26 9.400E-27 5.589E-27 3.791E-27 2.748E-27 2.071E-27 1.598E-27 1.249E-27 9.724E-28 7.194E-28 0.000E+00 2.833E-26 1.208E-26 7.276E-27 4.997E-27 3.660E-27 2.778E-27 2.148E-27 1.661E-27 1.222E-27 0.000E+00 3.717E-26 1.604E-26 9.810E-27 6.831E-27 5.060E-27 3.864E-27 2.969E-27 2.177E-27 0.000E+00 5.060E-26 2.218E-26 1.381E-26 9.776E-27 7.329E-27 5.598E-27 4.101E-27 0.000E+00 7.209E-26 3.223E-26 2.055E-26 1.486E-26 1.125E-26 8.270E-27 0.000E+00 1.090E-25 5.008E-26 3.301E-26 2.447E-26 1.813E-26 0.000E+00 1.788E-25 8.572E-26 5.929E-26 4.425E-26 0.000E+00 3.323E-25 1.708E-25 1.248E-25 0.000E+00 7.623E-25 4.399E-25 0.000E+00 2.655E-24 2.515E-23
1.000E+05 1 1.000E+03 B 50 25
0.000E+00 1.160E-26 3.594E-27 1.560E-27 8.151E-28 4.793E-28 3.058E-28 2.071E-28 1.467E-28 1.078E-28 8.153E-29 6.315E-29 4.990E-29 4.011E-29 3.271E-29 2.700E-29 2.254E-29 1.898E-29 1.611E-29 1.375E-29 1.178E-29 1.009E-29 8.546E-30 6.859E-30 0.000E+00 1.234E-26 3.835E-27 1.669E-27 8.746E-28 5.154E-28 3.295E-28 2.235E-28 1.587E-28 1.167E-28 8.839E-29 6.854E-29 5.421E-29 4.360E-29 3.558E-29 2.938E-29 2.452E-29 2.064E-29 1.750E-29 1.489E-29 1.268E-29 1.069E-29 8.537E-30 0.000E+00 1.318E-26 4.110E-27 1.795E-27 9.439E-28 5.580E-28 3.577E-28 2.432E-28 1.730E-28 1.275E-28 9.672E-29 7.510E-29 5.947E-29 4.788E-29 3.909E-29 3.230E-29 2.695E-29 2.266E-29 1.916E-29 1.621E-29 1.359E-29 1.080E-29 0.000E+00 1.409E-26 4.418E-27 1.940E-27 1.025E-27 6.082E-28 3.912E-28 2.669E-28 1.903E-28 1.406E-28 1.069E-28 8.315E-29 6.594E-29 5.315E-29 4.343E-29 3.589E-29 2.993E-29 2.511E-29 2.111E-29 1.759E-29 1.391E-29 0.000E+00 1.508E-26 4.760E-27 2.104E-27 1.118E-27 6.673E-28 4.313E-28 2.954E-28 2.114E-28 1.567E-28 1.194E-28 9.310E-29 7.397E-29 5.971E-29 4.883E-29 4.035E-29 3.359E-29 2.804E-29 2.322E-29 1.827E-29 0.000E+00 1.611E-26 5.134E-27 2.291E-27 1.227E-27 7.376E-28 4.796E-28 3.302E-28 2.374E-28 1.766E-28 1.351E-28 1.056E-28 8.408E-29 6.797E-29 5.561E-29 4.589E-29 3.802E-29 3.129E-29 2.447E-29 0.000E+00 1.716E-26 5.542E-27 2.503E-27 1.356E-27 8.221E-28 5.387E-28 3.733E-28 2.700E-28 2.018E-28 1.549E-28 1.215E-28 9.698E-29 7.849E-29 6.419E-29 5.276E-29 4.311E-29 3.352E-29 0.000E+00 1.822E-26 5.985E-27 2.747E-27 1.509E-27 9.256E-28 6.124E-28 4.278E-28 3.115E-28 2.341E-28 1.806E-28 1.421E-28 1.137E-28 9.202E-29 7.499E-29 6.082E-29 4.697E-29 0.000E+00 1.927E-26 6.473E-27 3.034E-27 1.695E-27 1.055E-27 7.063E-28 4.982E-28 3.655E-28 2.765E-28 2.142E-28 1.692E-28 1.354E-28 1.093E-28 8.794E-29 6.742E-29 0.000E+00 2.035E-26 7.030E-27 3.382E-27 1.930E-27 1.222E-27 8.289E-28 5.909E-28 4.372E-28 3.329E-28 2.591E-28 2.049E-28 1.637E-28 1.305E-28 9.919E-29 0.000E+00 2.157E-26 7.701E-27 3.821E-27 2.235E-27 1.442E-27 9.925E-28 7.156E-28 5.340E-28 4.089E-28 3.191E-28 2.520E-28 1.988E-28 1.497E-28 0.000E+00 2.315E-26 8.568E-27 4.399E-27 2.642E-27 1.739E-27 1.215E-27 8.862E-28 6.664E-28 5.123E-28 3.994E-28 3.115E-28 2.321E-28 0.000E+00 2.544E-26 9.757E-27 5.190E-27 3.203E-27 2.151E-27 1.526E-27 1.124E-27 8.498E-28 6.531E-28 5.031E-28 3.705E-28 0.000E+00 2.897E-26 1.147E-26 6.312E-27 3.999E-27 2.738E-27 1.968E-27 1.461E-27 1.106E-27 8.407E-28 6.116E-28 0.000E+00 3.449E-26 1.403E-26 7.961E-27 5.167E-27 3.599E-27 2.615E-27 1.948E-27 1.461E-27 1.050E-27 0.000E+00 4.314E-26 1.796E-26 1.047E-26 6.946E-27 4.910E-27 3.593E-27 2.659E-27 1.889E-27 0.000E+00 5.691E-26 2.421E-26 1.447E-26 9.786E-27 7.001E-27 5.111E-27 3.596E-27 0.000E+00 7.958E-26 3.462E-26 2.120E-26 1.461E-26 1.050E-26 7.340E-27 0.000E+00 1.190E-25 5.316E-26 3.350E-26 2.347E-26 1.634E-26 0.000E+00 1.941E-25 8.986E-26 5.867E-26 4.066E-26 0.000E+00 3.585E-25 1.752E-25 1.176E-25 0.000E+00 8.122E-25 4.288E-25 0.000E+00 2.717E-24 2.702E-23
1.000E+06 1 1.000E+03 B 50 25
0.000E+00 2.019E-26 6.199E-27 2.666E-27 1.382E-27 8.064E-28 5.109E-28 3.438E-28 2.423E-28 1.771E-28 1.332E-28 1.027E-28 8.084E-29 6.471E-29 5.257E-29 4.325E-29 3.596E-29 3.019E-29 2.553E-29 2.172E-29 1.855E-29 1.583E-29 1.337E-29 1.068E-29 0.000E+00 2.086E-26 6.407E-27 2.756E-27 1.429E-27 8.342E-28 5.287E-28 3.558E-28 2.508E-28 1.833E-28 1.379E-28 1.064E-28 8.368E-29 6.697E-29 5.438E-29 4.472E-29 3.716E-29 3.115E-29 2.629E-29 2.229E-29 1.890E-29 1.587E-29 1.262E-29 0.000E+00 2.156E-26 6.626E-27 2.852E-27 1.479E-27 8.639E-28 5.477E-28 3.687E-28 2.599E-28 1.900E-28 1.430E-28 1.102E-28 8.673E-29 6.940E-29 5.633E-29 4.628E-29 3.841E-29 3.214E-29 2.703E-29 2.276E-29 1.898E-29 1.501E-29 0.000E+00 2.239E-26 6.886E-27 2.966E-27 1.539E-27 8.994E-28 5.704E-28 3.841E-28 2.709E-28 1.980E-28 1.491E-28 1.149E-28 9.040E-29 7.231E-29 5.866E-29 4.815E-29 3.989E-29 3.326E-29 2.778E-29 2.301E-29 1.808E-29 0.000E+00 2.344E-26 7.216E-27 3.111E-27 1.616E-27 9.448E-28 5.996E-28 4.040E-28 2.850E-28 2.084E-28 1.569E-28 1.210E-28 9.516E-29 7.608E-29 6.166E-29 5.052E-29 4.172E-29 3.455E-29 2.840E-29 2.216E-29 0.000E+00 2.480E-26 7.644E-27 3.300E-27 1.716E-27 1.004E-27 6.380E-28 4.303E-28 3.037E-28 2.222E-28 1.674E-28 1.291E-28 1.015E-28 8.106E-29 6.560E-29 5.358E-29 4.396E-29 3.583E-29 2.775E-29 0.000E+00 2.653E-26 8.192E-27 3.544E-27 1.846E-27 1.082E-27 6.883E-28 4.647E-28 3.283E-28 2.404E-28 1.811E-28 1.397E-28 1.098E-28 8.761E-29 7.070E-29 5.739E-29 4.635E-29 3.562E-29 0.000E+00 2.867E-26 8.880E-27 3.852E-27 2.012E-27 1.182E-27 7.532E-28 5.094E-28 3.604E-28 2.642E-28 1.992E-28 1.536E-28 1.206E-28 9.605E-29 7.706E-29 6.161E-29 4.694E-29 0.000E+00 3.126E-26 9.721E-27 4.234E-27 2.220E-27 1.309E-27 8.364E-28 5.670E-28 4.020E-28 2.951E-28 2.227E-28 1.718E-28 1.347E-28 1.067E-28 8.435E-29 6.366E-29 0.000E+00 3.430E-26 1.073E-26 4.704E-27 2.480E-27 1.469E-27 9.430E-28 6.416E-28 4.562E-28 3.356E-28 2.535E-28 1.954E-28 1.526E-28 1.193E-28 8.912E-29 0.000E+00 3.777E-26 1.193E-26 5.280E-27 2.807E-27 1.675E-27 1.082E-27 7.396E-28 5.280E-28 3.896E-28 2.946E-28 2.265E-28 1.747E-28 1.292E-28 0.000E+00 4.165E-26 1.335E-26 5.989E-27 3.223E-27 1.943E-27 1.266E-27 8.719E-28 6.258E-28 4.632E-28 3.500E-28 2.663E-28 1.947E-28 0.000E+00 4.591E-26 1.503E-26 6.881E-27 3.769E-27 2.305E-27 1.520E-27 1.056E-27 7.631E-28 5.659E-28 4.240E-28 3.063E-28 0.000E+00 5.065E-26 1.709E-26 8.052E-27 4.516E-27 2.816E-27 1.884E-27 1.324E-27 9.610E-28 7.084E-28 5.050E-28 0.000E+00 5.636E-26 1.978E-26 9.681E-27 5.596E-27 3.570E-27 2.428E-27 1.721E-27 1.246E-27 8.747E-28 0.000E+00 6.436E-26 2.366E-26 1.211E-26 7.241E-27 4.733E-27 3.265E-27 2.314E-27 1.597E-27 0.000E+00 7.725E-26 2.976E-26 1.597E-26 9.885E-27 6.598E-27 4.569E-27 3.095E-27 0.000E+00 9.980E-26 4.013E-26 2.252E-26 1.437E-26 9.684E-27 6.432E-27 0.000E+00 1.413E-25 5.910E-26 3.448E-26 2.242E-26 1.460E-26 0.000E+00 2.231E-25 9.693E-26 5.837E-26 3.718E-26 0.000E+00 4.042E-25 1.830E-25 1.109E-25 0.000E+00 8.973E-25 4.218E-25 0.000E+00 2.859E-24 2.958E-23
1.000E+07 1 1.000E+03 B 50 25
0.000E+00 3.342E-26 1.025E-26 4.402E-27 2.279E-27 1.328E-27 8.407E-28 5.652E-28 3.979E-28 2.905E-28 2.184E-28 1.683E-28 1.323E-28 1.058E-28 8.589E-29 7.060E-29 5.867E-29 4.920E-29 4.158E-29 3.534E-29 3.015E-29 2.570E-29 2.167E-29 1.728E-29 0.000E+00 3.671E-26 1.126E-26 4.835E-27 2.503E-27 1.459E-27 9.232E-28 6.206E-28 4.368E-28 3.189E-28 2.397E-28 1.846E-28 1.451E-28 1.160E-28 9.412E-29 7.731E-29 6.417E-29 5.374E-29 4.531E-29 3.836E-29 3.248E-29 2.722E-29 2.160E-29 0.000E+00 4.006E-26 1.229E-26 5.278E-27 2.732E-27 1.592E-27 1.008E-27 6.772E-28 4.766E-28 3.479E-28 2.614E-28 2.013E-28 1.581E-28 1.264E-28 1.024E-28 8.406E-29 6.968E-29 5.821E-29 4.889E-29 4.109E-29 3.421E-29 2.698E-29 0.000E+00 4.334E-26 1.329E-26 5.709E-27 2.955E-27 1.722E-27 1.090E-27 7.324E-28 5.154E-28 3.761E-28 2.826E-28 2.175E-28 1.708E-28 1.364E-28 1.104E-28 9.050E-29 7.484E-29 6.229E-29 5.193E-29 4.291E-29 3.362E-29 0.000E+00 4.635E-26 1.421E-26 6.105E-27 3.160E-27 1.842E-27 1.165E-27 7.830E-28 5.509E-28 4.019E-28 3.019E-28 2.322E-28 1.822E-28 1.454E-28 1.176E-28 9.613E-29 7.920E-29 6.544E-29 5.364E-29 4.173E-29 0.000E+00 4.890E-26 1.500E-26 6.442E-27 3.335E-27 1.944E-27 1.230E-27 8.261E-28 5.811E-28 4.238E-28 3.182E-28 2.447E-28 1.918E-28 1.528E-28 1.233E-28 1.004E-28 8.216E-29 6.675E-29 5.151E-29 0.000E+00 5.093E-26 1.562E-26 6.712E-27 3.475E-27 2.025E-27 1.281E-27 8.607E-28 6.053E-28 4.413E-28 3.312E-28 2.544E-28 1.992E-28 1.584E-28 1.273E-28 1.030E-28 8.283E-29 6.337E-29 0.000E+00 5.261E-26 1.614E-26 6.937E-27 3.592E-27 2.093E-27 1.324E-27 8.897E-28 6.256E-28 4.559E-28 3.418E-28 2.623E-28 2.050E-28 1.624E-28 1.296E-28 1.031E-28 7.812E-29 0.000E+00 5.436E-26 1.669E-26 7.174E-27 3.716E-27 2.166E-27 1.371E-27 9.207E-28 6.472E-28 4.713E-28 3.531E-28 2.704E-28 2.106E-28 1.657E-28 1.301E-28 9.752E-29 0.000E+00 5.678E-26 1.744E-26 7.504E-27 3.889E-27 2.268E-27 1.435E-27 9.641E-28 6.775E-28 4.930E-28 3.687E-28 2.815E-28 2.178E-28 1.686E-28 1.248E-28 0.000E+00 6.042E-26 1.858E-26 8.003E-27 4.152E-27 2.423E-27 1.534E-27 1.031E-27 7.240E-28 5.262E-28 3.925E-28 2.978E-28 2.268E-28 1.655E-28 0.000E+00 6.570E-26 2.025E-26 8.738E-27 4.540E-27 2.654E-27 1.682E-27 1.130E-27 7.934E-28 5.754E-28 4.268E-28 3.189E-28 2.291E-28 0.000E+00 7.298E-26 2.256E-26 9.770E-27 5.092E-27 2.983E-27 1.894E-27 1.273E-27 8.930E-28 6.448E-28 4.715E-28 3.328E-28 0.000E+00 8.257E-26 2.568E-26 1.118E-26 5.858E-27 3.446E-27 2.194E-27 1.477E-27 1.033E-27 7.369E-28 5.100E-28 0.000E+00 9.485E-26 2.980E-26 1.311E-26 6.927E-27 4.104E-27 2.625E-27 1.769E-27 1.226E-27 8.303E-28 0.000E+00 1.103E-25 3.527E-26 1.579E-26 8.469E-27 5.076E-27 3.269E-27 2.194E-27 1.451E-27 0.000E+00 1.301E-25 4.283E-26 1.973E-26 1.084E-26 6.604E-27 4.271E-27 2.753E-27 0.000E+00 1.577E-25 5.421E-26 2.607E-26 1.479E-26 9.156E-27 5.735E-27 0.000E+00 2.033E-25 7.374E-26 3.741E-26 2.191E-26 1.326E-26 0.000E+00 2.930E-25 1.123E-25 5.994E-26 3.475E-26 0.000E+00 4.968E-25 2.000E-25 1.075E-25 0.000E+00 1.055E-24 4.303E-25 0.000E+00 3.174E-24 3.442E-23
1.000E+08 1 1.000E+03 B 50 25
0.000E+00 3.894E-26 1.194E-26 5.128E-27 2.654E-27 1.547E-27 9.788E-28 6.579E-28 4.631E-28 3.381E-28 2.542E-28 1.958E-28 1.539E-28 1.231E-28 9.988E-29 8.209E-29 6.820E-29 5.719E-29 4.832E-29 4.107E-29 3.503E-29 2.985E-29 2.516E-29 2.006E-29 0.000E+00 4.447E-26 1.363E-26 5.855E-27 3.030E-27 1.766E-27 1.117E-27 7.508E-28 5.284E-28 3.857E-28 2.899E-28 2.232E-28 1.754E-28 1.402E-28 1.137E-28 9.340E-29 7.752E-29 6.490E-29 5.470E-29 4.631E-29 3.920E-29 3.283E-29 2.604E-29 0.000E+00 5.099E-26 1.563E-26 6.713E-27 3.474E-27 2.024E-27 1.280E-27 8.604E-28 6.054E-28 4.417E-28 3.319E-28 2.555E-28 2.007E-28 1.603E-28 1.299E-28 1.066E-28 8.833E-29 7.377E-29 6.194E-29 5.204E-29 4.330E-29 3.413E-29 0.000E+00 5.867E-26 1.799E-26 7.723E-27 3.996E-27 2.328E-27 1.472E-27 9.892E-28 6.959E-28 5.076E-28 3.813E-28 2.934E-28 2.303E-28 1.838E-28 1.488E-28 1.219E-28 1.008E-28 8.384E-29 6.986E-29 5.770E-29 4.517E-29 0.000E+00 6.767E-26 2.074E-26 8.904E-27 4.607E-27 2.683E-27 1.697E-27 1.140E-27 8.015E-28 5.845E-28 4.388E-28 3.375E-28 2.647E-28 2.111E-28 1.706E-28 1.394E-28 1.148E-28 9.479E-29 7.764E-29 6.033E-29 0.000E+00 7.806E-26 2.392E-26 1.027E-26 5.312E-27 3.094E-27 1.956E-27 1.313E-27 9.233E-28 6.730E-28 5.050E-28 3.880E-28 3.040E-28 2.421E-28 1.952E-28 1.589E-28 1.299E-28 1.054E-28 8.123E-29 0.000E+00 8.978E-26 2.751E-26 1.181E-26 6.107E-27 3.556E-27 2.248E-27 1.509E-27 1.060E-27 7.723E-28 5.791E-28 4.445E-28 3.477E-28 2.762E-28 2.219E-28 1.793E-28 1.440E-28 1.100E-28 0.000E+00 1.024E-25 3.139E-26 1.347E-26 6.965E-27 4.055E-27 2.562E-27 1.719E-27 1.207E-27 8.788E-28 6.583E-28 5.045E-28 3.938E-28 3.116E-28 2.484E-28 1.973E-28 1.491E-28 0.000E+00 1.152E-25 3.529E-26 1.514E-26 7.826E-27 4.555E-27 2.877E-27 1.929E-27 1.354E-27 9.846E-28 7.364E-28 5.631E-28 4.378E-28 3.439E-28 2.695E-28 2.015E-28 0.000E+00 1.265E-25 3.876E-26 1.663E-26 8.595E-27 5.000E-27 3.157E-27 2.116E-27 1.483E-27 1.077E-27 8.038E-28 6.123E-28 4.726E-28 3.649E-28 2.692E-28 0.000E+00 1.350E-25 4.136E-26 1.774E-26 9.167E-27 5.331E-27 3.363E-27 2.252E-27 1.577E-27 1.143E-27 8.495E-28 6.424E-28 4.876E-28 3.544E-28 0.000E+00 1.402E-25 4.295E-26 1.842E-26 9.515E-27 5.531E-27 3.487E-27 2.332E-27 1.629E-27 1.176E-27 8.685E-28 6.460E-28 4.616E-28 0.000E+00 1.440E-25 4.412E-26 1.892E-26 9.772E-27 5.677E-27 3.576E-27 2.387E-27 1.662E-27 1.192E-27 8.656E-28 6.064E-28 0.000E+00 1.501E-25 4.601E-26 1.974E-26 1.019E-26 5.918E-27 3.722E-27 2.477E-27 1.714E-27 1.209E-27 8.277E-28 0.000E+00 1.622E-25 4.974E-26 2.135E-26 1.103E-26 6.398E-27 4.015E-27 2.657E-27 1.810E-27 1.205E-27 0.000E+00 1.829E-25 5.620E-26 2.417E-26 1.249E-26 7.242E-27 4.525E-27 2.953E-27 1.901E-27 0.000E+00 2.152E-25 6.644E-26 2.868E-26 1.486E-26 8.605E-27 5.318E-27 3.288E-27 0.000E+00 2.639E-25 8.223E-26 3.582E-26 1.866E-26 1.075E-26 6.334E-27 0.000E+00 3.381E-25 1.074E-25 4.766E-26 2.502E-26 1.391E-26 0.000E+00 4.624E-25 1.519E-25 6.951E-26 3.595E-26 0.000E+00 7.187E-25 2.455E-25 1.137E-25 0.000E+00 1.401E-24 4.798E-25 0.000E+00 3.893E-24 4.441E-23
1.000E+02 1 3.000E+03 B 131 25
0.000E+00 1.135E-27 4.355E-28 2.346E-28 1.457E-28 9.799E-29 6.951E-29 5.124E-29 3.890E-29 3.024E-29 2.396E-29 1.930E-29 1.576E-29 1.301E-29 1.086E-29 9.139E-30 7.747E-30 6.607E-30 5.662E-30 4.867E-30 4.187E-30 3.590E-30 3.034E-30 2.417E-30 0.000E+00 1.270E-27 4.888E-28 2.639E-28 1.643E-28 1.107E-28 7.863E-29 5.803E-29 4.409E-29 3.430E-29 2.719E-29 2.191E-29 1.789E-29 1.478E-29 1.232E-29 1.036E-29 8.777E-30 7.472E-30 6.385E-30 5.463E-30 4.659E-30 3.919E-30 3.106E-30 0.000E+00 1.431E-27 5.521E-28 2.988E-28 1.863E-28 1.258E-28 8.945E-29 6.608E-29 5.025E-29 3.912E-29 3.103E-29 2.501E-29 2.042E-29 1.686E-29 1.406E-29 1.181E-29 9.985E-30 8.478E-30 7.211E-30 6.116E-30 5.116E-30 4.035E-30 0.000E+00 1.622E-27 6.275E-28 3.403E-28 2.126E-28 1.437E-28 1.024E-28 7.571E-29 5.763E-29 4.488E-29 3.562E-29 2.871E-29 2.345E-29 1.936E-29 1.612E-29 1.353E-29 1.140E-29 9.639E-30 8.127E-30 6.761E-30 5.302E-30 0.000E+00 1.853E-27 7.181E-28 3.903E-28 2.443E-28 1.654E-28 1.179E-28 8.732E-29 6.653E-29 5.185E-29 4.117E-29 3.319E-29 2.710E-29 2.236E-29 1.860E-29 1.556E-29 1.306E-29 1.095E-29 9.053E-30 7.057E-30 0.000E+00 2.132E-27 8.280E-28 4.509E-28 2.827E-28 1.917E-28 1.369E-28 1.015E-28 7.738E-29 6.035E-29 4.794E-29 3.865E-29 3.154E-29 2.599E-29 2.157E-29 1.798E-29 1.496E-29 1.230E-29 9.527E-30 0.000E+00 2.473E-27 9.622E-28 5.250E-28 3.298E-28 2.240E-28 1.602E-28 1.189E-28 9.075E-29 7.083E-29 5.628E-29 4.537E-29 3.700E-29 3.043E-29 2.515E-29 2.079E-29 1.697E-29 1.306E-29 0.000E+00 2.893E-27 1.128E-27 6.168E-28 3.882E-28 2.642E-28 1.892E-28 1.406E-28 1.074E-28 8.392E-29 6.670E-29 5.374E-29 4.375E-29 3.585E-29 2.940E-29 2.383E-29 1.821E-29 0.000E+00 3.418E-27 1.335E-27 7.318E-28 4.616E-28 3.148E-28 2.259E-28 1.681E-28 1.286E-28 1.005E-28 7.986E-29 6.427E-29 5.215E-29 4.240E-29 3.412E-29 2.589E-29 0.000E+00 4.080E-27 1.597E-27 8.778E-28 5.551E-28 3.794E-28 2.728E-28 2.033E-28 1.557E-28 1.218E-28 9.671E-29 7.762E-29 6.254E-29 4.991E-29 3.759E-29 0.000E+00 4.930E-27 1.935E-27 1.066E-27 6.763E-28 4.635E-28 3.340E-28 2.494E-28 1.912E-28 1.496E-28 1.185E-28 9.455E-29 7.482E-29 5.590E-29 0.000E+00 6.039E-27 2.376E-27 1.314E-27 8.365E-28 5.750E-28 4.155E-28 3.109E-28 2.386E-28 1.864E-28 1.470E-28 1.153E-28 8.543E-29 0.000E+00 7.513E-27 2.965E-27 1.647E-27 1.053E-27 7.265E-28 5.266E-28 3.949E-28 3.032E-28 2.360E-28 1.832E-28 1.346E-28 0.000E+00 9.520E-27 3.772E-27 2.107E-27 1.353E-27 9.381E-28 6.825E-28 5.128E-28 3.929E-28 3.017E-28 2.199E-28 0.000E+00 1.233E-26 4.910E-27 2.760E-27 1.784E-27 1.244E-27 9.087E-28 6.831E-28 5.178E-28 3.743E-28 0.000E+00 1.639E-26 6.570E-27 3.725E-27 2.428E-27 1.704E-27 1.250E-27 9.332E-28 6.690E-28 0.000E+00 2.253E-26 9.103E-27 5.219E-27 3.439E-27 2.434E-27 1.783E-27 1.267E-27 0.000E+00 3.227E-26 1.319E-26 7.681E-27 5.134E-27 3.659E-27 2.576E-27 0.000E+00 4.888E-26 2.031E-26 1.209E-26 8.226E-27 5.721E-27 0.000E+00 7.997E-26 3.409E-26 2.096E-26 1.425E-26 0.000E+00 1.468E-25 6.528E-26 4.152E-26 0.000E+00 3.265E-25 1.550E-25 0.000E+00 1.048E-24 8.133E-24
1.000E+03 1 3.000E+03 B 87 25
0.000E+00 1.359E-27 4.984E-28 2.554E-28 1.527E-28 9.983E-29 6.929E-29 5.021E-29 3.761E-29 2.891E-29 2.271E-29 1.815E-29 1.473E-29 1.210E-29 1.006E-29 8.436E-30 7.132E-30 6.071E-30 5.196E-30 4.464E-30 3.841E-30 3.296E-30 2.792E-30 2.232E-30 0.000E+00 1.476E-27 5.467E-28 2.832E-28 1.707E-28 1.123E-28 7.826E-29 5.690E-29 4.272E-29 3.290E-29 2.587E-29 2.070E-29 1.681E-29 1.381E-29 1.147E-29 9.617E-30 8.122E-30 6.901E-30 5.889E-30 5.035E-30 4.296E-30 3.618E-30 2.876E-30 0.000E+00 1.619E-27 6.047E-28 3.163E-28 1.921E-28 1.271E-28 8.894E-29 6.486E-29 4.880E-29 3.765E-29 2.964E-29 2.373E-29 1.927E-29 1.583E-29 1.315E-29 1.101E-29 9.278E-30 7.860E-30 6.676E-30 5.659E-30 4.737E-30 3.745E-30 0.000E+00 1.794E-27 6.751E-28 3.563E-28 2.178E-28 1.448E-28 1.017E-28 7.438E-29 5.608E-29 4.332E-29 3.413E-29 2.734E-29 2.220E-29 1.824E-29 1.513E-29 1.264E-29 1.063E-29 8.961E-30 7.546E-30 6.276E-30 4.930E-30 0.000E+00 2.008E-27 7.610E-28 4.047E-28 2.489E-28 1.662E-28 1.171E-28 8.587E-29 6.486E-29 5.016E-29 3.955E-29 3.169E-29 2.573E-29 2.112E-29 1.749E-29 1.458E-29 1.220E-29 1.020E-29 8.423E-30 6.573E-30 0.000E+00 2.272E-27 8.665E-28 4.640E-28 2.869E-28 1.923E-28 1.359E-28 9.986E-29 7.554E-29 5.849E-29 4.614E-29 3.697E-29 3.000E-29 2.459E-29 2.031E-29 1.685E-29 1.398E-29 1.146E-29 8.885E-30 0.000E+00 2.599E-27 9.970E-28 5.370E-28 3.335E-28 2.244E-28 1.590E-28 1.171E-28 8.868E-29 6.872E-29 5.423E-29 4.344E-29 3.520E-29 2.879E-29 2.367E-29 1.948E-29 1.585E-29 1.219E-29 0.000E+00 3.008E-27 1.160E-27 6.279E-28 3.916E-28 2.643E-28 1.878E-28 1.385E-28 1.050E-28 8.145E-29 6.428E-29 5.145E-29 4.161E-29 3.388E-29 2.763E-29 2.231E-29 1.702E-29 0.000E+00 3.524E-27 1.365E-27 7.423E-28 4.647E-28 3.145E-28 2.240E-28 1.655E-28 1.257E-28 9.750E-29 7.692E-29 6.145E-29 4.951E-29 3.999E-29 3.200E-29 2.422E-29 0.000E+00 4.181E-27 1.626E-27 8.880E-28 5.579E-28 3.787E-28 2.704E-28 2.001E-28 1.521E-28 1.180E-28 9.300E-29 7.405E-29 5.920E-29 4.693E-29 3.520E-29 0.000E+00 5.029E-27 1.964E-27 1.077E-27 6.788E-28 4.622E-28 3.308E-28 2.452E-28 1.865E-28 1.447E-28 1.137E-28 8.986E-29 7.054E-29 5.241E-29 0.000E+00 6.140E-27 2.407E-27 1.325E-27 8.385E-28 5.728E-28 4.110E-28 3.052E-28 2.322E-28 1.798E-28 1.404E-28 1.090E-28 8.019E-29 0.000E+00 7.622E-27 2.999E-27 1.659E-27 1.054E-27 7.229E-28 5.201E-28 3.868E-28 2.941E-28 2.265E-28 1.739E-28 1.266E-28 0.000E+00 9.644E-27 3.811E-27 2.119E-27 1.354E-27 9.322E-28 6.727E-28 5.006E-28 3.793E-28 2.876E-28 2.072E-28 0.000E+00 1.248E-26 4.957E-27 2.774E-27 1.783E-27 1.234E-27 8.929E-28 6.636E-28 4.961E-28 3.536E-28 0.000E+00 1.658E-26 6.628E-27 3.740E-27 2.422E-27 1.686E-27 1.222E-27 8.994E-28 6.340E-28 0.000E+00 2.278E-26 9.179E-27 5.235E-27 3.423E-27 2.398E-27 1.730E-27 1.206E-27 0.000E+00 3.262E-26 1.329E-26 7.693E-27 5.094E-27 3.576E-27 2.465E-27 0.000E+00 4.939E-26 2.045E-26 1.208E-26 8.105E-27 5.509E-27 0.000E+00 8.078E-26 3.425E-26 2.082E-26 1.382E-26 0.000E+00 1.482E-25 6.534E-26 4.063E-26 0.000E+00 3.290E-25 1.532E-25 0.000E+00 1.047E-24 9.125E-24
1.000E+04 1 3.000E+03 B 62 25
0.000E+00 2.118E-27 6.957E-28 3.194E-28 1.751E-28 1.072E-28 7.071E-29 4.925E-29 3.574E-29 2.680E-29 2.063E-29 1.622E-29 1.299E-29 1.056E-29 8.704E-30 7.252E-30 6.101E-30 5.176E-30 4.420E-30 3.794E-30 3.266E-30 2.808E-30 2.387E-30 1.919E-30 0.000E+00 2.247E-27 7.482E-28 3.479E-28 1.927E-28 1.189E-28 7.897E-29 5.529E-29 4.030E-29 3.032E-29 2.340E-29 1.845E-29 1.480E-29 1.205E-29 9.938E-30 8.285E-30 6.971E-30 5.909E-30 5.039E-30 4.311E-30 3.685E-30 3.115E-30 2.492E-30 0.000E+00 2.389E-27 8.074E-28 3.808E-28 2.134E-28 1.329E-28 8.885E-29 6.256E-29 4.580E-29 3.458E-29 2.676E-29 2.114E-29 1.699E-29 1.385E-29 1.143E-29 9.530E-30 8.013E-30 6.782E-30 5.762E-30 4.895E-30 4.113E-30 3.271E-30 0.000E+00 2.548E-27 8.754E-28 4.195E-28 2.380E-28 1.496E-28 1.008E-28 7.137E-29 5.248E-29 3.976E-29 3.086E-29 2.443E-29 1.966E-29 1.604E-29 1.324E-29 1.103E-29 9.257E-30 7.807E-30 6.585E-30 5.497E-30 4.344E-30 0.000E+00 2.734E-27 9.555E-28 4.656E-28 2.677E-28 1.700E-28 1.153E-28 8.214E-29 6.067E-29 4.612E-29 3.588E-29 2.844E-29 2.291E-29 1.870E-29 1.542E-29 1.283E-29 1.073E-29 8.979E-30 7.441E-30 5.839E-30 0.000E+00 2.959E-27 1.052E-27 5.215E-28 3.039E-28 1.949E-28 1.332E-28 9.541E-29 7.076E-29 5.395E-29 4.206E-29 3.339E-29 2.690E-29 2.194E-29 1.807E-29 1.497E-29 1.242E-29 1.021E-29 7.950E-30 0.000E+00 3.240E-27 1.171E-27 5.904E-28 3.486E-28 2.258E-28 1.555E-28 1.119E-28 8.330E-29 6.367E-29 4.971E-29 3.949E-29 3.180E-29 2.589E-29 2.124E-29 1.746E-29 1.423E-29 1.098E-29 0.000E+00 3.597E-27 1.319E-27 6.766E-28 4.046E-28 2.644E-28 1.833E-28 1.326E-28 9.901E-29 7.584E-29 5.926E-29 4.706E-29 3.784E-29 3.069E-29 2.497E-29 2.015E-29 1.541E-29 0.000E+00 4.058E-27 1.509E-27 7.860E-28 4.755E-28 3.134E-28 2.186E-28 1.587E-28 1.189E-28 9.118E-29 7.126E-29 5.650E-29 4.526E-29 3.642E-29 2.908E-29 2.203E-29 0.000E+00 4.662E-27 1.755E-27 9.269E-28 5.667E-28 3.763E-28 2.638E-28 1.923E-28 1.443E-28 1.107E-28 8.646E-29 6.832E-29 5.430E-29 4.288E-29 3.213E-29 0.000E+00 5.460E-27 2.078E-27 1.111E-27 6.855E-28 4.583E-28 3.228E-28 2.359E-28 1.773E-28 1.360E-28 1.058E-28 8.301E-29 6.477E-29 4.799E-29 0.000E+00 6.529E-27 2.510E-27 1.356E-27 8.432E-28 5.670E-28 4.009E-28 2.937E-28 2.208E-28 1.689E-28 1.306E-28 1.006E-28 7.363E-29 0.000E+00 7.980E-27 3.095E-27 1.687E-27 1.057E-27 7.142E-28 5.068E-28 3.718E-28 2.791E-28 2.123E-28 1.612E-28 1.165E-28 0.000E+00 9.989E-27 3.905E-27 2.146E-27 1.353E-27 9.190E-28 6.540E-28 4.798E-28 3.584E-28 2.682E-28 1.912E-28 0.000E+00 1.283E-26 5.054E-27 2.799E-27 1.777E-27 1.213E-27 8.648E-28 6.326E-28 4.656E-28 3.273E-28 0.000E+00 1.698E-26 6.738E-27 3.764E-27 2.407E-27 1.651E-27 1.177E-27 8.502E-28 5.890E-28 0.000E+00 2.325E-26 9.310E-27 5.255E-27 3.389E-27 2.333E-27 1.649E-27 1.126E-27 0.000E+00 3.325E-26 1.346E-26 7.698E-27 5.014E-27 3.445E-27 2.314E-27 0.000E+00 5.029E-26 2.066E-26 1.203E-26 7.899E-27 5.212E-27 0.000E+00 8.218E-26 3.450E-26 2.055E-26 1.320E-26 0.000E+00 1.506E-25 6.536E-26 3.929E-26 0.000E+00 3.331E-25 1.503E-25 0.000E+00 1.047E-24 1.064E-23
1.000E+05 1 3.000E+03 B 50 25
0.000E+00 2.974E-27 9.226E-28 4.008E-28 2.096E-28 1.233E-28 7.869E-29 5.329E-29 3.776E-29 2.774E-29 2.097E-29 1.624E-29 1.283E-29 1.030E-29 8.398E-30 6.931E-30 5.781E-30 4.866E-30 4.127E-30 3.520E-30 3.014E-30 2.579E-30 2.183E-30 1.749E-30 0.000E+00 3.226E-27 1.004E-27 4.375E-28 2.294E-28 1.353E-28 8.650E-29 5.868E-29 4.164E-29 3.063E-29 2.318E-29 1.796E-29 1.420E-29 1.142E-29 9.307E-30 7.682E-30 6.406E-30 5.388E-30 4.563E-30 3.880E-30 3.300E-30 2.778E-30 2.216E-30 0.000E+00 3.509E-27 1.096E-27 4.797E-28 2.524E-28 1.493E-28 9.571E-29 6.507E-29 4.627E-29 3.409E-29 2.584E-29 2.005E-29 1.586E-29 1.276E-29 1.041E-29 8.590E-30 7.160E-30 6.014E-30 5.078E-30 4.291E-30 3.592E-30 2.850E-30 0.000E+00 3.823E-27 1.201E-27 5.282E-28 2.793E-28 1.658E-28 1.067E-28 7.273E-29 5.184E-29 3.827E-29 2.906E-29 2.258E-29 1.788E-29 1.440E-29 1.175E-29 9.695E-30 8.073E-30 6.763E-30 5.675E-30 4.721E-30 3.725E-30 0.000E+00 4.170E-27 1.319E-27 5.842E-28 3.108E-28 1.855E-28 1.198E-28 8.198E-29 5.861E-29 4.338E-29 3.300E-29 2.569E-29 2.038E-29 1.642E-29 1.340E-29 1.105E-29 9.179E-30 7.645E-30 6.316E-30 4.954E-30 0.000E+00 4.549E-27 1.453E-27 6.492E-28 3.480E-28 2.090E-28 1.357E-28 9.330E-29 6.696E-29 4.970E-29 3.791E-29 2.957E-29 2.348E-29 1.893E-29 1.545E-29 1.271E-29 1.050E-29 8.614E-30 6.711E-30 0.000E+00 4.963E-27 1.604E-27 7.252E-28 3.925E-28 2.377E-28 1.554E-28 1.074E-28 7.739E-29 5.766E-29 4.410E-29 3.447E-29 2.741E-29 2.210E-29 1.800E-29 1.473E-29 1.199E-29 9.272E-30 0.000E+00 5.418E-27 1.778E-27 8.155E-28 4.468E-28 2.732E-28 1.800E-28 1.251E-28 9.066E-29 6.780E-29 5.201E-29 4.072E-29 3.240E-29 2.609E-29 2.114E-29 1.705E-29 1.308E-29 0.000E+00 5.928E-27 1.982E-27 9.253E-28 5.143E-28 3.180E-28 2.114E-28 1.480E-28 1.078E-28 8.093E-29 6.224E-29 4.878E-29 3.877E-29 3.106E-29 2.479E-29 1.884E-29 0.000E+00 6.526E-27 2.228E-27 1.062E-27 6.002E-28 3.759E-28 2.522E-28 1.779E-28 1.302E-28 9.811E-29 7.558E-29 5.919E-29 4.681E-29 3.692E-29 2.776E-29 0.000E+00 7.263E-27 2.538E-27 1.238E-27 7.122E-28 4.520E-28 3.063E-28 2.175E-28 1.600E-28 1.208E-28 9.301E-29 7.247E-29 5.642E-29 4.190E-29 0.000E+00 8.227E-27 2.942E-27 1.470E-27 8.616E-28 5.541E-28 3.790E-28 2.708E-28 1.998E-28 1.509E-28 1.156E-28 8.864E-29 6.492E-29 0.000E+00 9.546E-27 3.490E-27 1.786E-27 1.066E-27 6.940E-28 4.786E-28 3.435E-28 2.536E-28 1.906E-28 1.437E-28 1.036E-28 0.000E+00 1.141E-26 4.257E-27 2.229E-27 1.351E-27 8.897E-28 6.175E-28 4.441E-28 3.267E-28 2.417E-28 1.713E-28 0.000E+00 1.412E-26 5.367E-27 2.865E-27 1.762E-27 1.171E-27 8.158E-28 5.853E-28 4.241E-28 2.951E-28 0.000E+00 1.817E-26 7.024E-27 3.814E-27 2.374E-27 1.587E-27 1.106E-27 7.831E-28 5.342E-28 0.000E+00 2.444E-26 9.588E-27 5.284E-27 3.323E-27 2.229E-27 1.537E-27 1.027E-27 0.000E+00 3.457E-26 1.375E-26 7.689E-27 4.876E-27 3.255E-27 2.127E-27 0.000E+00 5.197E-26 2.099E-26 1.192E-26 7.583E-27 4.833E-27 0.000E+00 8.462E-26 3.484E-26 2.010E-26 1.239E-26 0.000E+00 1.546E-25 6.529E-26 3.744E-26 0.000E+00 3.399E-25 1.462E-25 0.000E+00 1.049E-24 1.122E-23
1.000E+06 1 3.000E+03 B 50 25
0.000E+00 4.193E-27 1.288E-27 5.540E-28 2.872E-28 1.676E-28 1.062E-28 7.147E-29 5.037E-29 3.681E-29 2.770E-29 2.136E-29 1.681E-29 1.345E-29 1.093E-29 8.990E-30 7.476E-30 6.275E-30 5.307E-30 4.515E-30 3.855E-30 3.290E-30 2.777E-30 2.219E-30 0.000E+00 4.475E-27 1.375E-27 5.917E-28 3.068E-28 1.791E-28 1.135E-28 7.641E-29 5.386E-29 3.936E-29 2.962E-29 2.284E-29 1.797E-29 1.438E-29 1.168E-29 9.601E-30 7.978E-30 6.687E-30 5.644E-30 4.784E-30 4.056E-30 3.404E-30 2.706E-30 0.000E+00 4.787E-27 1.472E-27 6.337E-28 3.287E-28 1.920E-28 1.217E-28 8.196E-29 5.777E-29 4.223E-29 3.178E-29 2.450E-29 1.928E-29 1.542E-29 1.252E-29 1.028E-29 8.535E-30 7.139E-30 6.004E-30 5.054E-30 4.214E-30 3.331E-30 0.000E+00 5.147E-27 1.583E-27 6.823E-28 3.542E-28 2.070E-28 1.313E-28 8.842E-29 6.235E-29 4.558E-29 3.431E-29 2.645E-29 2.080E-29 1.664E-29 1.349E-29 1.107E-29 9.172E-30 7.646E-30 6.386E-30 5.287E-30 4.153E-30 0.000E+00 5.574E-27 1.716E-27 7.403E-28 3.847E-28 2.250E-28 1.428E-28 9.621E-29 6.787E-29 4.963E-29 3.736E-29 2.880E-29 2.265E-29 1.810E-29 1.467E-29 1.202E-29 9.918E-30 8.212E-30 6.746E-30 5.262E-30 0.000E+00 6.089E-27 1.878E-27 8.111E-28 4.220E-28 2.471E-28 1.569E-28 1.058E-28 7.470E-29 5.465E-29 4.115E-29 3.172E-29 2.493E-29 1.991E-29 1.611E-29 1.315E-29 1.078E-29 8.784E-30 6.800E-30 0.000E+00 6.713E-27 2.075E-27 8.980E-28 4.680E-28 2.744E-28 1.746E-28 1.178E-28 8.324E-29 6.094E-29 4.590E-29 3.538E-29 2.780E-29 2.217E-29 1.788E-29 1.450E-29 1.170E-29 8.984E-30 0.000E+00 7.465E-27 2.314E-27 1.005E-27 5.250E-28 3.085E-28 1.966E-28 1.329E-28 9.402E-29 6.889E-29 5.191E-29 4.001E-29 3.140E-29 2.498E-29 2.002E-29 1.599E-29 1.217E-29 0.000E+00 8.363E-27 2.604E-27 1.135E-27 5.956E-28 3.512E-28 2.244E-28 1.521E-28 1.077E-28 7.903E-29 5.958E-29 4.591E-29 3.596E-29 2.845E-29 2.246E-29 1.692E-29 0.000E+00 9.423E-27 2.953E-27 1.296E-27 6.835E-28 4.049E-28 2.598E-28 1.766E-28 1.254E-28 9.214E-29 6.951E-29 5.349E-29 4.170E-29 3.251E-29 2.423E-29 0.000E+00 1.066E-26 3.373E-27 1.494E-27 7.944E-28 4.737E-28 3.056E-28 2.086E-28 1.487E-28 1.094E-28 8.255E-29 6.329E-29 4.867E-29 3.586E-29 0.000E+00 1.211E-26 3.883E-27 1.743E-27 9.371E-28 5.640E-28 3.665E-28 2.516E-28 1.800E-28 1.327E-28 9.987E-29 7.563E-29 5.500E-29 0.000E+00 1.381E-26 4.512E-27 2.063E-27 1.126E-27 6.861E-28 4.500E-28 3.111E-28 2.233E-28 1.645E-28 1.224E-28 8.775E-29 0.000E+00 1.589E-26 5.320E-27 2.492E-27 1.387E-27 8.575E-28 5.684E-28 3.955E-28 2.843E-28 2.073E-28 1.461E-28 0.000E+00 1.862E-26 6.416E-27 3.095E-27 1.762E-27 1.107E-27 7.415E-28 5.176E-28 3.687E-28 2.546E-28 0.000E+00 2.252E-26 8.003E-27 3.988E-27 2.326E-27 1.484E-27 9.999E-28 6.926E-28 4.670E-28 0.000E+00 2.855E-26 1.046E-26 5.383E-27 3.210E-27 2.069E-27 1.387E-27 9.095E-28 0.000E+00 3.848E-26 1.451E-26 7.688E-27 4.659E-27 2.998E-27 1.906E-27 0.000E+00 5.594E-26 2.166E-26 1.174E-26 7.150E-27 4.388E-27 0.000E+00 8.933E-26 3.539E-26 1.946E-26 1.142E-26 0.000E+00 1.614E-25 6.520E-26 3.519E-26 0.000E+00 3.512E-25 1.413E-25 0.000E+00 1.057E-24 1.161E-23
1.000E+07 1 3.000E+03 B 50 25
0.000E+00 5.778E-27 1.772E-27 7.612E-28 3.940E-28 2.297E-28 1.454E-28 9.773E-29 6.880E-29 5.023E-29 3.777E-29 2.910E-29 2.288E-29 1.830E-29 1.485E-29 1.221E-29 1.014E-29 8.507E-30 7.189E-30 6.111E-30 5.213E-30 4.443E-30 3.746E-30 2.988E-30 0.000E+00 6.378E-27 1.956E-27 8.402E-28 4.350E-28 2.535E-28 1.604E-28 1.079E-28 7.592E-29 5.542E-29 4.166E-29 3.209E-29 2.522E-29 2.016E-29 1.636E-29 1.344E-29 1.115E-29 9.339E-30 7.874E-30 6.667E-30 5.645E-30 4.730E-30 3.753E-30 0.000E+00 7.029E-27 2.156E-27 9.259E-28 4.793E-28 2.794E-28 1.768E-28 1.188E-28 8.363E-29 6.104E-29 4.587E-29 3.532E-29 2.775E-29 2.217E-29 1.798E-29 1.475E-29 1.223E-29 1.021E-29 8.578E-30 7.210E-30 6.002E-30 4.733E-30 0.000E+00 7.722E-27 2.368E-27 1.017E-27 5.266E-28 3.069E-28 1.942E-28 1.305E-28 9.185E-29 6.702E-29 5.036E-29 3.876E-29 3.044E-29 2.430E-29 1.968E-29 1.613E-29 1.334E-29 1.110E-29 9.254E-30 7.647E-30 5.991E-30 0.000E+00 8.449E-27 2.591E-27 1.113E-27 5.762E-28 3.359E-28 2.125E-28 1.428E-28 1.005E-28 7.329E-29 5.505E-29 4.235E-29 3.324E-29 2.651E-29 2.144E-29 1.753E-29 1.444E-29 1.193E-29 9.781E-30 7.608E-30 0.000E+00 9.199E-27 2.822E-27 1.212E-27 6.276E-28 3.658E-28 2.314E-28 1.555E-28 1.094E-28 7.977E-29 5.989E-29 4.605E-29 3.610E-29 2.876E-29 2.321E-29 1.890E-29 1.546E-29 1.256E-29 9.693E-30 0.000E+00 9.971E-27 3.059E-27 1.314E-27 6.805E-28 3.966E-28 2.509E-28 1.686E-28 1.186E-28 8.644E-29 6.487E-29 4.983E-29 3.902E-29 3.102E-29 2.494E-29 2.017E-29 1.622E-29 1.241E-29 0.000E+00 1.079E-26 3.310E-27 1.423E-27 7.367E-28 4.294E-28 2.717E-28 1.825E-28 1.283E-28 9.352E-29 7.012E-29 5.380E-29 4.204E-29 3.330E-29 2.659E-29 2.114E-29 1.602E-29 0.000E+00 1.170E-26 3.593E-27 1.545E-27 8.004E-28 4.667E-28 2.953E-28 1.983E-28 1.394E-28 1.015E-28 7.605E-29 5.824E-29 4.535E-29 3.568E-29 2.802E-29 2.099E-29 0.000E+00 1.282E-26 3.940E-27 1.696E-27 8.789E-28 5.127E-28 3.244E-28 2.179E-28 1.531E-28 1.114E-28 8.331E-29 6.359E-29 4.919E-29 3.807E-29 2.816E-29 0.000E+00 1.428E-26 4.392E-27 1.892E-27 9.819E-28 5.731E-28 3.629E-28 2.437E-28 1.712E-28 1.244E-28 9.274E-29 7.034E-29 5.354E-29 3.905E-29 0.000E+00 1.619E-26 4.992E-27 2.155E-27 1.120E-27 6.547E-28 4.149E-28 2.787E-28 1.956E-28 1.418E-28 1.051E-28 7.849E-29 5.634E-29 0.000E+00 1.870E-26 5.786E-27 2.506E-27 1.306E-27 7.654E-28 4.857E-28 3.264E-28 2.288E-28 1.650E-28 1.206E-28 8.499E-29 0.000E+00 2.195E-26 6.831E-27 2.977E-27 1.559E-27 9.170E-28 5.834E-28 3.923E-28 2.741E-28 1.952E-28 1.348E-28 0.000E+00 2.613E-26 8.213E-27 3.615E-27 1.909E-27 1.130E-27 7.217E-28 4.851E-28 3.354E-28 2.264E-28 0.000E+00 3.154E-26 1.008E-26 4.508E-27 2.413E-27 1.442E-27 9.252E-28 6.181E-28 4.064E-28 0.000E+00 3.882E-26 1.271E-26 5.830E-27 3.183E-27 1.926E-27 1.235E-27 7.880E-28 0.000E+00 4.950E-26 1.674E-26 7.947E-27 4.444E-27 2.709E-27 1.667E-27 0.000E+00 6.736E-26 2.362E-26 1.166E-26 6.638E-27 3.903E-27 0.000E+00 1.013E-25 3.684E-26 1.874E-26 1.038E-26 0.000E+00 1.753E-25 6.560E-26 3.282E-26 0.000E+00 3.712E-25 1.365E-25 0.000E+00 1.081E-24 1.223E-23
1.000E+08 1 3.000E+03 B 50 25
0.000E+00 6.407E-27 1.964E-27 8.437E-28 4.366E-28 2.545E-28 1.610E-28 1.082E-28 7.619E-29 5.562E-29 4.181E-29 3.221E-29 2.532E-29 2.025E-29 1.643E-29 1.351E-29 1.122E-29 9.409E-30 7.950E-30 6.756E-30 5.762E-30 4.911E-30 4.139E-30 3.300E-30 0.000E+00 7.242E-27 2.220E-27 9.535E-28 4.934E-28 2.876E-28 1.819E-28 1.223E-28 8.605E-29 6.280E-29 4.721E-29 3.635E-29 2.856E-29 2.283E-29 1.852E-29 1.521E-29 1.262E-29 1.057E-29 8.908E-30 7.540E-30 6.383E-30 5.347E-30 4.240E-30 0.000E+00 8.217E-27 2.519E-27 1.082E-27 5.598E-28 3.262E-28 2.063E-28 1.386E-28 9.756E-29 7.118E-29 5.349E-29 4.117E-29 3.234E-29 2.584E-29 2.094E-29 1.718E-29 1.423E-29 1.189E-29 9.981E-30 8.386E-30 6.977E-30 5.499E-30 0.000E+00 9.358E-27 2.869E-27 1.232E-27 6.373E-28 3.713E-28 2.348E-28 1.578E-28 1.110E-28 8.096E-29 6.081E-29 4.679E-29 3.673E-29 2.932E-29 2.374E-29 1.944E-29 1.607E-29 1.337E-29 1.114E-29 9.201E-30 7.203E-30 0.000E+00 1.069E-26 3.277E-27 1.407E-27 7.278E-28 4.240E-28 2.681E-28 1.801E-28 1.266E-28 9.234E-29 6.933E-29 5.331E-29 4.182E-29 3.335E-29 2.696E-29 2.203E-29 1.814E-29 1.498E-29 1.227E-29 9.531E-30 0.000E+00 1.224E-26 3.752E-27 1.610E-27 8.330E-28 4.852E-28 3.067E-28 2.060E-28 1.448E-28 1.055E-28 7.919E-29 6.085E-29 4.768E-29 3.796E-29 3.061E-29 2.492E-29 2.036E-29 1.653E-29 1.274E-29 0.000E+00 1.403E-26 4.299E-27 1.845E-27 9.542E-28 5.556E-28 3.512E-28 2.357E-28 1.656E-28 1.207E-28 9.048E-29 6.945E-29 5.433E-29 4.316E-29 3.467E-29 2.801E-29 2.250E-29 1.718E-29 0.000E+00 1.605E-26 4.919E-27 2.111E-27 1.091E-27 6.353E-28 4.015E-28 2.694E-28 1.892E-28 1.377E-28 1.031E-28 7.905E-29 6.170E-29 4.882E-29 3.892E-29 3.091E-29 2.337E-29 0.000E+00 1.828E-26 5.602E-27 2.404E-27 1.243E-27 7.232E-28 4.568E-28 3.063E-28 2.150E-28 1.563E-28 1.169E-28 8.940E-29 6.951E-29 5.460E-29 4.279E-29 3.198E-29 0.000E+00 2.065E-26 6.327E-27 2.714E-27 1.403E-27 8.162E-28 5.153E-28 3.453E-28 2.421E-28 1.758E-28 1.312E-28 9.994E-29 7.714E-29 5.956E-29 4.394E-29 0.000E+00 2.305E-26 7.062E-27 3.029E-27 1.565E-27 9.103E-28 5.744E-28 3.846E-28 2.693E-28 1.951E-28 1.451E-28 1.097E-28 8.325E-29 6.051E-29 0.000E+00 2.543E-26 7.789E-27 3.341E-27 1.726E-27 1.003E-27 6.325E-28 4.230E-28 2.956E-28 2.134E-28 1.575E-28 1.171E-28 8.371E-29 0.000E+00 2.793E-26 8.557E-27 3.670E-27 1.896E-27 1.101E-27 6.937E-28 4.630E-28 3.224E-28 2.312E-28 1.679E-28 1.176E-28 0.000E+00 3.107E-26 9.522E-27 4.085E-27 2.110E-27 1.225E-27 7.703E-28 5.126E-28 3.546E-28 2.502E-28 1.712E-28 0.000E+00 3.559E-26 1.092E-26 4.688E-27 2.421E-27 1.405E-27 8.813E-28 5.830E-28 3.971E-28 2.642E-28 0.000E+00 4.232E-26 1.301E-26 5.595E-27 2.892E-27 1.676E-27 1.047E-27 6.828E-28 4.391E-28 0.000E+00 5.224E-26 1.613E-26 6.964E-27 3.607E-27 2.087E-27 1.289E-27 7.956E-28 0.000E+00 6.690E-26 2.084E-26 9.075E-27 4.722E-27 2.716E-27 1.596E-27 0.000E+00 8.945E-26 2.833E-26 1.254E-26 6.560E-27 3.628E-27 0.000E+00 1.281E-25 4.157E-26 1.884E-26 9.629E-27 0.000E+00 2.079E-25 6.895E-26 3.112E-26 0.000E+00 4.142E-25 1.348E-25 0.000E+00 1.144E-24 1.341E-23
1.000E+02 1 5.000E+03 B 131 25
0.000E+00 7.597E-28 2.796E-28 1.447E-28 8.689E-29 5.683E-29 3.937E-29 2.845E-29 2.123E-29 1.627E-29 1.273E-29 1.014E-29 8.203E-30 6.721E-30 5.567E-30 4.655E-30 3.924E-30 3.330E-30 2.841E-30 2.433E-30 2.086E-30 1.783E-30 1.504E-30 1.196E-30 0.000E+00 8.527E-28 3.147E-28 1.632E-28 9.813E-29 6.425E-29 4.455E-29 3.221E-29 2.406E-29 1.844E-29 1.443E-29 1.150E-29 9.299E-30 7.616E-30 6.306E-30 5.269E-30 4.436E-30 3.758E-30 3.197E-30 2.725E-30 2.316E-30 1.943E-30 1.537E-30 0.000E+00 9.630E-28 3.562E-28 1.851E-28 1.114E-28 7.304E-29 5.068E-29 3.667E-29 2.740E-29 2.101E-29 1.645E-29 1.310E-29 1.060E-29 8.675E-30 7.177E-30 5.990E-30 5.035E-30 4.253E-30 3.601E-30 3.043E-30 2.538E-30 1.996E-30 0.000E+00 1.095E-27 4.056E-28 2.111E-28 1.273E-28 8.351E-29 5.800E-29 4.199E-29 3.139E-29 2.407E-29 1.885E-29 1.502E-29 1.214E-29 9.935E-30 8.212E-30 6.843E-30 5.735E-30 4.822E-30 4.048E-30 3.355E-30 2.624E-30 0.000E+00 1.253E-27 4.651E-28 2.424E-28 1.463E-28 9.611E-29 6.680E-29 4.839E-29 3.619E-29 2.777E-29 2.175E-29 1.733E-29 1.400E-29 1.145E-29 9.446E-30 7.850E-30 6.550E-30 5.460E-30 4.496E-30 3.493E-30 0.000E+00 1.445E-27 5.370E-28 2.803E-28 1.694E-28 1.114E-28 7.749E-29 5.618E-29 4.204E-29 3.226E-29 2.527E-29 2.013E-29 1.625E-29 1.327E-29 1.092E-29 9.038E-30 7.477E-30 6.113E-30 4.717E-30 0.000E+00 1.679E-27 6.250E-28 3.267E-28 1.977E-28 1.301E-28 9.061E-29 6.574E-29 4.922E-29 3.778E-29 2.959E-29 2.356E-29 1.900E-29 1.548E-29 1.269E-29 1.041E-29 8.447E-30 6.470E-30 0.000E+00 1.968E-27 7.336E-28 3.841E-28 2.327E-28 1.534E-28 1.069E-28 7.762E-29 5.814E-29 4.464E-29 3.496E-29 2.780E-29 2.238E-29 1.816E-29 1.476E-29 1.188E-29 9.029E-30 0.000E+00 2.330E-27 8.694E-28 4.559E-28 2.767E-28 1.826E-28 1.274E-28 9.257E-29 6.938E-29 5.327E-29 4.169E-29 3.311E-29 2.655E-29 2.137E-29 1.705E-29 1.284E-29 0.000E+00 2.787E-27 1.041E-27 5.470E-28 3.325E-28 2.198E-28 1.535E-28 1.117E-28 8.374E-29 6.429E-29 5.025E-29 3.978E-29 3.166E-29 2.501E-29 1.867E-29 0.000E+00 3.374E-27 1.263E-27 6.645E-28 4.048E-28 2.680E-28 1.875E-28 1.365E-28 1.024E-28 7.855E-29 6.123E-29 4.813E-29 3.761E-29 2.781E-29 0.000E+00 4.141E-27 1.552E-27 8.188E-28 4.999E-28 3.316E-28 2.324E-28 1.693E-28 1.270E-28 9.727E-29 7.535E-29 5.818E-29 4.257E-29 0.000E+00 5.163E-27 1.939E-27 1.026E-27 6.279E-28 4.175E-28 2.931E-28 2.138E-28 1.602E-28 1.220E-28 9.298E-29 6.726E-29 0.000E+00 6.555E-27 2.467E-27 1.310E-27 8.047E-28 5.366E-28 3.774E-28 2.754E-28 2.056E-28 1.542E-28 1.102E-28 0.000E+00 8.507E-27 3.211E-27 1.712E-27 1.056E-27 7.068E-28 4.981E-28 3.627E-28 2.672E-28 1.884E-28 0.000E+00 1.133E-26 4.294E-27 2.303E-27 1.428E-27 9.593E-28 6.764E-28 4.876E-28 3.387E-28 0.000E+00 1.560E-26 5.939E-27 3.208E-27 2.003E-27 1.351E-27 9.469E-28 6.467E-28 0.000E+00 2.237E-26 8.577E-27 4.680E-27 2.946E-27 1.987E-27 1.329E-27 0.000E+00 3.388E-26 1.311E-26 7.255E-27 4.605E-27 2.998E-27 0.000E+00 5.530E-26 2.172E-26 1.224E-26 7.631E-27 0.000E+00 1.008E-25 4.047E-26 2.298E-26 0.000E+00 2.199E-25 9.029E-26 0.000E+00 6.687E-25 5.319E-24
1.000E+03 1 5.000E+03 B 92 25
0.000E+00 8.632E-28 3.053E-28 1.520E-28 8.873E-29 5.689E-29 3.884E-29 2.776E-29 2.055E-29 1.563E-29 1.217E-29 9.651E-30 7.776E-30 6.351E-30 5.248E-30 4.379E-30 3.686E-30 3.125E-30 2.664E-30 2.281E-30 1.957E-30 1.675E-30 1.415E-30 1.128E-30 0.000E+00 9.492E-28 3.381E-28 1.697E-28 9.970E-29 6.420E-29 4.397E-29 3.149E-29 2.334E-29 1.778E-29 1.385E-29 1.099E-29 8.854E-30 7.230E-30 5.970E-30 4.978E-30 4.184E-30 3.540E-30 3.010E-30 2.565E-30 2.181E-30 1.832E-30 1.453E-30 0.000E+00 1.052E-27 3.774E-28 1.909E-28 1.128E-28 7.289E-29 5.006E-29 3.592E-29 2.666E-29 2.033E-29 1.584E-29 1.257E-29 1.013E-29 8.265E-30 6.820E-30 5.679E-30 4.764E-30 4.019E-30 3.400E-30 2.873E-30 2.398E-30 1.890E-30 0.000E+00 1.176E-27 4.247E-28 2.163E-28 1.284E-28 8.328E-29 5.733E-29 4.121E-29 3.062E-29 2.336E-29 1.821E-29 1.445E-29 1.164E-29 9.494E-30 7.824E-30 6.503E-30 5.440E-30 4.567E-30 3.831E-30 3.176E-30 2.487E-30 0.000E+00 1.327E-27 4.821E-28 2.470E-28 1.472E-28 9.580E-29 6.609E-29 4.757E-29 3.539E-29 2.701E-29 2.106E-29 1.671E-29 1.345E-29 1.096E-29 9.016E-30 7.472E-30 6.221E-30 5.178E-30 4.262E-30 3.315E-30 0.000E+00 1.511E-27 5.522E-28 2.844E-28 1.702E-28 1.110E-28 7.672E-29 5.530E-29 4.117E-29 3.144E-29 2.452E-29 1.944E-29 1.564E-29 1.272E-29 1.044E-29 8.608E-30 7.105E-30 5.802E-30 4.480E-30 0.000E+00 1.739E-27 6.386E-28 3.304E-28 1.983E-28 1.297E-28 8.977E-29 6.478E-29 4.826E-29 3.687E-29 2.874E-29 2.278E-29 1.829E-29 1.484E-29 1.212E-29 9.914E-30 8.028E-30 6.150E-30 0.000E+00 2.022E-27 7.459E-28 3.874E-28 2.332E-28 1.528E-28 1.060E-28 7.654E-29 5.705E-29 4.359E-29 3.397E-29 2.689E-29 2.154E-29 1.740E-29 1.409E-29 1.131E-29 8.587E-30 0.000E+00 2.378E-27 8.808E-28 4.590E-28 2.770E-28 1.819E-28 1.263E-28 9.131E-29 6.810E-29 5.202E-29 4.050E-29 3.199E-29 2.553E-29 2.045E-29 1.625E-29 1.222E-29 0.000E+00 2.832E-27 1.052E-27 5.500E-28 3.328E-28 2.189E-28 1.522E-28 1.102E-28 8.217E-29 6.274E-29 4.876E-29 3.837E-29 3.037E-29 2.387E-29 1.778E-29 0.000E+00 3.417E-27 1.273E-27 6.674E-28 4.048E-28 2.668E-28 1.858E-28 1.346E-28 1.004E-28 7.656E-29 5.930E-29 4.631E-29 3.597E-29 2.650E-29 0.000E+00 4.183E-27 1.563E-27 8.217E-28 4.997E-28 3.300E-28 2.301E-28 1.668E-28 1.244E-28 9.459E-29 7.276E-29 5.578E-29 4.061E-29 0.000E+00 5.207E-27 1.951E-27 1.029E-27 6.273E-28 4.153E-28 2.900E-28 2.103E-28 1.565E-28 1.183E-28 8.938E-29 6.423E-29 0.000E+00 6.605E-27 2.481E-27 1.313E-27 8.035E-28 5.332E-28 3.729E-28 2.702E-28 2.001E-28 1.487E-28 1.054E-28 0.000E+00 8.566E-27 3.227E-27 1.716E-27 1.054E-27 7.015E-28 4.911E-28 3.546E-28 2.587E-28 1.805E-28 0.000E+00 1.141E-26 4.314E-27 2.306E-27 1.423E-27 9.504E-28 6.647E-28 4.741E-28 3.253E-28 0.000E+00 1.570E-26 5.965E-27 3.210E-27 1.994E-27 1.334E-27 9.253E-28 6.231E-28 0.000E+00 2.251E-26 8.610E-27 4.678E-27 2.925E-27 1.952E-27 1.286E-27 0.000E+00 3.408E-26 1.316E-26 7.239E-27 4.550E-27 2.914E-27 0.000E+00 5.561E-26 2.176E-26 1.217E-26 7.458E-27 0.000E+00 1.013E-25 4.045E-26 2.260E-26 0.000E+00 2.208E-25 8.946E-26 0.000E+00 6.681E-25 5.940E-24
1.000E+04 1 5.000E+03 B 62 25
0.000E+00 1.194E-27 3.893E-28 1.777E-28 9.689E-29 5.901E-29 3.875E-29 2.687E-29 1.943E-29 1.452E-29 1.114E-29 8.733E-30 6.974E-30 5.656E-30 4.648E-30 3.864E-30 3.244E-30 2.746E-30 2.340E-30 2.005E-30 1.722E-30 1.478E-30 1.253E-30 1.005E-30 0.000E+00 1.285E-27 4.235E-28 1.953E-28 1.075E-28 6.589E-29 4.349E-29 3.029E-29 2.198E-29 1.646E-29 1.266E-29 9.939E-30 7.947E-30 6.451E-30 5.304E-30 4.410E-30 3.701E-30 3.129E-30 2.662E-30 2.272E-30 1.937E-30 1.634E-30 1.304E-30 0.000E+00 1.389E-27 4.629E-28 2.160E-28 1.199E-28 7.407E-29 4.917E-29 3.439E-29 2.504E-29 1.880E-29 1.448E-29 1.139E-29 9.119E-30 7.407E-30 6.091E-30 5.062E-30 4.244E-30 3.581E-30 3.034E-30 2.570E-30 2.154E-30 1.708E-30 0.000E+00 1.508E-27 5.088E-28 2.404E-28 1.348E-28 8.391E-29 5.602E-29 3.936E-29 2.874E-29 2.164E-29 1.670E-29 1.315E-29 1.054E-29 8.559E-30 7.037E-30 5.842E-30 4.886E-30 4.107E-30 3.453E-30 2.874E-30 2.263E-30 0.000E+00 1.650E-27 5.633E-28 2.697E-28 1.528E-28 9.584E-29 6.435E-29 4.540E-29 3.326E-29 2.510E-29 1.940E-29 1.529E-29 1.225E-29 9.952E-30 8.172E-30 6.769E-30 5.639E-30 4.702E-30 3.883E-30 3.036E-30 0.000E+00 1.821E-27 6.292E-28 3.053E-28 1.748E-28 1.105E-28 7.458E-29 5.283E-29 3.881E-29 2.935E-29 2.271E-29 1.791E-29 1.434E-29 1.164E-29 9.534E-30 7.864E-30 6.498E-30 5.320E-30 4.125E-30 0.000E+00 2.031E-27 7.100E-28 3.492E-28 2.019E-28 1.285E-28 8.723E-29 6.202E-29 4.568E-29 3.459E-29 2.678E-29 2.112E-29 1.690E-29 1.368E-29 1.116E-29 9.126E-30 7.402E-30 5.689E-30 0.000E+00 2.295E-27 8.109E-28 4.039E-28 2.358E-28 1.511E-28 1.030E-28 7.349E-29 5.423E-29 4.111E-29 3.183E-29 2.507E-29 2.002E-29 1.613E-29 1.305E-29 1.048E-29 7.975E-30 0.000E+00 2.629E-27 9.388E-28 4.732E-28 2.787E-28 1.797E-28 1.230E-28 8.795E-29 6.499E-29 4.928E-29 3.814E-29 2.998E-29 2.383E-29 1.904E-29 1.512E-29 1.139E-29 0.000E+00 3.058E-27 1.103E-27 5.620E-28 3.335E-28 2.161E-28 1.485E-28 1.064E-28 7.869E-29 5.965E-29 4.607E-29 3.607E-29 2.844E-29 2.230E-29 1.661E-29 0.000E+00 3.620E-27 1.318E-27 6.776E-28 4.048E-28 2.635E-28 1.815E-28 1.302E-28 9.635E-29 7.293E-29 5.612E-29 4.358E-29 3.372E-29 2.480E-29 0.000E+00 4.364E-27 1.603E-27 8.304E-28 4.988E-28 3.259E-28 2.250E-28 1.616E-28 1.195E-28 9.013E-29 6.883E-29 5.247E-29 3.808E-29 0.000E+00 5.370E-27 1.987E-27 1.036E-27 6.254E-28 4.099E-28 2.836E-28 2.037E-28 1.502E-28 1.125E-28 8.439E-29 6.033E-29 0.000E+00 6.757E-27 2.515E-27 1.319E-27 8.000E-28 5.259E-28 3.643E-28 2.613E-28 1.915E-28 1.410E-28 9.919E-29 0.000E+00 8.716E-27 3.262E-27 1.721E-27 1.048E-27 6.908E-28 4.785E-28 3.417E-28 2.464E-28 1.703E-28 0.000E+00 1.157E-26 4.352E-27 2.309E-27 1.413E-27 9.336E-28 6.451E-28 4.540E-28 3.076E-28 0.000E+00 1.589E-26 6.009E-27 3.210E-27 1.974E-27 1.305E-27 8.918E-28 5.912E-28 0.000E+00 2.276E-26 8.663E-27 4.668E-27 2.885E-27 1.896E-27 1.225E-27 0.000E+00 3.443E-26 1.322E-26 7.201E-27 4.457E-27 2.793E-27 0.000E+00 5.616E-26 2.182E-26 1.203E-26 7.203E-27 0.000E+00 1.023E-25 4.038E-26 2.203E-26 0.000E+00 2.224E-25 8.814E-26 0.000E+00 6.674E-25 7.045E-24
1.000E+05 1 5.000E+03 B 50 25
0.000E+00 1.576E-27 4.888E-28 2.123E-28 1.110E-28 6.527E-29 4.163E-29 2.818E-29 1.996E-29 1.465E-29 1.107E-29 8.570E-30 6.767E-30 5.434E-30 4.427E-30 3.652E-30 3.044E-30 2.561E-30 2.171E-30 1.851E-30 1.584E-30 1.355E-30 1.146E-30 9.179E-31 0.000E+00 1.724E-27 5.362E-28 2.335E-28 1.224E-28 7.214E-29 4.610E-29 3.125E-29 2.217E-29 1.629E-29 1.232E-29 9.545E-30 7.541E-30 6.058E-30 4.937E-30 4.072E-30 3.394E-30 2.853E-30 2.415E-30 2.052E-30 1.744E-30 1.467E-30 1.169E-30 0.000E+00 1.891E-27 5.903E-28 2.581E-28 1.357E-28 8.022E-29 5.138E-29 3.490E-29 2.480E-29 1.825E-29 1.382E-29 1.072E-29 8.472E-30 6.810E-30 5.550E-30 4.578E-30 3.813E-30 3.200E-30 2.700E-30 2.280E-30 1.907E-30 1.511E-30 0.000E+00 2.079E-27 6.522E-28 2.865E-28 1.513E-28 8.976E-29 5.766E-29 3.927E-29 2.796E-29 2.061E-29 1.563E-29 1.213E-29 9.602E-30 7.722E-30 6.295E-30 5.190E-30 4.317E-30 3.613E-30 3.029E-30 2.517E-30 1.983E-30 0.000E+00 2.290E-27 7.229E-28 3.196E-28 1.697E-28 1.011E-28 6.521E-29 4.455E-29 3.180E-29 2.350E-29 1.785E-29 1.387E-29 1.099E-29 8.842E-30 7.207E-30 5.936E-30 4.924E-30 4.096E-30 3.379E-30 2.646E-30 0.000E+00 2.526E-27 8.041E-28 3.584E-28 1.916E-28 1.148E-28 7.438E-29 5.101E-29 3.652E-29 2.705E-29 2.059E-29 1.603E-29 1.271E-29 1.023E-29 8.330E-30 6.844E-30 5.643E-30 4.620E-30 3.592E-30 0.000E+00 2.793E-27 8.982E-28 4.044E-28 2.181E-28 1.316E-28 8.570E-29 5.903E-29 4.242E-29 3.151E-29 2.404E-29 1.874E-29 1.486E-29 1.196E-29 9.715E-30 7.934E-30 6.439E-30 4.967E-30 0.000E+00 3.098E-27 1.009E-27 4.598E-28 2.505E-28 1.523E-28 9.988E-29 6.914E-29 4.988E-29 3.716E-29 2.840E-29 2.216E-29 1.758E-29 1.411E-29 1.140E-29 9.162E-30 7.005E-30 0.000E+00 3.455E-27 1.141E-27 5.279E-28 2.910E-28 1.786E-28 1.179E-28 8.209E-29 5.945E-29 4.442E-29 3.400E-29 2.654E-29 2.100E-29 1.676E-29 1.332E-29 1.008E-29 0.000E+00 3.887E-27 1.304E-27 6.135E-28 3.427E-28 2.125E-28 1.413E-28 9.891E-29 7.190E-29 5.383E-29 4.123E-29 3.211E-29 2.526E-29 1.983E-29 1.483E-29 0.000E+00 4.430E-27 1.511E-27 7.238E-28 4.101E-28 2.569E-28 1.721E-28 1.211E-28 8.826E-29 6.613E-29 5.056E-29 3.914E-29 3.028E-29 2.235E-29 0.000E+00 5.139E-27 1.782E-27 8.696E-28 4.997E-28 3.162E-28 2.133E-28 1.506E-28 1.100E-28 8.226E-29 6.250E-29 4.756E-29 3.457E-29 0.000E+00 6.094E-27 2.147E-27 1.067E-27 6.216E-28 3.969E-28 2.692E-28 1.905E-28 1.390E-28 1.033E-28 7.716E-29 5.514E-29 0.000E+00 7.419E-27 2.654E-27 1.342E-27 7.913E-28 5.090E-28 3.465E-28 2.452E-28 1.778E-28 1.300E-28 9.113E-29 0.000E+00 9.312E-27 3.381E-27 1.735E-27 1.033E-27 6.685E-28 4.557E-28 3.210E-28 2.290E-28 1.572E-28 0.000E+00 1.211E-26 4.456E-27 2.316E-27 1.390E-27 9.022E-28 6.133E-28 4.255E-28 2.852E-28 0.000E+00 1.640E-26 6.105E-27 3.206E-27 1.936E-27 1.257E-27 8.433E-28 5.506E-28 0.000E+00 2.330E-26 8.759E-27 4.642E-27 2.815E-27 1.811E-27 1.147E-27 0.000E+00 3.510E-26 1.332E-26 7.124E-27 4.310E-27 2.633E-27 0.000E+00 5.711E-26 2.189E-26 1.180E-26 6.852E-27 0.000E+00 1.038E-25 4.021E-26 2.121E-26 0.000E+00 2.248E-25 8.621E-26 0.000E+00 6.669E-25 7.459E-24
1.000E+06 1 5.000E+03 B 50 25
0.000E+00 2.052E-27 6.303E-28 2.711E-28 1.405E-28 8.203E-29 5.198E-29 3.498E-29 2.465E-29 1.801E-29 1.355E-29 1.045E-29 8.222E-30 6.581E-30 5.346E-30 4.397E-30 3.657E-30 3.069E-30 2.595E-30 2.208E-30 1.885E-30 1.608E-30 1.357E-30 1.085E-30 0.000E+00 2.219E-27 6.816E-28 2.933E-28 1.521E-28 8.880E-29 5.628E-29 3.788E-29 2.669E-29 1.951E-29 1.468E-29 1.132E-29 8.904E-30 7.125E-30 5.785E-30 4.756E-30 3.952E-30 3.312E-30 2.795E-30 2.369E-30 2.008E-30 1.685E-30 1.339E-30 0.000E+00 2.407E-27 7.398E-28 3.185E-28 1.653E-28 9.651E-29 6.118E-29 4.119E-29 2.903E-29 2.122E-29 1.597E-29 1.231E-29 9.682E-30 7.746E-30 6.286E-30 5.164E-30 4.285E-30 3.584E-30 3.013E-30 2.536E-30 2.114E-30 1.671E-30 0.000E+00 2.625E-27 8.074E-28 3.479E-28 1.806E-28 1.055E-28 6.692E-29 4.506E-29 3.177E-29 2.322E-29 1.748E-29 1.347E-29 1.059E-29 8.472E-30 6.870E-30 5.637E-30 4.668E-30 3.890E-30 3.248E-30 2.689E-30 2.111E-30 0.000E+00 2.883E-27 8.876E-28 3.828E-28 1.989E-28 1.163E-28 7.379E-29 4.972E-29 3.506E-29 2.564E-29 1.929E-29 1.487E-29 1.169E-29 9.343E-30 7.568E-30 6.198E-30 5.115E-30 4.233E-30 3.477E-30 2.710E-30 0.000E+00 3.192E-27 9.841E-28 4.250E-28 2.211E-28 1.294E-28 8.218E-29 5.540E-29 3.909E-29 2.859E-29 2.152E-29 1.659E-29 1.303E-29 1.041E-29 8.414E-30 6.868E-30 5.629E-30 4.583E-30 3.546E-30 0.000E+00 3.564E-27 1.101E-27 4.765E-28 2.483E-28 1.455E-28 9.252E-29 6.244E-29 4.409E-29 3.226E-29 2.429E-29 1.871E-29 1.470E-29 1.172E-29 9.444E-30 7.657E-30 6.175E-30 4.737E-30 0.000E+00 4.012E-27 1.243E-27 5.394E-28 2.817E-28 1.655E-28 1.054E-28 7.122E-29 5.034E-29 3.686E-29 2.776E-29 2.138E-29 1.677E-29 1.333E-29 1.068E-29 8.523E-30 6.478E-30 0.000E+00 4.549E-27 1.415E-27 6.166E-28 3.232E-28 1.904E-28 1.216E-28 8.230E-29 5.826E-29 4.270E-29 3.216E-29 2.476E-29 1.938E-29 1.531E-29 1.208E-29 9.088E-30 0.000E+00 5.190E-27 1.624E-27 7.118E-28 3.750E-28 2.218E-28 1.421E-28 9.647E-29 6.843E-29 5.021E-29 3.783E-29 2.907E-29 2.263E-29 1.762E-29 1.311E-29 0.000E+00 5.955E-27 1.879E-27 8.303E-28 4.405E-28 2.621E-28 1.687E-28 1.150E-28 8.175E-29 6.006E-29 4.522E-29 3.460E-29 2.655E-29 1.952E-29 0.000E+00 6.873E-27 2.193E-27 9.806E-28 5.254E-28 3.151E-28 2.041E-28 1.397E-28 9.960E-29 7.321E-29 5.494E-29 4.147E-29 3.006E-29 0.000E+00 7.994E-27 2.590E-27 1.176E-27 6.384E-28 3.867E-28 2.523E-28 1.736E-28 1.240E-28 9.098E-29 6.740E-29 4.808E-29 0.000E+00 9.419E-27 3.109E-27 1.440E-27 7.942E-28 4.868E-28 3.202E-28 2.212E-28 1.579E-28 1.144E-28 8.011E-29 0.000E+00 1.134E-26 3.822E-27 1.812E-27 1.017E-27 6.314E-28 4.182E-28 2.891E-28 2.040E-28 1.396E-28 0.000E+00 1.409E-26 4.854E-27 2.361E-27 1.350E-27 8.468E-28 5.623E-28 3.845E-28 2.561E-28 0.000E+00 1.828E-26 6.439E-27 3.211E-27 1.865E-27 1.177E-27 7.740E-28 4.994E-28 0.000E+00 2.506E-26 9.023E-27 4.596E-27 2.697E-27 1.690E-27 1.051E-27 0.000E+00 3.681E-26 1.352E-26 6.991E-27 4.096E-27 2.435E-27 0.000E+00 5.902E-26 2.199E-26 1.144E-26 6.409E-27 0.000E+00 1.064E-25 3.994E-26 2.014E-26 0.000E+00 2.289E-25 8.366E-26 0.000E+00 6.680E-25 7.630E-24
1.000E+07 1 5.000E+03 B 50 25
0.000E+00 2.649E-27 8.123E-28 3.489E-28 1.806E-28 1.053E-28 6.664E-29 4.480E-29 3.154E-29 2.303E-29 1.731E-29 1.334E-29 1.049E-29 8.388E-30 6.808E-30 5.596E-30 4.650E-30 3.900E-30 3.295E-30 2.801E-30 2.389E-30 2.037E-30 1.717E-30 1.370E-30 0.000E+00 2.933E-27 8.996E-28 3.864E-28 2.000E-28 1.166E-28 7.379E-29 4.960E-29 3.491E-29 2.549E-29 1.916E-29 1.476E-29 1.160E-29 9.272E-30 7.522E-30 6.178E-30 5.128E-30 4.294E-30 3.621E-30 3.066E-30 2.596E-30 2.175E-30 1.726E-30 0.000E+00 3.247E-27 9.960E-28 4.278E-28 2.214E-28 1.291E-28 8.168E-29 5.490E-29 3.864E-29 2.820E-29 2.119E-29 1.632E-29 1.282E-29 1.024E-29 8.305E-30 6.814E-30 5.648E-30 4.719E-30 3.963E-30 3.331E-30 2.772E-30 2.186E-30 0.000E+00 3.592E-27 1.102E-27 4.732E-28 2.449E-28 1.428E-28 9.034E-29 6.071E-29 4.272E-29 3.117E-29 2.342E-29 1.803E-29 1.416E-29 1.130E-29 9.154E-30 7.500E-30 6.202E-30 5.162E-30 4.303E-30 3.556E-30 2.786E-30 0.000E+00 3.967E-27 1.217E-27 5.226E-28 2.705E-28 1.577E-28 9.976E-29 6.704E-29 4.717E-29 3.441E-29 2.584E-29 1.988E-29 1.560E-29 1.245E-29 1.006E-29 8.228E-30 6.778E-30 5.600E-30 4.590E-30 3.570E-30 0.000E+00 4.373E-27 1.341E-27 5.762E-28 2.983E-28 1.739E-28 1.100E-28 7.390E-29 5.198E-29 3.791E-29 2.846E-29 2.188E-29 1.716E-29 1.367E-29 1.103E-29 8.981E-30 7.346E-30 5.967E-30 4.604E-30 0.000E+00 4.815E-27 1.477E-27 6.347E-28 3.286E-28 1.915E-28 1.212E-28 8.139E-29 5.724E-29 4.173E-29 3.131E-29 2.405E-29 1.883E-29 1.497E-29 1.203E-29 9.731E-30 7.826E-30 5.986E-30 0.000E+00 5.306E-27 1.628E-27 6.999E-28 3.624E-28 2.112E-28 1.336E-28 8.977E-29 6.311E-29 4.599E-29 3.448E-29 2.645E-29 2.067E-29 1.637E-29 1.307E-29 1.039E-29 7.869E-30 0.000E+00 5.877E-27 1.804E-27 7.758E-28 4.019E-28 2.343E-28 1.482E-28 9.955E-29 6.997E-29 5.095E-29 3.816E-29 2.922E-29 2.275E-29 1.789E-29 1.405E-29 1.052E-29 0.000E+00 6.576E-27 2.020E-27 8.693E-28 4.505E-28 2.627E-28 1.663E-28 1.117E-28 7.844E-29 5.706E-29 4.266E-29 3.255E-29 2.517E-29 1.948E-29 1.440E-29 0.000E+00 7.468E-27 2.297E-27 9.895E-28 5.133E-28 2.995E-28 1.896E-28 1.273E-28 8.939E-29 6.494E-29 4.840E-29 3.669E-29 2.792E-29 2.035E-29 0.000E+00 8.628E-27 2.659E-27 1.148E-27 5.962E-28 3.483E-28 2.206E-28 1.482E-28 1.039E-28 7.530E-29 5.578E-29 4.163E-29 2.986E-29 0.000E+00 1.014E-26 3.135E-27 1.357E-27 7.071E-28 4.139E-28 2.625E-28 1.763E-28 1.234E-28 8.898E-29 6.494E-29 4.572E-29 0.000E+00 1.211E-26 3.764E-27 1.638E-27 8.571E-28 5.034E-28 3.198E-28 2.148E-28 1.499E-28 1.066E-28 7.347E-29 0.000E+00 1.468E-26 4.602E-27 2.021E-27 1.065E-27 6.288E-28 4.007E-28 2.687E-28 1.853E-28 1.248E-28 0.000E+00 1.810E-26 5.748E-27 2.560E-27 1.364E-27 8.119E-28 5.187E-28 3.451E-28 2.259E-28 0.000E+00 2.284E-26 7.392E-27 3.360E-27 1.820E-27 1.093E-27 6.955E-28 4.405E-28 0.000E+00 2.998E-26 9.930E-27 4.637E-27 2.557E-27 1.539E-27 9.356E-28 0.000E+00 4.193E-26 1.423E-26 6.846E-27 3.815E-27 2.200E-27 0.000E+00 6.424E-26 2.238E-26 1.098E-26 5.892E-27 0.000E+00 1.121E-25 3.968E-26 1.891E-26 0.000E+00 2.362E-25 8.078E-26 0.000E+00 6.738E-25 7.869E-24
1.000E+08 1 5.000E+03 B 50 25
0.000E+00 2.889E-27 8.857E-28 3.804E-28 1.969E-28 1.147E-28 7.261E-29 4.880E-29 3.435E-29 2.508E-29 1.885E-29 1.452E-29 1.142E-29 9.129E-30 7.409E-30 6.089E-30 5.059E-30 4.242E-30 3.584E-30 3.046E-30 2.598E-30 2.214E-30 1.866E-30 1.488E-30 0.000E+00 3.260E-27 9.994E-28 4.292E-28 2.221E-28 1.294E-28 8.189E-29 5.504E-29 3.873E-29 2.827E-29 2.125E-29 1.636E-29 1.286E-29 1.028E-29 8.336E-30 6.846E-30 5.681E-30 4.756E-30 4.009E-30 3.394E-30 2.873E-30 2.406E-30 1.908E-30 0.000E+00 3.692E-27 1.132E-27 4.861E-28 2.515E-28 1.466E-28 9.272E-29 6.230E-29 4.384E-29 3.199E-29 2.404E-29 1.850E-29 1.453E-29 1.161E-29 9.409E-30 7.719E-30 6.396E-30 5.342E-30 4.485E-30 3.768E-30 3.135E-30 2.471E-30 0.000E+00 4.199E-27 1.287E-27 5.527E-28 2.860E-28 1.666E-28 1.054E-28 7.079E-29 4.980E-29 3.633E-29 2.729E-29 2.099E-29 1.648E-29 1.316E-29 1.065E-29 8.724E-30 7.211E-30 5.999E-30 4.999E-30 4.129E-30 3.232E-30 0.000E+00 4.792E-27 1.469E-27 6.306E-28 3.262E-28 1.900E-28 1.202E-28 8.071E-29 5.676E-29 4.139E-29 3.108E-29 2.390E-29 1.874E-29 1.495E-29 1.208E-29 9.872E-30 8.129E-30 6.712E-30 5.498E-30 4.272E-30 0.000E+00 5.485E-27 1.681E-27 7.216E-28 3.733E-28 2.174E-28 1.374E-28 9.229E-29 6.488E-29 4.729E-29 3.548E-29 2.727E-29 2.136E-29 1.701E-29 1.372E-29 1.116E-29 9.124E-30 7.405E-30 5.707E-30 0.000E+00 6.291E-27 1.928E-27 8.275E-28 4.280E-28 2.492E-28 1.575E-28 1.057E-28 7.429E-29 5.412E-29 4.058E-29 3.115E-29 2.437E-29 1.936E-29 1.555E-29 1.256E-29 1.009E-29 7.706E-30 0.000E+00 7.221E-27 2.213E-27 9.496E-28 4.910E-28 2.858E-28 1.806E-28 1.212E-28 8.510E-29 6.195E-29 4.640E-29 3.556E-29 2.776E-29 2.196E-29 1.751E-29 1.390E-29 1.051E-29 0.000E+00 8.277E-27 2.536E-27 1.088E-27 5.625E-28 3.274E-28 2.068E-28 1.387E-28 9.731E-29 7.076E-29 5.292E-29 4.047E-29 3.146E-29 2.471E-29 1.937E-29 1.447E-29 0.000E+00 9.451E-27 2.895E-27 1.242E-27 6.420E-28 3.735E-28 2.358E-28 1.580E-28 1.108E-28 8.045E-29 6.003E-29 4.573E-29 3.529E-29 2.725E-29 2.010E-29 0.000E+00 1.073E-26 3.287E-27 1.410E-27 7.286E-28 4.237E-28 2.673E-28 1.790E-28 1.253E-28 9.080E-29 6.750E-29 5.105E-29 3.874E-29 2.816E-29 0.000E+00 1.212E-26 3.713E-27 1.592E-27 8.226E-28 4.781E-28 3.014E-28 2.016E-28 1.408E-28 1.017E-28 7.505E-29 5.581E-29 3.988E-29 0.000E+00 1.370E-26 4.197E-27 1.800E-27 9.297E-28 5.401E-28 3.401E-28 2.270E-28 1.581E-28 1.133E-28 8.227E-29 5.762E-29 0.000E+00 1.570E-26 4.812E-27 2.064E-27 1.066E-27 6.187E-28 3.891E-28 2.588E-28 1.790E-28 1.263E-28 8.636E-29 0.000E+00 1.850E-26 5.674E-27 2.435E-27 1.258E-27 7.294E-28 4.574E-28 3.025E-28 2.059E-28 1.369E-28 0.000E+00 2.257E-26 6.934E-27 2.981E-27 1.540E-27 8.919E-28 5.566E-28 3.627E-28 2.331E-28 0.000E+00 2.853E-26 8.796E-27 3.794E-27 1.963E-27 1.134E-27 6.993E-28 4.311E-28 0.000E+00 3.741E-26 1.162E-26 5.046E-27 2.619E-27 1.502E-27 8.800E-28 0.000E+00 5.133E-26 1.613E-26 7.098E-27 3.691E-27 2.028E-27 0.000E+00 7.565E-26 2.413E-26 1.078E-26 5.440E-27 0.000E+00 1.258E-25 4.043E-26 1.778E-26 0.000E+00 2.529E-25 7.853E-26 0.000E+00 6.927E-25 8.306E-24
1.000E+02 1 7.500E+03 B 139 25
0.000E+00 5.437E-28 1.925E-28 9.629E-29 5.624E-29 3.597E-29 2.448E-29 1.743E-29 1.285E-29 9.742E-30 7.558E-30 5.976E-30 4.803E-30 3.913E-30 3.225E-30 2.686E-30 2.256E-30 1.908E-30 1.624E-30 1.387E-30 1.187E-30 1.013E-30 8.534E-31 6.781E-31 0.000E+00 6.114E-28 2.169E-28 1.087E-28 6.355E-29 4.068E-29 2.770E-29 1.973E-29 1.455E-29 1.103E-29 8.560E-30 6.768E-30 5.438E-30 4.429E-30 3.649E-30 3.036E-30 2.546E-30 2.150E-30 1.824E-30 1.551E-30 1.316E-30 1.103E-30 8.714E-31 0.000E+00 6.916E-28 2.459E-28 1.234E-28 7.220E-29 4.625E-29 3.150E-29 2.245E-29 1.656E-29 1.256E-29 9.745E-30 7.705E-30 6.189E-30 5.038E-30 4.147E-30 3.447E-30 2.886E-30 2.430E-30 2.052E-30 1.730E-30 1.441E-30 1.132E-30 0.000E+00 7.874E-28 2.804E-28 1.408E-28 8.250E-29 5.289E-29 3.604E-29 2.569E-29 1.896E-29 1.438E-29 1.116E-29 8.820E-30 7.082E-30 5.761E-30 4.738E-30 3.930E-30 3.282E-30 2.751E-30 2.304E-30 1.906E-30 1.488E-30 0.000E+00 9.025E-28 3.218E-28 1.618E-28 9.487E-29 6.086E-29 4.150E-29 2.959E-29 2.184E-29 1.657E-29 1.286E-29 1.016E-29 8.153E-30 6.626E-30 5.440E-30 4.501E-30 3.742E-30 3.110E-30 2.554E-30 1.981E-30 0.000E+00 1.042E-27 3.719E-28 1.872E-28 1.099E-28 7.052E-29 4.811E-29 3.432E-29 2.534E-29 1.923E-29 1.492E-29 1.178E-29 9.447E-30 7.666E-30 6.278E-30 5.172E-30 4.263E-30 3.475E-30 2.676E-30 0.000E+00 1.213E-27 4.332E-28 2.183E-28 1.282E-28 8.236E-29 5.622E-29 4.012E-29 2.963E-29 2.248E-29 1.744E-29 1.376E-29 1.102E-29 8.923E-30 7.276E-30 5.943E-30 4.805E-30 3.671E-30 0.000E+00 1.423E-27 5.089E-28 2.567E-28 1.509E-28 9.701E-29 6.627E-29 4.731E-29 3.495E-29 2.652E-29 2.056E-29 1.621E-29 1.295E-29 1.044E-29 8.443E-30 6.766E-30 5.125E-30 0.000E+00 1.687E-27 6.035E-28 3.048E-28 1.793E-28 1.154E-28 7.887E-29 5.634E-29 4.163E-29 3.158E-29 2.445E-29 1.925E-29 1.532E-29 1.225E-29 9.719E-30 7.294E-30 0.000E+00 2.020E-27 7.234E-28 3.657E-28 2.154E-28 1.388E-28 9.492E-29 6.784E-29 5.012E-29 3.800E-29 2.938E-29 2.304E-29 1.820E-29 1.428E-29 1.061E-29 0.000E+00 2.449E-27 8.776E-28 4.442E-28 2.620E-28 1.690E-28 1.157E-28 8.271E-29 6.110E-29 4.627E-29 3.566E-29 2.776E-29 2.152E-29 1.581E-29 0.000E+00 3.010E-27 1.079E-27 5.472E-28 3.233E-28 2.087E-28 1.430E-28 1.023E-28 7.552E-29 5.704E-29 4.367E-29 3.339E-29 2.424E-29 0.000E+00 3.758E-27 1.349E-27 6.851E-28 4.054E-28 2.622E-28 1.798E-28 1.286E-28 9.477E-29 7.115E-29 5.355E-29 3.835E-29 0.000E+00 4.778E-27 1.717E-27 8.741E-28 5.184E-28 3.358E-28 2.305E-28 1.647E-28 1.208E-28 8.924E-29 6.297E-29 0.000E+00 6.209E-27 2.234E-27 1.141E-27 6.784E-28 4.403E-28 3.023E-28 2.153E-28 1.556E-28 1.080E-28 0.000E+00 8.283E-27 2.986E-27 1.530E-27 9.130E-28 5.937E-28 4.070E-28 2.864E-28 1.948E-28 0.000E+00 1.141E-26 4.125E-27 2.123E-27 1.272E-27 8.280E-28 5.626E-28 3.740E-28 0.000E+00 1.638E-26 5.941E-27 3.077E-27 1.851E-27 1.200E-27 7.746E-28 0.000E+00 2.481E-26 9.039E-27 4.719E-27 2.844E-27 1.766E-27 0.000E+00 4.043E-26 1.483E-26 7.810E-27 4.571E-27 0.000E+00 7.334E-26 2.710E-26 1.411E-26 0.000E+00 1.579E-25 5.783E-26 0.000E+00 4.625E-25 3.752E-24
1.000E+03 1 7.500E+03 B 92 25
0.000E+00 5.983E-28 2.044E-28 9.911E-29 5.667E-29 3.574E-29 2.408E-29 1.701E-29 1.248E-29 9.418E-30 7.280E-30 5.740E-30 4.602E-30 3.742E-30 3.080E-30 2.561E-30 2.149E-30 1.817E-30 1.545E-30 1.320E-30 1.130E-30 9.658E-31 8.148E-31 6.492E-31 0.000E+00 6.629E-28 2.278E-28 1.112E-28 6.386E-29 4.040E-29 2.727E-29 1.930E-29 1.417E-29 1.070E-29 8.276E-30 6.525E-30 5.230E-30 4.251E-30 3.496E-30 2.905E-30 2.434E-30 2.054E-30 1.742E-30 1.481E-30 1.257E-30 1.054E-30 8.352E-31 0.000E+00 7.396E-28 2.556E-28 1.255E-28 7.240E-29 4.593E-29 3.107E-29 2.202E-29 1.617E-29 1.222E-29 9.452E-30 7.453E-30 5.972E-30 4.851E-30 3.986E-30 3.307E-30 2.765E-30 2.326E-30 1.964E-30 1.656E-30 1.379E-30 1.086E-30 0.000E+00 8.315E-28 2.890E-28 1.427E-28 8.261E-29 5.254E-29 3.559E-29 2.525E-29 1.856E-29 1.403E-29 1.085E-29 8.554E-30 6.851E-30 5.560E-30 4.563E-30 3.779E-30 3.151E-30 2.638E-30 2.208E-30 1.827E-30 1.429E-30 0.000E+00 9.425E-28 3.294E-28 1.634E-28 9.491E-29 6.049E-29 4.103E-29 2.914E-29 2.143E-29 1.620E-29 1.253E-29 9.874E-30 7.902E-30 6.405E-30 5.247E-30 4.332E-30 3.596E-30 2.985E-30 2.451E-30 1.904E-30 0.000E+00 1.078E-27 3.787E-28 1.886E-28 1.098E-28 7.013E-29 4.763E-29 3.385E-29 2.490E-29 1.883E-29 1.456E-29 1.147E-29 9.167E-30 7.418E-30 6.059E-30 4.980E-30 4.098E-30 3.338E-30 2.573E-30 0.000E+00 1.244E-27 4.392E-28 2.195E-28 1.281E-28 8.194E-29 5.571E-29 3.961E-29 2.915E-29 2.205E-29 1.704E-29 1.341E-29 1.070E-29 8.636E-30 7.022E-30 5.723E-30 4.621E-30 3.531E-30 0.000E+00 1.452E-27 5.143E-28 2.578E-28 1.508E-28 9.656E-29 6.571E-29 4.675E-29 3.441E-29 2.602E-29 2.010E-29 1.579E-29 1.257E-29 1.010E-29 8.144E-30 6.512E-30 4.932E-30 0.000E+00 1.712E-27 6.084E-28 3.057E-28 1.792E-28 1.149E-28 7.825E-29 5.570E-29 4.100E-29 3.099E-29 2.390E-29 1.874E-29 1.486E-29 1.184E-29 9.365E-30 7.022E-30 0.000E+00 2.043E-27 7.280E-28 3.666E-28 2.152E-28 1.382E-28 9.419E-29 6.707E-29 4.937E-29 3.728E-29 2.870E-29 2.241E-29 1.762E-29 1.378E-29 1.022E-29 0.000E+00 2.470E-27 8.821E-28 4.451E-28 2.617E-28 1.682E-28 1.148E-28 8.176E-29 6.015E-29 4.534E-29 3.478E-29 2.694E-29 2.079E-29 1.524E-29 0.000E+00 3.030E-27 1.084E-27 5.481E-28 3.228E-28 2.078E-28 1.419E-28 1.011E-28 7.426E-29 5.581E-29 4.249E-29 3.231E-29 2.337E-29 0.000E+00 3.778E-27 1.354E-27 6.859E-28 4.048E-28 2.609E-28 1.783E-28 1.269E-28 9.304E-29 6.944E-29 5.193E-29 3.701E-29 0.000E+00 4.800E-27 1.722E-27 8.749E-28 5.174E-28 3.340E-28 2.283E-28 1.623E-28 1.183E-28 8.677E-29 6.084E-29 0.000E+00 6.235E-27 2.241E-27 1.141E-27 6.767E-28 4.375E-28 2.990E-28 2.116E-28 1.517E-28 1.044E-28 0.000E+00 8.316E-27 2.994E-27 1.530E-27 9.101E-28 5.892E-28 4.015E-28 2.802E-28 1.888E-28 0.000E+00 1.146E-26 4.135E-27 2.123E-27 1.267E-27 8.199E-28 5.526E-28 3.634E-28 0.000E+00 1.644E-26 5.954E-27 3.074E-27 1.840E-27 1.183E-27 7.550E-28 0.000E+00 2.490E-26 9.054E-27 4.708E-27 2.817E-27 1.728E-27 0.000E+00 4.057E-26 1.484E-26 7.771E-27 4.491E-27 0.000E+00 7.357E-26 2.708E-26 1.394E-26 0.000E+00 1.583E-25 5.743E-26 0.000E+00 4.622E-25 4.174E-24
1.000E+04 1 7.500E+03 B 65 25
0.000E+00 7.593E-28 2.450E-28 1.109E-28 6.010E-29 3.640E-29 2.378E-29 1.643E-29 1.183E-29 8.811E-30 6.739E-30 5.270E-30 4.198E-30 3.397E-30 2.786E-30 2.311E-30 1.937E-30 1.637E-30 1.393E-30 1.191E-30 1.022E-30 8.754E-31 7.413E-31 5.938E-31 0.000E+00 8.272E-28 2.689E-28 1.228E-28 6.700E-29 4.080E-29 2.677E-29 1.855E-29 1.340E-29 9.997E-30 7.658E-30 5.996E-30 4.780E-30 3.870E-30 3.175E-30 2.634E-30 2.205E-30 1.861E-30 1.580E-30 1.346E-30 1.146E-30 9.650E-31 7.685E-31 0.000E+00 9.052E-28 2.967E-28 1.367E-28 7.516E-29 4.603E-29 3.034E-29 2.110E-29 1.528E-29 1.142E-29 8.761E-30 6.866E-30 5.478E-30 4.436E-30 3.638E-30 3.016E-30 2.523E-30 2.124E-30 1.796E-30 1.519E-30 1.270E-30 1.005E-30 0.000E+00 9.966E-28 3.293E-28 1.533E-28 8.491E-29 5.232E-29 3.464E-29 2.417E-29 1.754E-29 1.314E-29 1.009E-29 7.916E-30 6.317E-30 5.115E-30 4.192E-30 3.471E-30 2.896E-30 2.428E-30 2.037E-30 1.692E-30 1.330E-30 0.000E+00 1.105E-27 3.682E-28 1.731E-28 9.669E-29 5.994E-29 3.986E-29 2.790E-29 2.030E-29 1.523E-29 1.171E-29 9.186E-30 7.330E-30 5.931E-30 4.855E-30 4.009E-30 3.331E-30 2.770E-30 2.282E-30 1.780E-30 0.000E+00 1.236E-27 4.152E-28 1.972E-28 1.111E-28 6.925E-29 4.625E-29 3.246E-29 2.367E-29 1.778E-29 1.368E-29 1.073E-29 8.557E-30 6.914E-30 5.645E-30 4.641E-30 3.824E-30 3.122E-30 2.416E-30 0.000E+00 1.397E-27 4.728E-28 2.270E-28 1.288E-28 8.076E-29 5.414E-29 3.810E-29 2.782E-29 2.091E-29 1.609E-29 1.262E-29 1.005E-29 8.099E-30 6.582E-30 5.367E-30 4.340E-30 3.327E-30 0.000E+00 1.595E-27 5.445E-28 2.640E-28 1.509E-28 9.511E-29 6.397E-29 4.511E-29 3.298E-29 2.480E-29 1.907E-29 1.494E-29 1.187E-29 9.520E-30 7.672E-30 6.138E-30 4.659E-30 0.000E+00 1.845E-27 6.351E-28 3.108E-28 1.788E-28 1.132E-28 7.634E-29 5.393E-29 3.945E-29 2.966E-29 2.279E-29 1.780E-29 1.408E-29 1.120E-29 8.855E-30 6.649E-30 0.000E+00 2.164E-27 7.511E-28 3.706E-28 2.145E-28 1.362E-28 9.210E-29 6.513E-29 4.765E-29 3.580E-29 2.744E-29 2.134E-29 1.674E-29 1.306E-29 9.693E-30 0.000E+00 2.578E-27 9.020E-28 4.482E-28 2.606E-28 1.661E-28 1.125E-28 7.957E-29 5.819E-29 4.363E-29 3.330E-29 2.569E-29 1.977E-29 1.448E-29 0.000E+00 3.125E-27 1.101E-27 5.505E-28 3.214E-28 2.052E-28 1.392E-28 9.848E-29 7.191E-29 5.372E-29 4.069E-29 3.081E-29 2.223E-29 0.000E+00 3.862E-27 1.369E-27 6.877E-28 4.028E-28 2.578E-28 1.749E-28 1.237E-28 9.005E-29 6.677E-29 4.965E-29 3.526E-29 0.000E+00 4.876E-27 1.737E-27 8.761E-28 5.147E-28 3.300E-28 2.239E-28 1.580E-28 1.143E-28 8.321E-29 5.803E-29 0.000E+00 6.307E-27 2.255E-27 1.142E-27 6.728E-28 4.319E-28 2.928E-28 2.054E-28 1.460E-28 9.979E-29 0.000E+00 8.391E-27 3.009E-27 1.530E-27 9.039E-28 5.806E-28 3.920E-28 2.708E-28 1.808E-28 0.000E+00 1.154E-26 4.152E-27 2.120E-27 1.256E-27 8.055E-28 5.368E-28 3.488E-28 0.000E+00 1.655E-26 5.973E-27 3.066E-27 1.820E-27 1.156E-27 7.272E-28 0.000E+00 2.505E-26 9.076E-27 4.685E-27 2.771E-27 1.672E-27 0.000E+00 4.081E-26 1.485E-26 7.698E-27 4.371E-27 0.000E+00 7.397E-26 2.702E-26 1.366E-26 0.000E+00 1.589E-25 5.677E-26 0.000E+00 4.616E-25 5.023E-24
1.000E+05 1 7.500E+03 B 50 25
0.000E+00 9.506E-28 2.945E-28 1.278E-28 6.676E-29 3.923E-29 2.500E-29 1.691E-29 1.197E-29 8.785E-30 6.636E-30 5.133E-30 4.051E-30 3.251E-30 2.648E-30 2.183E-30 1.819E-30 1.530E-30 1.296E-30 1.105E-30 9.451E-31 8.078E-31 6.830E-31 5.466E-31 0.000E+00 1.046E-27 3.250E-28 1.414E-28 7.403E-29 4.359E-29 2.783E-29 1.885E-29 1.336E-29 9.812E-30 7.417E-30 5.741E-30 4.533E-30 3.639E-30 2.964E-30 2.443E-30 2.035E-30 1.710E-30 1.446E-30 1.229E-30 1.044E-30 8.775E-31 6.987E-31 0.000E+00 1.156E-27 3.600E-28 1.572E-28 8.253E-29 4.871E-29 3.116E-29 2.115E-29 1.501E-29 1.104E-29 8.350E-30 6.469E-30 5.110E-30 4.104E-30 3.343E-30 2.755E-30 2.293E-30 1.924E-30 1.622E-30 1.368E-30 1.143E-30 9.054E-31 0.000E+00 1.280E-27 4.004E-28 1.755E-28 9.252E-29 5.478E-29 3.513E-29 2.389E-29 1.699E-29 1.251E-29 9.477E-30 7.348E-30 5.809E-30 4.667E-30 3.801E-30 3.131E-30 2.602E-30 2.176E-30 1.822E-30 1.513E-30 1.190E-30 0.000E+00 1.421E-27 4.470E-28 1.970E-28 1.043E-28 6.202E-29 3.991E-29 2.721E-29 1.939E-29 1.430E-29 1.085E-29 8.422E-30 6.662E-30 5.353E-30 4.358E-30 3.585E-30 2.971E-30 2.468E-30 2.034E-30 1.590E-30 0.000E+00 1.583E-27 5.012E-28 2.225E-28 1.185E-28 7.077E-29 4.572E-29 3.127E-29 2.234E-29 1.651E-29 1.254E-29 9.747E-30 7.714E-30 6.198E-30 5.040E-30 4.135E-30 3.404E-30 2.782E-30 2.160E-30 0.000E+00 1.771E-27 5.650E-28 2.529E-28 1.357E-28 8.149E-29 5.288E-29 3.630E-29 2.600E-29 1.926E-29 1.466E-29 1.140E-29 9.023E-30 7.243E-30 5.874E-30 4.788E-30 3.879E-30 2.986E-30 0.000E+00 1.991E-27 6.410E-28 2.898E-28 1.568E-28 9.480E-29 6.184E-29 4.262E-29 3.063E-29 2.274E-29 1.732E-29 1.348E-29 1.066E-29 8.535E-30 6.878E-30 5.515E-30 4.206E-30 0.000E+00 2.254E-27 7.333E-28 3.354E-28 1.832E-28 1.116E-28 7.322E-29 5.068E-29 3.652E-29 2.717E-29 2.072E-29 1.611E-29 1.271E-29 1.011E-29 8.011E-30 6.045E-30 0.000E+00 2.579E-27 8.481E-28 3.931E-28 2.170E-28 1.332E-28 8.791E-29 6.109E-29 4.414E-29 3.287E-29 2.506E-29 1.943E-29 1.523E-29 1.191E-29 8.876E-30 0.000E+00 2.991E-27 9.943E-28 4.674E-28 2.609E-28 1.615E-28 1.071E-28 7.471E-29 5.408E-29 4.027E-29 3.062E-29 2.358E-29 1.816E-29 1.335E-29 0.000E+00 3.527E-27 1.186E-27 5.655E-28 3.192E-28 1.991E-28 1.327E-28 9.278E-29 6.718E-29 4.990E-29 3.767E-29 2.851E-29 2.062E-29 0.000E+00 4.243E-27 1.443E-27 6.981E-28 3.982E-28 2.500E-28 1.673E-28 1.170E-28 8.456E-29 6.238E-29 4.626E-29 3.286E-29 0.000E+00 5.227E-27 1.799E-27 8.820E-28 5.075E-28 3.203E-28 2.147E-28 1.500E-28 1.077E-28 7.803E-29 5.430E-29 0.000E+00 6.622E-27 2.306E-27 1.144E-27 6.628E-28 4.197E-28 2.812E-28 1.954E-28 1.378E-28 9.371E-29 0.000E+00 8.669E-27 3.052E-27 1.527E-27 8.898E-28 5.641E-28 3.764E-28 2.572E-28 1.703E-28 0.000E+00 1.180E-26 4.190E-27 2.112E-27 1.234E-27 7.809E-28 5.134E-28 3.298E-28 0.000E+00 1.681E-26 6.008E-27 3.046E-27 1.782E-27 1.115E-27 6.905E-28 0.000E+00 2.536E-26 9.106E-27 4.639E-27 2.697E-27 1.596E-27 0.000E+00 4.124E-26 1.486E-26 7.574E-27 4.202E-27 0.000E+00 7.464E-26 2.690E-26 1.326E-26 0.000E+00 1.600E-25 5.579E-26 0.000E+00 4.610E-25 5.355E-24
1.000E+06 1 7.500E+03 B 50 25
0.000E+00 1.170E-27 3.592E-28 1.545E-28 8.008E-29 4.673E-29 2.961E-29 1.992E-29 1.404E-29 1.026E-29 7.719E-30 5.951E-30 4.682E-30 3.747E-30 3.043E-30 2.503E-30 2.081E-30 1.747E-30 1.477E-30 1.256E-30 1.073E-30 9.150E-31 7.722E-31 6.169E-31 0.000E+00 1.276E-27 3.921E-28 1.687E-28 8.747E-29 5.106E-29 3.235E-29 2.177E-29 1.534E-29 1.121E-29 8.437E-30 6.504E-30 5.116E-30 4.093E-30 3.323E-30 2.732E-30 2.270E-30 1.902E-30 1.605E-30 1.360E-30 1.153E-30 9.670E-31 7.684E-31 0.000E+00 1.398E-27 4.298E-28 1.850E-28 9.597E-29 5.604E-29 3.552E-29 2.391E-29 1.685E-29 1.231E-29 9.265E-30 7.142E-30 5.616E-30 4.492E-30 3.645E-30 2.994E-30 2.484E-30 2.077E-30 1.746E-30 1.470E-30 1.225E-30 9.674E-31 0.000E+00 1.541E-27 4.738E-28 2.041E-28 1.059E-28 6.188E-29 3.924E-29 2.642E-29 1.862E-29 1.361E-29 1.024E-29 7.892E-30 6.205E-30 4.961E-30 4.022E-30 3.300E-30 2.732E-30 2.276E-30 1.900E-30 1.572E-30 1.234E-30 0.000E+00 1.709E-27 5.261E-28 2.268E-28 1.178E-28 6.887E-29 4.369E-29 2.943E-29 2.075E-29 1.517E-29 1.141E-29 8.794E-30 6.911E-30 5.522E-30 4.472E-30 3.661E-30 3.020E-30 2.499E-30 2.052E-30 1.599E-30 0.000E+00 1.911E-27 5.890E-28 2.542E-28 1.322E-28 7.734E-29 4.910E-29 3.309E-29 2.334E-29 1.706E-29 1.284E-29 9.892E-30 7.771E-30 6.202E-30 5.013E-30 4.090E-30 3.352E-30 2.728E-30 2.109E-30 0.000E+00 2.154E-27 6.650E-28 2.876E-28 1.497E-28 8.772E-29 5.574E-29 3.760E-29 2.653E-29 1.941E-29 1.460E-29 1.125E-29 8.829E-30 7.035E-30 5.668E-30 4.594E-30 3.703E-30 2.839E-30 0.000E+00 2.447E-27 7.573E-28 3.283E-28 1.713E-28 1.005E-28 6.399E-29 4.321E-29 3.052E-29 2.233E-29 1.681E-29 1.294E-29 1.014E-29 8.057E-30 6.450E-30 5.144E-30 3.906E-30 0.000E+00 2.801E-27 8.697E-28 3.784E-28 1.981E-28 1.165E-28 7.432E-29 5.027E-29 3.555E-29 2.603E-29 1.959E-29 1.507E-29 1.178E-29 9.301E-30 7.330E-30 5.509E-30 0.000E+00 3.228E-27 1.007E-27 4.404E-28 2.316E-28 1.367E-28 8.745E-29 5.928E-29 4.198E-29 3.077E-29 2.315E-29 1.777E-29 1.381E-29 1.074E-29 7.982E-30 0.000E+00 3.747E-27 1.177E-27 5.182E-28 2.741E-28 1.627E-28 1.044E-28 7.100E-29 5.038E-29 3.694E-29 2.776E-29 2.120E-29 1.624E-29 1.191E-29 0.000E+00 4.383E-27 1.389E-27 6.176E-28 3.294E-28 1.967E-28 1.270E-28 8.660E-29 6.157E-29 4.513E-29 3.377E-29 2.543E-29 1.838E-29 0.000E+00 5.184E-27 1.661E-27 7.479E-28 4.031E-28 2.427E-28 1.575E-28 1.079E-28 7.675E-29 5.607E-29 4.138E-29 2.941E-29 0.000E+00 6.227E-27 2.021E-27 9.244E-28 5.046E-28 3.066E-28 2.002E-28 1.374E-28 9.755E-29 7.031E-29 4.896E-29 0.000E+00 7.653E-27 2.518E-27 1.173E-27 6.493E-28 3.983E-28 2.612E-28 1.790E-28 1.254E-28 8.523E-29 0.000E+00 9.698E-27 3.238E-27 1.538E-27 8.634E-28 5.336E-28 3.500E-28 2.368E-28 1.563E-28 0.000E+00 1.279E-26 4.337E-27 2.100E-27 1.192E-27 7.385E-28 4.786E-28 3.050E-28 0.000E+00 1.772E-26 6.114E-27 3.007E-27 1.717E-27 1.053E-27 6.432E-28 0.000E+00 2.621E-26 9.172E-27 4.555E-27 2.585E-27 1.498E-27 0.000E+00 4.213E-26 1.487E-26 7.378E-27 3.981E-27 0.000E+00 7.581E-26 2.669E-26 1.272E-26 0.000E+00 1.617E-25 5.442E-26 0.000E+00 4.608E-25 5.453E-24
1.000E+07 1 7.500E+03 B 50 25
0.000E+00 1.440E-27 4.415E-28 1.896E-28 9.817E-29 5.723E-29 3.622E-29 2.435E-29 1.714E-29 1.251E-29 9.409E-30 7.249E-30 5.699E-30 4.558E-30 3.700E-30 3.041E-30 2.527E-30 2.119E-30 1.791E-30 1.522E-30 1.298E-30 1.107E-30 9.330E-31 7.443E-31 0.000E+00 1.599E-27 4.903E-28 2.106E-28 1.090E-28 6.354E-29 4.021E-29 2.703E-29 1.903E-29 1.389E-29 1.044E-29 8.041E-30 6.320E-30 5.053E-30 4.099E-30 3.367E-30 2.795E-30 2.340E-30 1.973E-30 1.670E-30 1.414E-30 1.185E-30 9.402E-31 0.000E+00 1.777E-27 5.449E-28 2.341E-28 1.212E-28 7.062E-29 4.469E-29 3.003E-29 2.114E-29 1.543E-29 1.159E-29 8.927E-30 7.013E-30 5.604E-30 4.543E-30 3.728E-30 3.089E-30 2.581E-30 2.168E-30 1.822E-30 1.516E-30 1.196E-30 0.000E+00 1.976E-27 6.060E-28 2.603E-28 1.347E-28 7.852E-29 4.969E-29 3.339E-29 2.350E-29 1.714E-29 1.288E-29 9.914E-30 7.785E-30 6.216E-30 5.034E-30 4.124E-30 3.411E-30 2.838E-30 2.366E-30 1.955E-30 1.532E-30 0.000E+00 2.198E-27 6.740E-28 2.895E-28 1.499E-28 8.734E-29 5.526E-29 3.713E-29 2.612E-29 1.906E-29 1.431E-29 1.101E-29 8.640E-30 6.892E-30 5.573E-30 4.556E-30 3.753E-30 3.101E-30 2.541E-30 1.976E-30 0.000E+00 2.445E-27 7.499E-28 3.222E-28 1.668E-28 9.719E-29 6.149E-29 4.131E-29 2.906E-29 2.119E-29 1.591E-29 1.223E-29 9.587E-30 7.637E-30 6.162E-30 5.018E-30 4.104E-30 3.333E-30 2.572E-30 0.000E+00 2.723E-27 8.354E-28 3.589E-28 1.858E-28 1.083E-28 6.850E-29 4.602E-29 3.236E-29 2.359E-29 1.770E-29 1.359E-29 1.064E-29 8.459E-30 6.800E-30 5.498E-30 4.421E-30 3.381E-30 0.000E+00 3.042E-27 9.335E-28 4.012E-28 2.077E-28 1.211E-28 7.658E-29 5.143E-29 3.616E-29 2.634E-29 1.975E-29 1.515E-29 1.184E-29 9.373E-30 7.481E-30 5.948E-30 4.503E-30 0.000E+00 3.420E-27 1.050E-27 4.513E-28 2.337E-28 1.363E-28 8.619E-29 5.788E-29 4.067E-29 2.961E-29 2.217E-29 1.698E-29 1.321E-29 1.039E-29 8.157E-30 6.107E-30 0.000E+00 3.886E-27 1.193E-27 5.134E-28 2.660E-28 1.551E-28 9.811E-29 6.587E-29 4.627E-29 3.365E-29 2.515E-29 1.919E-29 1.483E-29 1.147E-29 8.482E-30 0.000E+00 4.478E-27 1.377E-27 5.928E-28 3.074E-28 1.793E-28 1.135E-28 7.616E-29 5.345E-29 3.882E-29 2.892E-29 2.192E-29 1.667E-29 1.215E-29 0.000E+00 5.245E-27 1.615E-27 6.966E-28 3.617E-28 2.112E-28 1.337E-28 8.972E-29 6.290E-29 4.555E-29 3.373E-29 2.515E-29 1.803E-29 0.000E+00 6.247E-27 1.929E-27 8.341E-28 4.340E-28 2.538E-28 1.608E-28 1.079E-28 7.550E-29 5.437E-29 3.964E-29 2.788E-29 0.000E+00 7.561E-27 2.344E-27 1.018E-27 5.319E-28 3.119E-28 1.979E-28 1.327E-28 9.243E-29 6.563E-29 4.518E-29 0.000E+00 9.304E-27 2.904E-27 1.271E-27 6.676E-28 3.931E-28 2.498E-28 1.672E-28 1.150E-28 7.722E-29 0.000E+00 1.167E-26 3.678E-27 1.628E-27 8.631E-28 5.112E-28 3.252E-28 2.154E-28 1.405E-28 0.000E+00 1.505E-26 4.801E-27 2.159E-27 1.159E-27 6.904E-28 4.364E-28 2.746E-28 0.000E+00 2.021E-26 6.541E-27 3.002E-27 1.633E-27 9.709E-28 5.840E-28 0.000E+00 2.885E-26 9.477E-27 4.445E-27 2.428E-27 1.377E-27 0.000E+00 4.478E-26 1.496E-26 7.098E-27 3.710E-27 0.000E+00 7.850E-26 2.642E-26 1.205E-26 0.000E+00 1.648E-25 5.277E-26 0.000E+00 4.623E-25 5.563E-24
1.000E+08 1 7.500E+03 B 50 25
0.000E+00 1.550E-27 4.753E-28 2.041E-28 1.057E-28 6.158E-29 3.896E-29 2.619E-29 1.843E-29 1.346E-29 1.012E-29 7.793E-30 6.126E-30 4.899E-30 3.976E-30 3.268E-30 2.715E-30 2.276E-30 1.923E-30 1.635E-30 1.394E-30 1.188E-30 1.001E-30 7.985E-31 0.000E+00 1.748E-27 5.360E-28 2.302E-28 1.191E-28 6.942E-29 4.392E-29 2.952E-29 2.077E-29 1.516E-29 1.140E-29 8.775E-30 6.895E-30 5.512E-30 4.471E-30 3.671E-30 3.047E-30 2.551E-30 2.150E-30 1.820E-30 1.541E-30 1.291E-30 1.023E-30 0.000E+00 1.979E-27 6.068E-28 2.606E-28 1.348E-28 7.857E-29 4.970E-29 3.340E-29 2.350E-29 1.715E-29 1.288E-29 9.918E-30 7.790E-30 6.223E-30 5.044E-30 4.137E-30 3.428E-30 2.863E-30 2.404E-30 2.020E-30 1.681E-30 1.324E-30 0.000E+00 2.250E-27 6.898E-28 2.962E-28 1.532E-28 8.928E-29 5.647E-29 3.794E-29 2.669E-29 1.947E-29 1.462E-29 1.125E-29 8.832E-30 7.050E-30 5.708E-30 4.675E-30 3.864E-30 3.215E-30 2.679E-30 2.212E-30 1.732E-30 0.000E+00 2.568E-27 7.872E-28 3.380E-28 1.748E-28 1.018E-28 6.441E-29 4.326E-29 3.042E-29 2.218E-29 1.665E-29 1.281E-29 1.005E-29 8.010E-30 6.475E-30 5.291E-30 4.356E-30 3.597E-30 2.946E-30 2.289E-30 0.000E+00 2.942E-27 9.016E-28 3.870E-28 2.002E-28 1.166E-28 7.371E-29 4.949E-29 3.480E-29 2.536E-29 1.903E-29 1.462E-29 1.146E-29 9.122E-30 7.356E-30 5.987E-30 4.893E-30 3.971E-30 3.060E-30 0.000E+00 3.380E-27 1.036E-27 4.445E-28 2.299E-28 1.339E-28 8.461E-29 5.679E-29 3.991E-29 2.907E-29 2.180E-29 1.673E-29 1.309E-29 1.040E-29 8.351E-30 6.746E-30 5.419E-30 4.139E-30 0.000E+00 3.891E-27 1.192E-27 5.116E-28 2.646E-28 1.540E-28 9.731E-29 6.529E-29 4.585E-29 3.338E-29 2.500E-29 1.916E-29 1.495E-29 1.183E-29 9.433E-30 7.491E-30 5.663E-30 0.000E+00 4.483E-27 1.374E-27 5.894E-28 3.047E-28 1.773E-28 1.120E-28 7.510E-29 5.271E-29 3.833E-29 2.866E-29 2.192E-29 1.704E-29 1.338E-29 1.049E-29 7.838E-30 0.000E+00 5.163E-27 1.582E-27 6.785E-28 3.507E-28 2.040E-28 1.288E-28 8.631E-29 6.051E-29 4.394E-29 3.279E-29 2.497E-29 1.927E-29 1.488E-29 1.098E-29 0.000E+00 5.936E-27 1.818E-27 7.800E-28 4.030E-28 2.344E-28 1.479E-28 9.899E-29 6.931E-29 5.021E-29 3.733E-29 2.823E-29 2.142E-29 1.557E-29 0.000E+00 6.822E-27 2.090E-27 8.962E-28 4.629E-28 2.691E-28 1.696E-28 1.134E-28 7.923E-29 5.719E-29 4.221E-29 3.139E-29 2.242E-29 0.000E+00 7.877E-27 2.413E-27 1.035E-27 5.343E-28 3.103E-28 1.954E-28 1.304E-28 9.079E-29 6.508E-29 4.723E-29 3.307E-29 0.000E+00 9.232E-27 2.828E-27 1.213E-27 6.262E-28 3.634E-28 2.284E-28 1.520E-28 1.051E-28 7.409E-29 5.065E-29 0.000E+00 1.111E-26 3.406E-27 1.461E-27 7.541E-28 4.372E-28 2.741E-28 1.812E-28 1.233E-28 8.191E-29 0.000E+00 1.382E-26 4.241E-27 1.821E-27 9.402E-28 5.442E-28 3.393E-28 2.209E-28 1.418E-28 0.000E+00 1.779E-26 5.475E-27 2.357E-27 1.218E-27 7.026E-28 4.324E-28 2.661E-28 0.000E+00 2.379E-26 7.354E-27 3.182E-27 1.646E-27 9.413E-28 5.497E-28 0.000E+00 3.337E-26 1.038E-26 4.533E-27 2.341E-27 1.278E-27 0.000E+00 5.038E-26 1.575E-26 6.932E-27 3.451E-27 0.000E+00 8.534E-26 2.655E-26 1.138E-26 0.000E+00 1.726E-25 5.118E-26 0.000E+00 4.690E-25 5.758E-24
1.000E+02 1 1.000E+04 B 139 25
0.000E+00 4.246E-28 1.459E-28 7.118E-29 4.077E-29 2.568E-29 1.727E-29 1.217E-29 8.905E-30 6.707E-30 5.174E-30 4.072E-30 3.259E-30 2.646E-30 2.175E-30 1.806E-30 1.514E-30 1.278E-30 1.086E-30 9.266E-31 7.921E-31 6.756E-31 5.688E-31 4.518E-31 0.000E+00 4.779E-28 1.645E-28 8.039E-29 4.608E-29 2.905E-29 1.954E-29 1.378E-29 1.008E-29 7.592E-30 5.857E-30 4.609E-30 3.688E-30 2.993E-30 2.458E-30 2.040E-30 1.708E-30 1.439E-30 1.219E-30 1.036E-30 8.779E-31 7.349E-31 5.806E-31 0.000E+00 5.412E-28 1.866E-28 9.128E-29 5.236E-29 3.303E-29 2.222E-29 1.567E-29 1.147E-29 8.638E-30 6.664E-30 5.243E-30 4.194E-30 3.402E-30 2.792E-30 2.314E-30 1.934E-30 1.625E-30 1.371E-30 1.154E-30 9.602E-31 7.542E-31 0.000E+00 6.166E-28 2.129E-28 1.042E-28 5.984E-29 3.776E-29 2.541E-29 1.793E-29 1.312E-29 9.885E-30 7.625E-30 5.997E-30 4.795E-30 3.887E-30 3.187E-30 2.637E-30 2.197E-30 1.838E-30 1.537E-30 1.270E-30 9.914E-31 0.000E+00 7.073E-28 2.445E-28 1.198E-28 6.882E-29 4.345E-29 2.925E-29 2.064E-29 1.511E-29 1.138E-29 8.778E-30 6.902E-30 5.515E-30 4.466E-30 3.655E-30 3.017E-30 2.502E-30 2.076E-30 1.703E-30 1.320E-30 0.000E+00 8.173E-28 2.828E-28 1.387E-28 7.970E-29 5.034E-29 3.390E-29 2.393E-29 1.752E-29 1.320E-29 1.017E-29 7.996E-30 6.384E-30 5.161E-30 4.214E-30 3.462E-30 2.847E-30 2.318E-30 1.783E-30 0.000E+00 9.518E-28 3.295E-28 1.617E-28 9.300E-29 5.877E-29 3.960E-29 2.796E-29 2.047E-29 1.542E-29 1.188E-29 9.330E-30 7.438E-30 5.999E-30 4.876E-30 3.973E-30 3.206E-30 2.447E-30 0.000E+00 1.118E-27 3.873E-28 1.902E-28 1.094E-28 6.920E-29 4.664E-29 3.294E-29 2.412E-29 1.816E-29 1.399E-29 1.097E-29 8.727E-30 7.009E-30 5.650E-30 4.517E-30 3.416E-30 0.000E+00 1.326E-27 4.595E-28 2.258E-28 1.300E-28 8.227E-29 5.548E-29 3.919E-29 2.869E-29 2.159E-29 1.662E-29 1.301E-29 1.030E-29 8.208E-30 6.493E-30 4.863E-30 0.000E+00 1.589E-27 5.509E-28 2.710E-28 1.562E-28 9.887E-29 6.670E-29 4.713E-29 3.449E-29 2.594E-29 1.993E-29 1.554E-29 1.221E-29 9.548E-30 7.075E-30 0.000E+00 1.928E-27 6.686E-28 3.291E-28 1.899E-28 1.203E-28 8.119E-29 5.737E-29 4.197E-29 3.152E-29 2.413E-29 1.868E-29 1.441E-29 1.055E-29 0.000E+00 2.372E-27 8.225E-28 4.053E-28 2.341E-28 1.484E-28 1.002E-28 7.082E-29 5.175E-29 3.875E-29 2.946E-29 2.239E-29 1.618E-29 0.000E+00 2.963E-27 1.028E-27 5.072E-28 2.933E-28 1.861E-28 1.257E-28 8.880E-29 6.474E-29 4.818E-29 3.598E-29 2.563E-29 0.000E+00 3.771E-27 1.309E-27 6.467E-28 3.745E-28 2.379E-28 1.607E-28 1.133E-28 8.219E-29 6.015E-29 4.213E-29 0.000E+00 4.905E-27 1.703E-27 8.431E-28 4.890E-28 3.110E-28 2.100E-28 1.474E-28 1.053E-28 7.234E-29 0.000E+00 6.549E-27 2.276E-27 1.129E-27 6.562E-28 4.176E-28 2.812E-28 1.948E-28 1.309E-28 0.000E+00 9.031E-27 3.141E-27 1.563E-27 9.104E-28 5.789E-28 3.856E-28 2.520E-28 0.000E+00 1.297E-26 4.516E-27 2.255E-27 1.316E-27 8.308E-28 5.246E-28 0.000E+00 1.964E-26 6.849E-27 3.435E-27 2.000E-27 1.205E-27 0.000E+00 3.198E-26 1.117E-26 5.615E-27 3.152E-27 0.000E+00 5.784E-26 2.016E-26 9.906E-27 0.000E+00 1.235E-25 4.182E-26 0.000E+00 3.536E-25 2.908E-24
1.000E+03 1 1.000E+04 B 98 25
0.000E+00 4.588E-28 1.526E-28 7.252E-29 4.084E-29 2.545E-29 1.698E-29 1.191E-29 8.673E-30 6.513E-30 5.012E-30 3.936E-30 3.145E-30 2.550E-30 2.093E-30 1.737E-30 1.455E-30 1.228E-30 1.043E-30 8.900E-31 7.612E-31 6.498E-31 5.478E-31 4.363E-31 0.000E+00 5.105E-28 1.706E-28 8.152E-29 4.608E-29 2.878E-29 1.924E-29 1.350E-29 9.845E-30 7.395E-30 5.691E-30 4.470E-30 3.570E-30 2.893E-30 2.374E-30 1.968E-30 1.646E-30 1.386E-30 1.174E-30 9.971E-31 8.457E-31 7.087E-31 5.611E-31 0.000E+00 5.717E-28 1.921E-28 9.222E-29 5.230E-29 3.274E-29 2.191E-29 1.540E-29 1.123E-29 8.438E-30 6.494E-30 5.099E-30 4.071E-30 3.297E-30 2.702E-30 2.237E-30 1.867E-30 1.568E-30 1.322E-30 1.113E-30 9.269E-31 7.294E-31 0.000E+00 6.448E-28 2.177E-28 1.050E-28 5.974E-29 3.747E-29 2.510E-29 1.765E-29 1.288E-29 9.678E-30 7.449E-30 5.847E-30 4.665E-30 3.775E-30 3.090E-30 2.553E-30 2.125E-30 1.776E-30 1.485E-30 1.227E-30 9.594E-31 0.000E+00 7.329E-28 2.487E-28 1.205E-28 6.869E-29 4.315E-29 2.894E-29 2.036E-29 1.486E-29 1.117E-29 8.592E-30 6.741E-30 5.375E-30 4.343E-30 3.548E-30 2.923E-30 2.422E-30 2.008E-30 1.647E-30 1.278E-30 0.000E+00 8.401E-28 2.864E-28 1.392E-28 7.954E-29 5.003E-29 3.358E-29 2.364E-29 1.726E-29 1.297E-29 9.973E-30 7.819E-30 6.227E-30 5.023E-30 4.092E-30 3.356E-30 2.757E-30 2.243E-30 1.727E-30 0.000E+00 9.720E-28 3.327E-28 1.622E-28 9.283E-29 5.845E-29 3.926E-29 2.765E-29 2.019E-29 1.516E-29 1.166E-29 9.130E-30 7.259E-30 5.840E-30 4.736E-30 3.852E-30 3.105E-30 2.370E-30 0.000E+00 1.136E-27 3.901E-28 1.906E-28 1.093E-28 6.887E-29 4.629E-29 3.261E-29 2.380E-29 1.788E-29 1.373E-29 1.074E-29 8.515E-30 6.820E-30 5.485E-30 4.377E-30 3.311E-30 0.000E+00 1.341E-27 4.621E-28 2.261E-28 1.298E-28 8.191E-29 5.509E-29 3.881E-29 2.833E-29 2.126E-29 1.631E-29 1.272E-29 1.005E-29 7.980E-30 6.298E-30 4.715E-30 0.000E+00 1.603E-27 5.533E-28 2.713E-28 1.559E-28 9.847E-29 6.625E-29 4.668E-29 3.406E-29 2.554E-29 1.954E-29 1.519E-29 1.189E-29 9.271E-30 6.862E-30 0.000E+00 1.941E-27 6.709E-28 3.294E-28 1.896E-28 1.198E-28 8.064E-29 5.682E-29 4.143E-29 3.100E-29 2.364E-29 1.822E-29 1.401E-29 1.024E-29 0.000E+00 2.383E-27 8.248E-28 4.056E-28 2.337E-28 1.478E-28 9.953E-29 7.010E-29 5.104E-29 3.806E-29 2.881E-29 2.180E-29 1.571E-29 0.000E+00 2.975E-27 1.030E-27 5.074E-28 2.928E-28 1.853E-28 1.248E-28 8.783E-29 6.377E-29 4.722E-29 3.509E-29 2.489E-29 0.000E+00 3.783E-27 1.312E-27 6.469E-28 3.737E-28 2.368E-28 1.594E-28 1.120E-28 8.078E-29 5.878E-29 4.095E-29 0.000E+00 4.919E-27 1.706E-27 8.431E-28 4.879E-28 3.093E-28 2.081E-28 1.453E-28 1.031E-28 7.041E-29 0.000E+00 6.566E-27 2.279E-27 1.129E-27 6.544E-28 4.150E-28 2.781E-28 1.914E-28 1.276E-28 0.000E+00 9.053E-27 3.145E-27 1.562E-27 9.071E-28 5.742E-28 3.800E-28 2.462E-28 0.000E+00 1.300E-26 4.522E-27 2.253E-27 1.310E-27 8.215E-28 5.137E-28 0.000E+00 1.969E-26 6.856E-27 3.428E-27 1.984E-27 1.184E-27 0.000E+00 3.206E-26 1.117E-26 5.592E-27 3.108E-27 0.000E+00 5.796E-26 2.014E-26 9.806E-27 0.000E+00 1.237E-25 4.158E-26 0.000E+00 3.534E-25 3.225E-24
1.000E+04 1 1.000E+04 B 65 25
0.000E+00 5.515E-28 1.762E-28 7.916E-29 4.264E-29 2.570E-29 1.672E-29 1.151E-29 8.266E-30 6.139E-30 4.685E-30 3.656E-30 2.907E-30 2.349E-30 1.923E-30 1.594E-30 1.334E-30 1.126E-30 9.566E-31 8.174E-31 7.004E-31 5.995E-31 5.072E-31 4.059E-31 0.000E+00 6.057E-28 1.945E-28 8.799E-29 4.767E-29 2.886E-29 1.885E-29 1.301E-29 9.363E-30 6.965E-30 5.322E-30 4.157E-30 3.307E-30 2.673E-30 2.189E-30 1.813E-30 1.516E-30 1.278E-30 1.083E-30 9.220E-31 7.841E-31 6.594E-31 5.246E-31 0.000E+00 6.686E-28 2.158E-28 9.838E-29 5.363E-29 3.262E-29 2.139E-29 1.480E-29 1.067E-29 7.953E-30 6.084E-30 4.755E-30 3.785E-30 3.059E-30 2.504E-30 2.072E-30 1.731E-30 1.455E-30 1.229E-30 1.038E-30 8.668E-31 6.853E-31 0.000E+00 7.425E-28 2.410E-28 1.107E-28 6.075E-29 3.714E-29 2.443E-29 1.696E-29 1.225E-29 9.143E-30 7.000E-30 5.475E-30 4.358E-30 3.521E-30 2.880E-30 2.380E-30 1.982E-30 1.660E-30 1.390E-30 1.153E-30 9.053E-31 0.000E+00 8.306E-28 2.711E-28 1.256E-28 6.935E-29 4.260E-29 2.813E-29 1.957E-29 1.417E-29 1.058E-29 8.109E-30 6.343E-30 5.047E-30 4.074E-30 3.328E-30 2.743E-30 2.275E-30 1.889E-30 1.554E-30 1.211E-30 0.000E+00 9.368E-28 3.074E-28 1.436E-28 7.983E-29 4.928E-29 3.265E-29 2.277E-29 1.651E-29 1.234E-29 9.458E-30 7.396E-30 5.880E-30 4.739E-30 3.861E-30 3.168E-30 2.606E-30 2.124E-30 1.641E-30 0.000E+00 1.066E-27 3.519E-28 1.658E-28 9.276E-29 5.752E-29 3.822E-29 2.670E-29 1.938E-29 1.450E-29 1.111E-29 8.680E-30 6.891E-30 5.539E-30 4.491E-30 3.655E-30 2.950E-30 2.259E-30 0.000E+00 1.226E-27 4.072E-28 1.934E-28 1.089E-28 6.778E-29 4.515E-29 3.159E-29 2.295E-29 1.717E-29 1.314E-29 1.025E-29 8.119E-30 6.496E-30 5.223E-30 4.171E-30 3.161E-30 0.000E+00 1.426E-27 4.769E-28 2.283E-28 1.292E-28 8.068E-29 5.386E-29 3.773E-29 2.741E-29 2.049E-29 1.567E-29 1.219E-29 9.611E-30 7.625E-30 6.016E-30 4.509E-30 0.000E+00 1.680E-27 5.660E-28 2.728E-28 1.551E-28 9.712E-29 6.493E-29 4.551E-29 3.306E-29 2.469E-29 1.883E-29 1.459E-29 1.140E-29 8.876E-30 6.572E-30 0.000E+00 2.009E-27 6.816E-28 3.304E-28 1.885E-28 1.183E-28 7.920E-29 5.552E-29 4.029E-29 3.002E-29 2.281E-29 1.752E-29 1.344E-29 9.816E-30 0.000E+00 2.443E-27 8.340E-28 4.062E-28 2.324E-28 1.462E-28 9.788E-29 6.859E-29 4.969E-29 3.688E-29 2.779E-29 2.096E-29 1.508E-29 0.000E+00 3.026E-27 1.038E-27 5.078E-28 2.912E-28 1.834E-28 1.228E-28 8.597E-29 6.207E-29 4.572E-29 3.382E-29 2.392E-29 0.000E+00 3.828E-27 1.319E-27 6.469E-28 3.718E-28 2.343E-28 1.569E-28 1.095E-28 7.851E-29 5.679E-29 3.940E-29 0.000E+00 4.960E-27 1.713E-27 8.427E-28 4.853E-28 3.060E-28 2.045E-28 1.419E-28 9.995E-29 6.783E-29 0.000E+00 6.608E-27 2.287E-27 1.128E-27 6.504E-28 4.099E-28 2.726E-28 1.861E-28 1.231E-28 0.000E+00 9.100E-27 3.153E-27 1.559E-27 9.004E-28 5.658E-28 3.711E-28 2.381E-28 0.000E+00 1.306E-26 4.531E-27 2.247E-27 1.297E-27 8.061E-28 4.982E-28 0.000E+00 1.977E-26 6.865E-27 3.413E-27 1.957E-27 1.152E-27 0.000E+00 3.219E-26 1.117E-26 5.548E-27 3.040E-27 0.000E+00 5.817E-26 2.010E-26 9.648E-27 0.000E+00 1.240E-25 4.120E-26 0.000E+00 3.530E-25 3.923E-24
1.000E+05 1 1.000E+04 B 50 25
0.000E+00 6.634E-28 2.052E-28 8.897E-29 4.644E-29 2.727E-29 1.737E-29 1.174E-29 8.308E-30 6.093E-30 4.600E-30 3.557E-30 2.806E-30 2.251E-30 1.832E-30 1.510E-30 1.258E-30 1.058E-30 8.960E-31 7.634E-31 6.527E-31 5.577E-31 4.713E-31 3.771E-31 0.000E+00 7.336E-28 2.274E-28 9.882E-29 5.168E-29 3.040E-29 1.939E-29 1.312E-29 9.295E-30 6.822E-30 5.154E-30 3.987E-30 3.146E-30 2.525E-30 2.055E-30 1.694E-30 1.410E-30 1.184E-30 1.001E-30 8.503E-31 7.220E-31 6.067E-31 4.828E-31 0.000E+00 8.140E-28 2.530E-28 1.103E-28 5.782E-29 3.408E-29 2.178E-29 1.476E-29 1.047E-29 7.691E-30 5.815E-30 4.502E-30 3.554E-30 2.853E-30 2.322E-30 1.913E-30 1.591E-30 1.334E-30 1.124E-30 9.479E-31 7.916E-31 6.264E-31 0.000E+00 9.064E-28 2.827E-28 1.236E-28 6.504E-29 3.844E-29 2.462E-29 1.672E-29 1.188E-29 8.736E-30 6.611E-30 5.122E-30 4.045E-30 3.248E-30 2.643E-30 2.175E-30 1.807E-30 1.510E-30 1.264E-30 1.048E-30 8.243E-31 0.000E+00 1.013E-27 3.172E-28 1.394E-28 7.362E-29 4.366E-29 2.804E-29 1.909E-29 1.358E-29 1.000E-29 7.579E-30 5.876E-30 4.643E-30 3.728E-30 3.032E-30 2.492E-30 2.063E-30 1.712E-30 1.410E-30 1.101E-30 0.000E+00 1.137E-27 3.577E-28 1.581E-28 8.391E-29 4.997E-29 3.220E-29 2.197E-29 1.567E-29 1.156E-29 8.769E-30 6.804E-30 5.378E-30 4.316E-30 3.505E-30 2.872E-30 2.362E-30 1.929E-30 1.495E-30 0.000E+00 1.282E-27 4.057E-28 1.806E-28 9.642E-29 5.769E-29 3.732E-29 2.554E-29 1.826E-29 1.349E-29 1.025E-29 7.955E-30 6.287E-30 5.039E-30 4.081E-30 3.322E-30 2.687E-30 2.066E-30 0.000E+00 1.455E-27 4.635E-28 2.080E-28 1.118E-28 6.729E-29 4.371E-29 3.002E-29 2.151E-29 1.592E-29 1.210E-29 9.397E-30 7.418E-30 5.928E-30 4.769E-30 3.817E-30 2.906E-30 0.000E+00 1.665E-27 5.342E-28 2.419E-28 1.311E-28 7.939E-29 5.181E-29 3.570E-29 2.564E-29 1.901E-29 1.445E-29 1.121E-29 8.823E-30 7.003E-30 5.539E-30 4.171E-30 0.000E+00 1.926E-27 6.224E-28 2.849E-28 1.558E-28 9.491E-29 6.223E-29 4.302E-29 3.095E-29 2.296E-29 1.744E-29 1.349E-29 1.054E-29 8.224E-30 6.116E-30 0.000E+00 2.258E-27 7.350E-28 3.402E-28 1.877E-28 1.151E-28 7.583E-29 5.256E-29 3.785E-29 2.806E-29 2.126E-29 1.632E-29 1.253E-29 9.185E-30 0.000E+00 2.690E-27 8.822E-28 4.133E-28 2.301E-28 1.420E-28 9.385E-29 6.516E-29 4.690E-29 3.467E-29 2.607E-29 1.966E-29 1.418E-29 0.000E+00 3.264E-27 1.080E-27 5.118E-28 2.874E-28 1.782E-28 1.181E-28 8.200E-29 5.887E-29 4.320E-29 3.190E-29 2.258E-29 0.000E+00 4.049E-27 1.353E-27 6.482E-28 3.664E-28 2.281E-28 1.513E-28 1.048E-28 7.473E-29 5.384E-29 3.730E-29 0.000E+00 5.157E-27 1.741E-27 8.415E-28 4.783E-28 2.984E-28 1.976E-28 1.360E-28 9.525E-29 6.440E-29 0.000E+00 6.778E-27 2.309E-27 1.124E-27 6.411E-28 3.999E-28 2.635E-28 1.783E-28 1.172E-28 0.000E+00 9.251E-27 3.172E-27 1.552E-27 8.869E-28 5.513E-28 3.576E-28 2.273E-28 0.000E+00 1.321E-26 4.546E-27 2.233E-27 1.275E-27 7.820E-28 4.773E-28 0.000E+00 1.994E-26 6.876E-27 3.383E-27 1.914E-27 1.109E-27 0.000E+00 3.241E-26 1.117E-26 5.473E-27 2.943E-27 0.000E+00 5.853E-26 2.002E-26 9.414E-27 0.000E+00 1.246E-25 4.062E-26 0.000E+00 3.526E-25 4.211E-24
1.000E+06 1 1.000E+04 B 50 25
0.000E+00 7.866E-28 2.415E-28 1.039E-28 5.384E-29 3.142E-29 1.990E-29 1.339E-29 9.434E-30 6.893E-30 5.187E-30 3.998E-30 3.145E-30 2.517E-30 2.044E-30 1.681E-30 1.398E-30 1.173E-30 9.919E-31 8.437E-31 7.201E-31 6.143E-31 5.183E-31 4.140E-31 0.000E+00 8.636E-28 2.653E-28 1.141E-28 5.916E-29 3.453E-29 2.188E-29 1.472E-29 1.037E-29 7.579E-30 5.702E-30 4.395E-30 3.457E-30 2.766E-30 2.245E-30 1.846E-30 1.533E-30 1.285E-30 1.084E-30 9.185E-31 7.784E-31 6.528E-31 5.186E-31 0.000E+00 9.525E-28 2.927E-28 1.260E-28 6.532E-29 3.814E-29 2.417E-29 1.627E-29 1.146E-29 8.375E-30 6.301E-30 4.856E-30 3.819E-30 3.054E-30 2.478E-30 2.035E-30 1.688E-30 1.411E-30 1.186E-30 9.982E-31 8.318E-31 6.568E-31 0.000E+00 1.056E-27 3.248E-28 1.399E-28 7.257E-29 4.238E-29 2.687E-29 1.809E-29 1.275E-29 9.314E-30 7.007E-30 5.399E-30 4.245E-30 3.393E-30 2.751E-30 2.256E-30 1.868E-30 1.556E-30 1.299E-30 1.074E-30 8.428E-31 0.000E+00 1.180E-27 3.630E-28 1.564E-28 8.122E-29 4.746E-29 3.010E-29 2.027E-29 1.429E-29 1.044E-29 7.854E-30 6.051E-30 4.755E-30 3.798E-30 3.075E-30 2.517E-30 2.076E-30 1.718E-30 1.410E-30 1.098E-30 0.000E+00 1.328E-27 4.089E-28 1.764E-28 9.167E-29 5.361E-29 3.402E-29 2.292E-29 1.616E-29 1.181E-29 8.885E-30 6.843E-30 5.374E-30 4.288E-30 3.465E-30 2.827E-30 2.315E-30 1.884E-30 1.456E-30 0.000E+00 1.506E-27 4.644E-28 2.007E-28 1.044E-28 6.113E-29 3.883E-29 2.617E-29 1.846E-29 1.350E-29 1.015E-29 7.818E-30 6.134E-30 4.886E-30 3.935E-30 3.188E-30 2.569E-30 1.968E-30 0.000E+00 1.721E-27 5.319E-28 2.303E-28 1.201E-28 7.042E-29 4.478E-29 3.022E-29 2.133E-29 1.560E-29 1.173E-29 9.028E-30 7.073E-30 5.616E-30 4.494E-30 3.582E-30 2.718E-30 0.000E+00 1.983E-27 6.145E-28 2.669E-28 1.395E-28 8.200E-29 5.224E-29 3.530E-29 2.494E-29 1.824E-29 1.372E-29 1.055E-29 8.239E-30 6.501E-30 5.119E-30 3.845E-30 0.000E+00 2.302E-27 7.161E-28 3.124E-28 1.639E-28 9.662E-29 6.170E-29 4.177E-29 2.955E-29 2.163E-29 1.625E-29 1.246E-29 9.681E-30 7.520E-30 5.582E-30 0.000E+00 2.694E-27 8.423E-28 3.696E-28 1.950E-28 1.154E-28 7.394E-29 5.017E-29 3.554E-29 2.602E-29 1.952E-29 1.489E-29 1.139E-29 8.342E-30 0.000E+00 3.184E-27 1.002E-27 4.431E-28 2.353E-28 1.401E-28 9.009E-29 6.130E-29 4.347E-29 3.180E-29 2.375E-29 1.784E-29 1.287E-29 0.000E+00 3.811E-27 1.208E-27 5.398E-28 2.891E-28 1.732E-28 1.120E-28 7.637E-29 5.417E-29 3.946E-29 2.904E-29 2.058E-29 0.000E+00 4.639E-27 1.483E-27 6.709E-28 3.631E-28 2.192E-28 1.423E-28 9.720E-29 6.870E-29 4.933E-29 3.423E-29 0.000E+00 5.779E-27 1.863E-27 8.553E-28 4.682E-28 2.847E-28 1.854E-28 1.263E-28 8.800E-29 5.952E-29 0.000E+00 7.414E-27 2.413E-27 1.125E-27 6.229E-28 3.808E-28 2.476E-28 1.663E-28 1.091E-28 0.000E+00 9.867E-27 3.251E-27 1.539E-27 8.593E-28 5.254E-28 3.370E-28 2.129E-28 0.000E+00 1.377E-26 4.598E-27 2.203E-27 1.234E-27 7.452E-28 4.499E-28 0.000E+00 2.045E-26 6.902E-27 3.327E-27 1.846E-27 1.052E-27 0.000E+00 3.292E-26 1.115E-26 5.351E-27 2.814E-27 0.000E+00 5.917E-26 1.987E-26 9.093E-27 0.000E+00 1.255E-25 3.979E-26 0.000E+00 3.522E-25 4.281E-24
1.000E+07 1 1.000E+04 B 50 25
0.000E+00 9.376E-28 2.875E-28 1.235E-28 6.393E-29 3.727E-29 2.359E-29 1.586E-29 1.116E-29 8.149E-30 6.128E-30 4.720E-30 3.711E-30 2.968E-30 2.409E-30 1.980E-30 1.645E-30 1.380E-30 1.166E-30 9.911E-31 8.454E-31 7.206E-31 6.075E-31 4.846E-31 0.000E+00 1.043E-27 3.200E-28 1.374E-28 7.115E-29 4.147E-29 2.624E-29 1.764E-29 1.242E-29 9.064E-30 6.814E-30 5.248E-30 4.124E-30 3.297E-30 2.675E-30 2.197E-30 1.824E-30 1.527E-30 1.287E-30 1.090E-30 9.229E-31 7.732E-31 6.134E-31 0.000E+00 1.163E-27 3.567E-28 1.532E-28 7.930E-29 4.622E-29 2.925E-29 1.966E-29 1.383E-29 1.010E-29 7.589E-30 5.843E-30 4.590E-30 3.668E-30 2.973E-30 2.439E-30 2.022E-30 1.689E-30 1.418E-30 1.192E-30 9.922E-31 7.824E-31 0.000E+00 1.298E-27 3.982E-28 1.710E-28 8.852E-29 5.159E-29 3.264E-29 2.194E-29 1.544E-29 1.126E-29 8.462E-30 6.513E-30 5.114E-30 4.083E-30 3.307E-30 2.709E-30 2.240E-30 1.864E-30 1.554E-30 1.284E-30 1.006E-30 0.000E+00 1.451E-27 4.451E-28 1.912E-28 9.895E-29 5.767E-29 3.648E-29 2.451E-29 1.725E-29 1.258E-29 9.449E-30 7.268E-30 5.703E-30 4.549E-30 3.679E-30 3.007E-30 2.477E-30 2.046E-30 1.677E-30 1.304E-30 0.000E+00 1.625E-27 4.983E-28 2.141E-28 1.108E-28 6.457E-29 4.085E-29 2.744E-29 1.930E-29 1.407E-29 1.057E-29 8.123E-30 6.367E-30 5.072E-30 4.092E-30 3.332E-30 2.725E-30 2.213E-30 1.707E-30 0.000E+00 1.824E-27 5.593E-28 2.403E-28 1.244E-28 7.249E-29 4.585E-29 3.080E-29 2.166E-29 1.579E-29 1.184E-29 9.096E-30 7.121E-30 5.660E-30 4.549E-30 3.678E-30 2.957E-30 2.261E-30 0.000E+00 2.055E-27 6.306E-28 2.710E-28 1.403E-28 8.175E-29 5.171E-29 3.473E-29 2.441E-29 1.778E-29 1.333E-29 1.022E-29 7.987E-30 6.324E-30 5.047E-30 4.012E-30 3.037E-30 0.000E+00 2.334E-27 7.162E-28 3.078E-28 1.594E-28 9.289E-29 5.875E-29 3.945E-29 2.772E-29 2.018E-29 1.511E-29 1.156E-29 9.000E-30 7.076E-30 5.553E-30 4.157E-30 0.000E+00 2.678E-27 8.222E-28 3.536E-28 1.831E-28 1.068E-28 6.752E-29 4.533E-29 3.183E-29 2.314E-29 1.729E-29 1.319E-29 1.020E-29 7.884E-30 5.827E-30 0.000E+00 3.116E-27 9.575E-28 4.121E-28 2.136E-28 1.246E-28 7.878E-29 5.287E-29 3.709E-29 2.693E-29 2.006E-29 1.519E-29 1.155E-29 8.413E-30 0.000E+00 3.684E-27 1.133E-27 4.884E-28 2.534E-28 1.479E-28 9.357E-29 6.277E-29 4.398E-29 3.184E-29 2.356E-29 1.756E-29 1.258E-29 0.000E+00 4.427E-27 1.365E-27 5.894E-28 3.064E-28 1.790E-28 1.133E-28 7.598E-29 5.312E-29 3.823E-29 2.785E-29 1.957E-29 0.000E+00 5.409E-27 1.673E-27 7.251E-28 3.781E-28 2.214E-28 1.403E-28 9.393E-29 6.536E-29 4.635E-29 3.187E-29 0.000E+00 6.727E-27 2.090E-27 9.115E-28 4.776E-28 2.805E-28 1.779E-28 1.188E-28 8.157E-29 5.465E-29 0.000E+00 8.548E-27 2.673E-27 1.176E-27 6.207E-28 3.662E-28 2.321E-28 1.533E-28 9.960E-29 0.000E+00 1.119E-26 3.524E-27 1.570E-27 8.363E-28 4.951E-28 3.112E-28 1.948E-28 0.000E+00 1.527E-26 4.844E-27 2.192E-27 1.179E-27 6.946E-28 4.145E-28 0.000E+00 2.207E-26 7.062E-27 3.247E-27 1.747E-27 9.788E-28 0.000E+00 3.454E-26 1.118E-26 5.168E-27 2.649E-27 0.000E+00 6.072E-26 1.966E-26 8.685E-27 0.000E+00 1.272E-25 3.875E-26 0.000E+00 3.526E-25 4.343E-24
1.000E+08 1 1.000E+04 B 50 25
0.000E+00 1.000E-27 3.068E-28 1.317E-28 6.818E-29 3.974E-29 2.515E-29 1.690E-29 1.190E-29 8.685E-30 6.529E-30 5.029E-30 3.953E-30 3.162E-30 2.566E-30 2.109E-30 1.752E-30 1.469E-30 1.241E-30 1.055E-30 8.997E-31 7.667E-31 6.462E-31 5.153E-31 0.000E+00 1.128E-27 3.459E-28 1.485E-28 7.686E-29 4.479E-29 2.834E-29 1.905E-29 1.340E-29 9.783E-30 7.353E-30 5.662E-30 4.449E-30 3.557E-30 2.885E-30 2.369E-30 1.966E-30 1.646E-30 1.387E-30 1.174E-30 9.942E-31 8.327E-31 6.603E-31 0.000E+00 1.277E-27 3.916E-28 1.681E-28 8.701E-29 5.070E-29 3.207E-29 2.155E-29 1.516E-29 1.106E-29 8.313E-30 6.399E-30 5.026E-30 4.016E-30 3.254E-30 2.670E-30 2.212E-30 1.848E-30 1.551E-30 1.303E-30 1.084E-30 8.545E-31 0.000E+00 1.452E-27 4.452E-28 1.911E-28 9.890E-29 5.762E-29 3.644E-29 2.448E-29 1.722E-29 1.256E-29 9.437E-30 7.261E-30 5.700E-30 4.550E-30 3.683E-30 3.017E-30 2.494E-30 2.075E-30 1.729E-30 1.428E-30 1.118E-30 0.000E+00 1.658E-27 5.083E-28 2.182E-28 1.129E-28 6.576E-29 4.158E-29 2.793E-29 1.964E-29 1.432E-29 1.075E-29 8.269E-30 6.486E-30 5.172E-30 4.180E-30 3.416E-30 2.813E-30 2.322E-30 1.902E-30 1.478E-30 0.000E+00 1.901E-27 5.827E-28 2.501E-28 1.294E-28 7.534E-29 4.763E-29 3.198E-29 2.248E-29 1.639E-29 1.230E-29 9.449E-30 7.403E-30 5.894E-30 4.753E-30 3.868E-30 3.162E-30 2.566E-30 1.977E-30 0.000E+00 2.187E-27 6.703E-28 2.877E-28 1.488E-28 8.663E-29 5.476E-29 3.675E-29 2.583E-29 1.881E-29 1.411E-29 1.083E-29 8.470E-30 6.728E-30 5.404E-30 4.366E-30 3.507E-30 2.678E-30 0.000E+00 2.525E-27 7.736E-28 3.320E-28 1.716E-28 9.992E-29 6.313E-29 4.236E-29 2.975E-29 2.165E-29 1.622E-29 1.243E-29 9.701E-30 7.675E-30 6.119E-30 4.859E-30 3.673E-30 0.000E+00 2.920E-27 8.948E-28 3.839E-28 1.985E-28 1.155E-28 7.294E-29 4.891E-29 3.433E-29 2.496E-29 1.867E-29 1.427E-29 1.110E-29 8.715E-30 6.830E-30 5.104E-30 0.000E+00 3.383E-27 1.036E-27 4.446E-28 2.298E-28 1.337E-28 8.438E-29 5.654E-29 3.964E-29 2.878E-29 2.148E-29 1.636E-29 1.262E-29 9.747E-30 7.189E-30 0.000E+00 3.923E-27 1.202E-27 5.154E-28 2.663E-28 1.549E-28 9.769E-29 6.540E-29 4.579E-29 3.317E-29 2.466E-29 1.864E-29 1.415E-29 1.028E-29 0.000E+00 4.561E-27 1.397E-27 5.990E-28 3.094E-28 1.798E-28 1.133E-28 7.578E-29 5.294E-29 3.821E-29 2.820E-29 2.097E-29 1.497E-29 0.000E+00 5.340E-27 1.635E-27 7.012E-28 3.620E-28 2.103E-28 1.324E-28 8.833E-29 6.149E-29 4.407E-29 3.198E-29 2.239E-29 0.000E+00 6.353E-27 1.946E-27 8.342E-28 4.305E-28 2.498E-28 1.570E-28 1.044E-28 7.218E-29 5.088E-29 3.478E-29 0.000E+00 7.755E-27 2.376E-27 1.019E-27 5.256E-28 3.046E-28 1.909E-28 1.261E-28 8.578E-29 5.697E-29 0.000E+00 9.773E-27 2.996E-27 1.286E-27 6.631E-28 3.835E-28 2.390E-28 1.555E-28 9.973E-29 0.000E+00 1.275E-26 3.913E-27 1.682E-27 8.675E-28 4.998E-28 3.072E-28 1.888E-28 0.000E+00 1.728E-26 5.317E-27 2.293E-27 1.182E-27 6.743E-28 3.927E-28 0.000E+00 2.463E-26 7.592E-27 3.291E-27 1.689E-27 9.174E-28 0.000E+00 3.783E-26 1.162E-26 5.048E-27 2.486E-27 0.000E+00 6.487E-26 1.965E-26 8.246E-27 0.000E+00 1.317E-25 3.764E-26 0.000E+00 3.557E-25 4.451E-24
1.000E+02 1 1.250E+04 B 139 25
0.000E+00 3.482E-28 1.168E-28 5.590E-29 3.155E-29 1.965E-29 1.309E-29 9.166E-30 6.666E-30 4.997E-30 3.840E-30 3.012E-30 2.404E-30 1.947E-30 1.597E-30 1.324E-30 1.108E-30 9.343E-31 7.929E-31 6.760E-31 5.775E-31 4.924E-31 4.144E-31 3.292E-31 0.000E+00 3.923E-28 1.318E-28 6.315E-29 3.566E-29 2.222E-29 1.481E-29 1.037E-29 7.543E-30 5.654E-30 4.345E-30 3.407E-30 2.719E-30 2.201E-30 1.804E-30 1.495E-30 1.249E-30 1.052E-30 8.899E-31 7.552E-31 6.399E-31 5.354E-31 4.230E-31 0.000E+00 4.445E-28 1.496E-28 7.172E-29 4.053E-29 2.527E-29 1.684E-29 1.180E-29 8.579E-30 6.431E-30 4.941E-30 3.874E-30 3.090E-30 2.500E-30 2.048E-30 1.694E-30 1.414E-30 1.187E-30 9.998E-31 8.414E-31 6.997E-31 5.495E-31 0.000E+00 5.067E-28 1.707E-28 8.193E-29 4.632E-29 2.889E-29 1.926E-29 1.349E-29 9.813E-30 7.356E-30 5.651E-30 4.429E-30 3.531E-30 2.855E-30 2.336E-30 1.929E-30 1.605E-30 1.342E-30 1.121E-30 9.256E-31 7.223E-31 0.000E+00 5.816E-28 1.961E-28 9.418E-29 5.327E-29 3.323E-29 2.217E-29 1.553E-29 1.129E-29 8.466E-30 6.502E-30 5.094E-30 4.058E-30 3.278E-30 2.677E-30 2.206E-30 1.827E-30 1.514E-30 1.241E-30 9.618E-31 0.000E+00 6.723E-28 2.269E-28 1.090E-28 6.169E-29 3.850E-29 2.568E-29 1.799E-29 1.309E-29 9.810E-30 7.531E-30 5.898E-30 4.694E-30 3.785E-30 3.084E-30 2.529E-30 2.078E-30 1.689E-30 1.299E-30 0.000E+00 7.834E-28 2.645E-28 1.271E-28 7.198E-29 4.494E-29 2.999E-29 2.101E-29 1.528E-29 1.145E-29 8.788E-30 6.876E-30 5.465E-30 4.396E-30 3.566E-30 2.900E-30 2.338E-30 1.783E-30 0.000E+00 9.207E-28 3.109E-28 1.495E-28 8.470E-29 5.290E-29 3.531E-29 2.474E-29 1.800E-29 1.348E-29 1.034E-29 8.078E-30 6.405E-30 5.130E-30 4.127E-30 3.294E-30 2.489E-30 0.000E+00 1.092E-27 3.690E-28 1.776E-28 1.006E-28 6.287E-29 4.197E-29 2.942E-29 2.139E-29 1.601E-29 1.227E-29 9.564E-30 7.552E-30 6.001E-30 4.737E-30 3.544E-30 0.000E+00 1.310E-27 4.425E-28 2.131E-28 1.208E-28 7.552E-29 5.043E-29 3.534E-29 2.569E-29 1.922E-29 1.469E-29 1.141E-29 8.940E-30 6.971E-30 5.157E-30 0.000E+00 1.590E-27 5.371E-28 2.588E-28 1.468E-28 9.182E-29 6.133E-29 4.298E-29 3.122E-29 2.331E-29 1.776E-29 1.369E-29 1.053E-29 7.693E-30 0.000E+00 1.957E-27 6.609E-28 3.186E-28 1.809E-28 1.132E-28 7.563E-29 5.297E-29 3.843E-29 2.861E-29 2.164E-29 1.638E-29 1.180E-29 0.000E+00 2.447E-27 8.262E-28 3.986E-28 2.265E-28 1.418E-28 9.474E-29 6.631E-29 4.798E-29 3.548E-29 2.636E-29 1.870E-29 0.000E+00 3.116E-27 1.052E-27 5.080E-28 2.889E-28 1.810E-28 1.209E-28 8.443E-29 6.073E-29 4.416E-29 3.077E-29 0.000E+00 4.055E-27 1.369E-27 6.618E-28 3.768E-28 2.361E-28 1.575E-28 1.095E-28 7.752E-29 5.290E-29 0.000E+00 5.417E-27 1.828E-27 8.852E-28 5.046E-28 3.161E-28 2.101E-28 1.440E-28 9.585E-29 0.000E+00 7.475E-27 2.522E-27 1.223E-27 6.979E-28 4.363E-28 2.865E-28 1.850E-28 0.000E+00 1.074E-26 3.622E-27 1.760E-27 1.004E-27 6.220E-28 3.865E-28 0.000E+00 1.627E-26 5.481E-27 2.668E-27 1.514E-27 8.925E-28 0.000E+00 2.647E-26 8.899E-27 4.323E-27 2.354E-27 0.000E+00 4.777E-26 1.593E-26 7.495E-27 0.000E+00 1.014E-25 3.238E-26 0.000E+00 2.860E-25 2.375E-24
1.000E+03 1 1.250E+04 B 98 25
0.000E+00 3.720E-28 1.211E-28 5.661E-29 3.150E-29 1.944E-29 1.288E-29 8.979E-30 6.510E-30 4.869E-30 3.734E-30 2.925E-30 2.331E-30 1.886E-30 1.546E-30 1.281E-30 1.071E-30 9.032E-31 7.664E-31 6.535E-31 5.585E-31 4.765E-31 4.016E-31 3.197E-31 0.000E+00 4.150E-28 1.356E-28 6.372E-29 3.557E-29 2.200E-29 1.459E-29 1.018E-29 7.386E-30 5.525E-30 4.238E-30 3.318E-30 2.644E-30 2.138E-30 1.751E-30 1.449E-30 1.211E-30 1.019E-30 8.619E-31 7.315E-31 6.200E-31 5.194E-31 4.111E-31 0.000E+00 4.658E-28 1.530E-28 7.217E-29 4.040E-29 2.503E-29 1.662E-29 1.160E-29 8.421E-30 6.300E-30 4.832E-30 3.783E-30 3.013E-30 2.435E-30 1.992E-30 1.646E-30 1.372E-30 1.151E-30 9.697E-31 8.162E-31 6.792E-31 5.344E-31 0.000E+00 5.265E-28 1.737E-28 8.228E-29 4.616E-29 2.865E-29 1.904E-29 1.330E-29 9.653E-30 7.222E-30 5.538E-30 4.334E-30 3.449E-30 2.785E-30 2.275E-30 1.877E-30 1.560E-30 1.303E-30 1.088E-30 8.992E-31 7.027E-31 0.000E+00 5.995E-28 1.987E-28 9.445E-29 5.310E-29 3.300E-29 2.194E-29 1.533E-29 1.113E-29 8.327E-30 6.383E-30 4.992E-30 3.970E-30 3.201E-30 2.611E-30 2.148E-30 1.777E-30 1.472E-30 1.207E-30 9.361E-31 0.000E+00 6.883E-28 2.291E-28 1.092E-28 6.151E-29 3.826E-29 2.546E-29 1.780E-29 1.292E-29 9.662E-30 7.403E-30 5.786E-30 4.596E-30 3.699E-30 3.008E-30 2.464E-30 2.022E-30 1.643E-30 1.265E-30 0.000E+00 7.974E-28 2.664E-28 1.273E-28 7.180E-29 4.470E-29 2.976E-29 2.080E-29 1.510E-29 1.129E-29 8.646E-30 6.750E-30 5.353E-30 4.297E-30 3.479E-30 2.825E-30 2.275E-30 1.736E-30 0.000E+00 9.329E-28 3.126E-28 1.497E-28 8.452E-29 5.266E-29 3.507E-29 2.452E-29 1.780E-29 1.330E-29 1.017E-29 7.931E-30 6.273E-30 5.013E-30 4.025E-30 3.208E-30 2.424E-30 0.000E+00 1.103E-27 3.705E-28 1.777E-28 1.004E-28 6.261E-29 4.171E-29 2.917E-29 2.116E-29 1.580E-29 1.207E-29 9.388E-30 7.393E-30 5.860E-30 4.617E-30 3.453E-30 0.000E+00 1.319E-27 4.439E-28 2.132E-28 1.206E-28 7.523E-29 5.013E-29 3.505E-29 2.542E-29 1.896E-29 1.445E-29 1.119E-29 8.742E-30 6.800E-30 5.026E-30 0.000E+00 1.598E-27 5.385E-28 2.589E-28 1.466E-28 9.148E-29 6.097E-29 4.262E-29 3.088E-29 2.299E-29 1.745E-29 1.341E-29 1.028E-29 7.499E-30 0.000E+00 1.964E-27 6.623E-28 3.187E-28 1.806E-28 1.128E-28 7.517E-29 5.252E-29 3.799E-29 2.818E-29 2.123E-29 1.601E-29 1.151E-29 0.000E+00 2.454E-27 8.276E-28 3.987E-28 2.261E-28 1.413E-28 9.414E-29 6.569E-29 4.737E-29 3.488E-29 2.581E-29 1.825E-29 0.000E+00 3.123E-27 1.053E-27 5.080E-28 2.884E-28 1.802E-28 1.200E-28 8.356E-29 5.985E-29 4.331E-29 3.005E-29 0.000E+00 4.063E-27 1.371E-27 6.617E-28 3.760E-28 2.350E-28 1.563E-28 1.081E-28 7.618E-29 5.171E-29 0.000E+00 5.427E-27 1.831E-27 8.849E-28 5.033E-28 3.144E-28 2.081E-28 1.418E-28 9.381E-29 0.000E+00 7.487E-27 2.525E-27 1.222E-27 6.957E-28 4.333E-28 2.830E-28 1.814E-28 0.000E+00 1.076E-26 3.625E-27 1.758E-27 9.998E-28 6.161E-28 3.798E-28 0.000E+00 1.629E-26 5.485E-27 2.663E-27 1.504E-27 8.792E-28 0.000E+00 2.651E-26 8.900E-27 4.307E-27 2.326E-27 0.000E+00 4.784E-26 1.592E-26 7.432E-27 0.000E+00 1.015E-25 3.223E-26 0.000E+00 2.858E-25 2.628E-24
1.000E+04 1 1.250E+04 B 65 25
0.000E+00 4.306E-28 1.362E-28 6.080E-29 3.258E-29 1.955E-29 1.268E-29 8.703E-30 6.235E-30 4.621E-30 3.520E-30 2.743E-30 2.178E-30 1.757E-30 1.437E-30 1.190E-30 9.945E-31 8.386E-31 7.121E-31 6.080E-31 5.206E-31 4.453E-31 3.765E-31 3.011E-31 0.000E+00 4.757E-28 1.510E-28 6.778E-29 3.649E-29 2.199E-29 1.430E-29 9.839E-30 7.061E-30 5.241E-30 3.996E-30 3.116E-30 2.475E-30 1.997E-30 1.634E-30 1.351E-30 1.129E-30 9.505E-31 8.053E-31 6.848E-31 5.819E-31 4.890E-31 3.887E-31 0.000E+00 5.284E-28 1.683E-28 7.599E-29 4.113E-29 2.488E-29 1.624E-29 1.119E-29 8.048E-30 5.981E-30 4.564E-30 3.561E-30 2.829E-30 2.283E-30 1.866E-30 1.543E-30 1.287E-30 1.081E-30 9.118E-31 7.693E-31 6.422E-31 5.073E-31 0.000E+00 5.905E-28 1.887E-28 8.576E-29 4.666E-29 2.835E-29 1.856E-29 1.282E-29 9.234E-30 6.870E-30 5.247E-30 4.094E-30 3.253E-30 2.624E-30 2.143E-30 1.768E-30 1.471E-30 1.231E-30 1.030E-30 8.535E-31 6.695E-31 0.000E+00 6.645E-28 2.131E-28 9.749E-29 5.335E-29 3.254E-29 2.136E-29 1.480E-29 1.067E-29 7.945E-30 6.070E-30 4.737E-30 3.762E-30 3.031E-30 2.472E-30 2.035E-30 1.685E-30 1.398E-30 1.149E-30 8.947E-31 0.000E+00 7.536E-28 2.425E-28 1.117E-28 6.149E-29 3.766E-29 2.480E-29 1.720E-29 1.242E-29 9.254E-30 7.071E-30 5.516E-30 4.376E-30 3.521E-30 2.863E-30 2.346E-30 1.927E-30 1.570E-30 1.212E-30 0.000E+00 8.620E-28 2.786E-28 1.293E-28 7.153E-29 4.397E-29 2.902E-29 2.016E-29 1.457E-29 1.086E-29 8.295E-30 6.464E-30 5.120E-30 4.108E-30 3.326E-30 2.702E-30 2.179E-30 1.667E-30 0.000E+00 9.953E-28 3.234E-28 1.511E-28 8.403E-29 5.182E-29 3.427E-29 2.384E-29 1.723E-29 1.284E-29 9.800E-30 7.625E-30 6.024E-30 4.810E-30 3.862E-30 3.080E-30 2.332E-30 0.000E+00 1.162E-27 3.797E-28 1.786E-28 9.976E-29 6.169E-29 4.086E-29 2.845E-29 2.056E-29 1.531E-29 1.167E-29 9.054E-30 7.120E-30 5.638E-30 4.442E-30 3.326E-30 0.000E+00 1.373E-27 4.517E-28 2.137E-28 1.198E-28 7.425E-29 4.923E-29 3.428E-29 2.477E-29 1.842E-29 1.400E-29 1.082E-29 8.434E-30 6.554E-30 4.847E-30 0.000E+00 1.646E-27 5.450E-28 2.591E-28 1.457E-28 9.043E-29 6.000E-29 4.177E-29 3.015E-29 2.237E-29 1.693E-29 1.297E-29 9.926E-30 7.239E-30 0.000E+00 2.005E-27 6.677E-28 3.188E-28 1.796E-28 1.116E-28 7.408E-29 5.154E-29 3.713E-29 2.743E-29 2.060E-29 1.549E-29 1.112E-29 0.000E+00 2.488E-27 8.322E-28 3.985E-28 2.250E-28 1.399E-28 9.285E-29 6.450E-29 4.630E-29 3.394E-29 2.501E-29 1.765E-29 0.000E+00 3.152E-27 1.058E-27 5.077E-28 2.870E-28 1.786E-28 1.184E-28 8.199E-29 5.843E-29 4.206E-29 2.908E-29 0.000E+00 4.089E-27 1.375E-27 6.611E-28 3.741E-28 2.328E-28 1.540E-28 1.059E-28 7.418E-29 5.010E-29 0.000E+00 5.453E-27 1.834E-27 8.838E-28 5.006E-28 3.111E-28 2.047E-28 1.385E-28 9.102E-29 0.000E+00 7.515E-27 2.529E-27 1.220E-27 6.912E-28 4.279E-28 2.773E-28 1.764E-28 0.000E+00 1.079E-26 3.630E-27 1.754E-27 9.917E-28 6.063E-28 3.701E-28 0.000E+00 1.634E-26 5.489E-27 2.652E-27 1.487E-27 8.595E-28 0.000E+00 2.659E-26 8.900E-27 4.279E-27 2.283E-27 0.000E+00 4.797E-26 1.589E-26 7.332E-27 0.000E+00 1.017E-25 3.199E-26 0.000E+00 2.855E-25 3.224E-24
1.000E+05 1 1.250E+04 B 50 25
0.000E+00 5.017E-28 1.550E-28 6.712E-29 3.500E-29 2.054E-29 1.307E-29 8.833E-30 6.247E-30 4.579E-30 3.455E-30 2.671E-30 2.106E-30 1.689E-30 1.375E-30 1.133E-30 9.433E-31 7.928E-31 6.714E-31 5.719E-31 4.888E-31 4.175E-31 3.527E-31 2.821E-31 0.000E+00 5.567E-28 1.723E-28 7.475E-29 3.905E-29 2.295E-29 1.463E-29 9.892E-30 7.001E-30 5.136E-30 3.878E-30 2.999E-30 2.365E-30 1.897E-30 1.544E-30 1.272E-30 1.059E-30 8.886E-31 7.511E-31 6.375E-31 5.411E-31 4.545E-31 3.615E-31 0.000E+00 6.201E-28 1.923E-28 8.364E-29 4.380E-29 2.578E-29 1.646E-29 1.115E-29 7.898E-30 5.798E-30 4.381E-30 3.389E-30 2.674E-30 2.145E-30 1.746E-30 1.437E-30 1.195E-30 1.001E-30 8.435E-31 7.110E-31 5.935E-31 4.694E-31 0.000E+00 6.934E-28 2.156E-28 9.407E-29 4.939E-29 2.915E-29 1.864E-29 1.265E-29 8.971E-30 6.593E-30 4.986E-30 3.859E-30 3.046E-30 2.444E-30 1.988E-30 1.635E-30 1.357E-30 1.134E-30 9.482E-31 7.861E-31 6.178E-31 0.000E+00 7.787E-28 2.429E-28 1.064E-28 5.605E-29 3.317E-29 2.127E-29 1.445E-29 1.027E-29 7.557E-30 5.720E-30 4.430E-30 3.497E-30 2.806E-30 2.280E-30 1.873E-30 1.549E-30 1.285E-30 1.057E-30 8.253E-31 0.000E+00 8.788E-28 2.750E-28 1.210E-28 6.405E-29 3.804E-29 2.445E-29 1.666E-29 1.186E-29 8.737E-30 6.619E-30 5.129E-30 4.050E-30 3.247E-30 2.635E-30 2.157E-30 1.773E-30 1.446E-30 1.120E-30 0.000E+00 9.974E-28 3.134E-28 1.387E-28 7.377E-29 4.399E-29 2.838E-29 1.938E-29 1.382E-29 1.020E-29 7.732E-30 5.994E-30 4.731E-30 3.787E-30 3.064E-30 2.491E-30 2.013E-30 1.546E-30 0.000E+00 1.140E-27 3.598E-28 1.603E-28 8.577E-29 5.139E-29 3.327E-29 2.278E-29 1.628E-29 1.203E-29 9.125E-30 7.072E-30 5.574E-30 4.449E-30 3.574E-30 2.858E-30 2.173E-30 0.000E+00 1.315E-27 4.169E-28 1.872E-28 1.008E-28 6.070E-29 3.945E-29 2.709E-29 1.939E-29 1.434E-29 1.088E-29 8.423E-30 6.618E-30 5.245E-30 4.142E-30 3.115E-30 0.000E+00 1.534E-27 4.882E-28 2.211E-28 1.199E-28 7.261E-29 4.737E-29 3.261E-29 2.338E-29 1.730E-29 1.311E-29 1.011E-29 7.890E-30 6.144E-30 4.562E-30 0.000E+00 1.813E-27 5.794E-28 2.648E-28 1.447E-28 8.812E-29 5.770E-29 3.980E-29 2.855E-29 2.110E-29 1.594E-29 1.221E-29 9.354E-30 6.845E-30 0.000E+00 2.174E-27 6.985E-28 3.224E-28 1.776E-28 1.086E-28 7.134E-29 4.927E-29 3.532E-29 2.601E-29 1.950E-29 1.467E-29 1.056E-29 0.000E+00 2.653E-27 8.582E-28 4.001E-28 2.219E-28 1.363E-28 8.967E-29 6.190E-29 4.423E-29 3.233E-29 2.380E-29 1.680E-29 0.000E+00 3.306E-27 1.078E-27 5.073E-28 2.829E-28 1.743E-28 1.147E-28 7.896E-29 5.601E-29 4.020E-29 2.776E-29 0.000E+00 4.225E-27 1.391E-27 6.591E-28 3.691E-28 2.277E-28 1.495E-28 1.022E-28 7.120E-29 4.795E-29 0.000E+00 5.568E-27 1.847E-27 8.803E-28 4.941E-28 3.045E-28 1.988E-28 1.336E-28 8.731E-29 0.000E+00 7.614E-27 2.539E-27 1.214E-27 6.821E-28 4.185E-28 2.688E-28 1.696E-28 0.000E+00 1.088E-26 3.638E-27 1.744E-27 9.769E-28 5.910E-28 3.569E-28 0.000E+00 1.644E-26 5.494E-27 2.632E-27 1.459E-27 8.321E-28 0.000E+00 2.673E-26 8.893E-27 4.229E-27 2.222E-27 0.000E+00 4.819E-26 1.583E-26 7.182E-27 0.000E+00 1.021E-25 3.161E-26 0.000E+00 2.852E-25 3.482E-24
1.000E+06 1 1.250E+04 B 50 25
0.000E+00 5.788E-28 1.777E-28 7.642E-29 3.960E-29 2.311E-29 1.464E-29 9.847E-30 6.937E-30 5.068E-30 3.813E-30 2.939E-30 2.312E-30 1.850E-30 1.503E-30 1.236E-30 1.027E-30 8.621E-31 7.289E-31 6.199E-31 5.291E-31 4.513E-31 3.808E-31 3.041E-31 0.000E+00 6.384E-28 1.960E-28 8.433E-29 4.371E-29 2.551E-29 1.616E-29 1.087E-29 7.660E-30 5.596E-30 4.210E-30 3.245E-30 2.552E-30 2.042E-30 1.657E-30 1.362E-30 1.131E-30 9.480E-31 7.997E-31 6.776E-31 5.742E-31 4.815E-31 3.824E-31 0.000E+00 7.075E-28 2.173E-28 9.351E-29 4.848E-29 2.830E-29 1.793E-29 1.207E-29 8.502E-30 6.211E-30 4.673E-30 3.601E-30 2.831E-30 2.264E-30 1.837E-30 1.508E-30 1.251E-30 1.046E-30 8.791E-31 7.395E-31 6.161E-31 4.864E-31 0.000E+00 7.885E-28 2.423E-28 1.043E-28 5.411E-29 3.160E-29 2.003E-29 1.348E-29 9.497E-30 6.938E-30 5.219E-30 4.021E-30 3.161E-30 2.526E-30 2.048E-30 1.679E-30 1.390E-30 1.158E-30 9.660E-31 7.990E-31 6.267E-31 0.000E+00 8.849E-28 2.721E-28 1.172E-28 6.083E-29 3.554E-29 2.253E-29 1.517E-29 1.069E-29 7.810E-30 5.874E-30 4.525E-30 3.555E-30 2.839E-30 2.298E-30 1.881E-30 1.551E-30 1.283E-30 1.053E-30 8.198E-31 0.000E+00 1.000E-27 3.079E-28 1.327E-28 6.895E-29 4.031E-29 2.557E-29 1.722E-29 1.214E-29 8.869E-30 6.670E-30 5.136E-30 4.032E-30 3.217E-30 2.599E-30 2.119E-30 1.736E-30 1.412E-30 1.091E-30 0.000E+00 1.140E-27 3.512E-28 1.516E-28 7.885E-29 4.614E-29 2.929E-29 1.974E-29 1.392E-29 1.017E-29 7.647E-30 5.886E-30 4.617E-30 3.676E-30 2.960E-30 2.397E-30 1.931E-30 1.479E-30 0.000E+00 1.309E-27 4.040E-28 1.747E-28 9.102E-29 5.333E-29 3.389E-29 2.285E-29 1.612E-29 1.179E-29 8.861E-30 6.815E-30 5.336E-30 4.236E-30 3.388E-30 2.699E-30 2.047E-30 0.000E+00 1.516E-27 4.687E-28 2.033E-28 1.061E-28 6.230E-29 3.965E-29 2.677E-29 1.890E-29 1.382E-29 1.038E-29 7.976E-30 6.227E-30 4.911E-30 3.865E-30 2.900E-30 0.000E+00 1.770E-27 5.488E-28 2.388E-28 1.251E-28 7.362E-29 4.695E-29 3.174E-29 2.243E-29 1.640E-29 1.232E-29 9.438E-30 7.324E-30 5.685E-30 4.216E-30 0.000E+00 2.085E-27 6.489E-28 2.838E-28 1.493E-28 8.817E-29 5.638E-29 3.819E-29 2.701E-29 1.975E-29 1.480E-29 1.128E-29 8.615E-30 6.303E-30 0.000E+00 2.484E-27 7.762E-28 3.416E-28 1.807E-28 1.072E-28 6.880E-29 4.670E-29 3.305E-29 2.413E-29 1.799E-29 1.350E-29 9.724E-30 0.000E+00 2.999E-27 9.417E-28 4.179E-28 2.226E-28 1.328E-28 8.554E-29 5.817E-29 4.115E-29 2.991E-29 2.197E-29 1.553E-29 0.000E+00 3.688E-27 1.163E-27 5.213E-28 2.801E-28 1.681E-28 1.087E-28 7.394E-29 5.209E-29 3.729E-29 2.581E-29 0.000E+00 4.639E-27 1.470E-27 6.665E-28 3.615E-28 2.183E-28 1.413E-28 9.583E-29 6.652E-29 4.484E-29 0.000E+00 6.002E-27 1.913E-27 8.788E-28 4.810E-28 2.915E-28 1.883E-28 1.258E-28 8.213E-29 0.000E+00 8.039E-27 2.586E-27 1.203E-27 6.628E-28 4.012E-28 2.554E-28 1.604E-28 0.000E+00 1.127E-26 3.666E-27 1.721E-27 9.491E-28 5.669E-28 3.393E-28 0.000E+00 1.678E-26 5.503E-27 2.593E-27 1.414E-27 7.955E-28 0.000E+00 2.704E-26 8.875E-27 4.148E-27 2.138E-27 0.000E+00 4.857E-26 1.572E-26 6.974E-27 0.000E+00 1.026E-25 3.107E-26 0.000E+00 2.849E-25 3.537E-24
1.000E+07 1 1.250E+04 B 50 25
0.000E+00 6.735E-28 2.065E-28 8.872E-29 4.593E-29 2.677E-29 1.694E-29 1.139E-29 8.018E-30 5.854E-30 4.401E-30 3.391E-30 2.666E-30 2.132E-30 1.730E-30 1.422E-30 1.182E-30 9.911E-31 8.375E-31 7.118E-31 6.072E-31 5.175E-31 4.363E-31 3.480E-31 0.000E+00 7.509E-28 2.303E-28 9.891E-29 5.120E-29 2.984E-29 1.888E-29 1.269E-29 8.935E-30 6.522E-30 4.903E-30 3.776E-30 2.967E-30 2.372E-30 1.925E-30 1.581E-30 1.312E-30 1.099E-30 9.262E-31 7.842E-31 6.639E-31 5.563E-31 4.413E-31 0.000E+00 8.389E-28 2.573E-28 1.105E-28 5.720E-29 3.334E-29 2.109E-29 1.418E-29 9.977E-30 7.282E-30 5.472E-30 4.213E-30 3.310E-30 2.645E-30 2.144E-30 1.759E-30 1.458E-30 1.218E-30 1.023E-30 8.595E-31 7.154E-31 5.640E-31 0.000E+00 9.393E-28 2.880E-28 1.237E-28 6.403E-29 3.732E-29 2.361E-29 1.587E-29 1.116E-29 8.146E-30 6.120E-30 4.710E-30 3.698E-30 2.953E-30 2.391E-30 1.959E-30 1.620E-30 1.348E-30 1.124E-30 9.284E-31 7.272E-31 0.000E+00 1.054E-27 3.232E-28 1.388E-28 7.185E-29 4.187E-29 2.649E-29 1.780E-29 1.252E-29 9.133E-30 6.859E-30 5.276E-30 4.140E-30 3.302E-30 2.670E-30 2.183E-30 1.798E-30 1.485E-30 1.217E-30 9.463E-31 0.000E+00 1.185E-27 3.636E-28 1.562E-28 8.082E-29 4.710E-29 2.979E-29 2.001E-29 1.408E-29 1.026E-29 7.706E-30 5.923E-30 4.643E-30 3.698E-30 2.984E-30 2.429E-30 1.987E-30 1.613E-30 1.244E-30 0.000E+00 1.338E-27 4.104E-28 1.763E-28 9.125E-29 5.317E-29 3.363E-29 2.259E-29 1.588E-29 1.158E-29 8.685E-30 6.670E-30 5.221E-30 4.149E-30 3.335E-30 2.696E-30 2.167E-30 1.657E-30 0.000E+00 1.518E-27 4.657E-28 2.001E-28 1.036E-28 6.035E-29 3.817E-29 2.563E-29 1.801E-29 1.312E-29 9.836E-30 7.544E-30 5.892E-30 4.665E-30 3.723E-30 2.959E-30 2.240E-30 0.000E+00 1.736E-27 5.327E-28 2.289E-28 1.185E-28 6.906E-29 4.367E-29 2.932E-29 2.060E-29 1.499E-29 1.122E-29 8.589E-30 6.684E-30 5.254E-30 4.123E-30 3.085E-30 0.000E+00 2.007E-27 6.160E-28 2.648E-28 1.371E-28 7.991E-29 5.053E-29 3.391E-29 2.381E-29 1.731E-29 1.293E-29 9.862E-30 7.621E-30 5.892E-30 4.353E-30 0.000E+00 2.352E-27 7.223E-28 3.107E-28 1.610E-28 9.383E-29 5.933E-29 3.980E-29 2.792E-29 2.026E-29 1.509E-29 1.143E-29 8.684E-30 6.323E-30 0.000E+00 2.799E-27 8.604E-28 3.705E-28 1.921E-28 1.121E-28 7.086E-29 4.751E-29 3.328E-29 2.408E-29 1.781E-29 1.327E-29 9.502E-30 0.000E+00 3.387E-27 1.042E-27 4.497E-28 2.335E-28 1.363E-28 8.623E-29 5.778E-29 4.037E-29 2.903E-29 2.114E-29 1.485E-29 0.000E+00 4.168E-27 1.286E-27 5.563E-28 2.896E-28 1.693E-28 1.071E-28 7.168E-29 4.982E-29 3.530E-29 2.424E-29 0.000E+00 5.227E-27 1.617E-27 7.029E-28 3.674E-28 2.153E-28 1.363E-28 9.083E-29 6.227E-29 4.166E-29 0.000E+00 6.709E-27 2.083E-27 9.115E-28 4.791E-28 2.816E-28 1.780E-28 1.172E-28 7.598E-29 0.000E+00 8.882E-27 2.765E-27 1.222E-27 6.467E-28 3.809E-28 2.384E-28 1.486E-28 0.000E+00 1.226E-26 3.825E-27 1.710E-27 9.111E-28 5.331E-28 3.162E-28 0.000E+00 1.789E-26 5.599E-27 2.534E-27 1.347E-27 7.474E-28 0.000E+00 2.814E-26 8.872E-27 4.020E-27 2.029E-27 0.000E+00 4.957E-26 1.556E-26 6.703E-27 0.000E+00 1.036E-25 3.036E-26 0.000E+00 2.849E-25 3.577E-24
1.000E+08 1 1.250E+04 B 50 25
0.000E+00 7.134E-28 2.188E-28 9.395E-29 4.862E-29 2.834E-29 1.793E-29 1.205E-29 8.484E-30 6.193E-30 4.656E-30 3.587E-30 2.819E-30 2.255E-30 1.830E-30 1.504E-30 1.249E-30 1.048E-30 8.852E-31 7.523E-31 6.416E-31 5.468E-31 4.608E-31 3.675E-31 0.000E+00 8.045E-28 2.467E-28 1.059E-28 5.482E-29 3.194E-29 2.021E-29 1.358E-29 9.559E-30 6.977E-30 5.244E-30 4.038E-30 3.173E-30 2.536E-30 2.057E-30 1.689E-30 1.402E-30 1.174E-30 9.894E-31 8.376E-31 7.090E-31 5.938E-31 4.709E-31 0.000E+00 9.110E-28 2.793E-28 1.199E-28 6.206E-29 3.616E-29 2.288E-29 1.537E-29 1.082E-29 7.891E-30 5.930E-30 4.564E-30 3.585E-30 2.864E-30 2.321E-30 1.904E-30 1.578E-30 1.318E-30 1.106E-30 9.296E-31 7.734E-31 6.095E-31 0.000E+00 1.036E-27 3.176E-28 1.364E-28 7.056E-29 4.111E-29 2.600E-29 1.747E-29 1.229E-29 8.963E-30 6.733E-30 5.180E-30 4.066E-30 3.246E-30 2.628E-30 2.152E-30 1.779E-30 1.480E-30 1.233E-30 1.019E-30 7.973E-31 0.000E+00 1.184E-27 3.628E-28 1.558E-28 8.058E-29 4.694E-29 2.968E-29 1.994E-29 1.402E-29 1.022E-29 7.676E-30 5.902E-30 4.630E-30 3.692E-30 2.984E-30 2.438E-30 2.008E-30 1.658E-30 1.358E-30 1.055E-30 0.000E+00 1.358E-27 4.163E-28 1.787E-28 9.243E-29 5.383E-29 3.403E-29 2.285E-29 1.606E-29 1.171E-29 8.785E-30 6.750E-30 5.289E-30 4.211E-30 3.396E-30 2.764E-30 2.259E-30 1.833E-30 1.413E-30 0.000E+00 1.565E-27 4.796E-28 2.058E-28 1.064E-28 6.198E-29 3.917E-29 2.629E-29 1.848E-29 1.346E-29 1.009E-29 7.745E-30 6.059E-30 4.813E-30 3.866E-30 3.123E-30 2.509E-30 1.916E-30 0.000E+00 1.810E-27 5.546E-28 2.380E-28 1.231E-28 7.163E-29 4.526E-29 3.037E-29 2.133E-29 1.552E-29 1.163E-29 8.910E-30 6.954E-30 5.502E-30 4.386E-30 3.483E-30 2.633E-30 0.000E+00 2.100E-27 6.435E-28 2.761E-28 1.427E-28 8.305E-29 5.246E-29 3.517E-29 2.468E-29 1.795E-29 1.342E-29 1.026E-29 7.979E-30 6.266E-30 4.911E-30 3.669E-30 0.000E+00 2.445E-27 7.488E-28 3.212E-28 1.660E-28 9.656E-29 6.096E-29 4.085E-29 2.864E-29 2.079E-29 1.551E-29 1.182E-29 9.118E-30 7.039E-30 5.192E-30 0.000E+00 2.853E-27 8.739E-28 3.748E-28 1.936E-28 1.126E-28 7.103E-29 4.755E-29 3.329E-29 2.411E-29 1.792E-29 1.355E-29 1.028E-29 7.471E-30 0.000E+00 3.345E-27 1.024E-27 4.393E-28 2.269E-28 1.318E-28 8.310E-29 5.555E-29 3.881E-29 2.801E-29 2.067E-29 1.536E-29 1.097E-29 0.000E+00 3.957E-27 1.212E-27 5.194E-28 2.682E-28 1.557E-28 9.803E-29 6.540E-29 4.552E-29 3.262E-29 2.367E-29 1.656E-29 0.000E+00 4.760E-27 1.457E-27 6.246E-28 3.223E-28 1.870E-28 1.175E-28 7.810E-29 5.398E-29 3.804E-29 2.600E-29 0.000E+00 5.871E-27 1.798E-27 7.704E-28 3.973E-28 2.302E-28 1.442E-28 9.522E-29 6.475E-29 4.299E-29 0.000E+00 7.472E-27 2.288E-27 9.808E-28 5.055E-28 2.922E-28 1.819E-28 1.183E-28 7.583E-29 0.000E+00 9.839E-27 3.014E-27 1.293E-27 6.661E-28 3.833E-28 2.353E-28 1.444E-28 0.000E+00 1.348E-26 4.130E-27 1.775E-27 9.130E-28 5.194E-28 3.018E-28 0.000E+00 1.946E-26 5.947E-27 2.561E-27 1.308E-27 7.071E-28 0.000E+00 3.028E-26 9.156E-27 3.934E-27 1.920E-27 0.000E+00 5.238E-26 1.552E-26 6.401E-27 0.000E+00 1.065E-25 2.957E-26 0.000E+00 2.865E-25 3.645E-24
1.000E+02 1 1.500E+04 B 139 25
0.000E+00 2.949E-28 9.696E-29 4.568E-29 2.548E-29 1.573E-29 1.041E-29 7.246E-30 5.246E-30 3.918E-30 3.002E-30 2.349E-30 1.870E-30 1.512E-30 1.238E-30 1.025E-30 8.571E-31 7.222E-31 6.124E-31 5.218E-31 4.456E-31 3.798E-31 3.196E-31 2.539E-31 0.000E+00 3.323E-28 1.095E-28 5.161E-29 2.880E-29 1.779E-29 1.177E-29 8.197E-30 5.935E-30 4.432E-30 3.395E-30 2.656E-30 2.114E-30 1.709E-30 1.399E-30 1.157E-30 9.660E-31 8.125E-31 6.871E-31 5.828E-31 4.936E-31 4.130E-31 3.263E-31 0.000E+00 3.767E-28 1.242E-28 5.863E-29 3.273E-29 2.022E-29 1.339E-29 9.321E-30 6.748E-30 5.040E-30 3.860E-30 3.019E-30 2.402E-30 1.940E-30 1.587E-30 1.311E-30 1.093E-30 9.166E-31 7.717E-31 6.491E-31 5.396E-31 4.238E-31 0.000E+00 4.297E-28 1.419E-28 6.698E-29 3.741E-29 2.312E-29 1.531E-29 1.066E-29 7.717E-30 5.763E-30 4.413E-30 3.450E-30 2.744E-30 2.215E-30 1.809E-30 1.492E-30 1.240E-30 1.036E-30 8.647E-31 7.140E-31 5.571E-31 0.000E+00 4.934E-28 1.630E-28 7.701E-29 4.303E-29 2.659E-29 1.761E-29 1.226E-29 8.879E-30 6.630E-30 5.075E-30 3.966E-30 3.153E-30 2.542E-30 2.073E-30 1.705E-30 1.411E-30 1.168E-30 9.575E-31 7.418E-31 0.000E+00 5.706E-28 1.886E-28 8.914E-29 4.983E-29 3.080E-29 2.040E-29 1.421E-29 1.029E-29 7.679E-30 5.876E-30 4.589E-30 3.644E-30 2.933E-30 2.386E-30 1.954E-30 1.604E-30 1.303E-30 1.002E-30 0.000E+00 6.651E-28 2.199E-28 1.040E-28 5.814E-29 3.595E-29 2.381E-29 1.658E-29 1.201E-29 8.960E-30 6.853E-30 5.347E-30 4.240E-30 3.404E-30 2.757E-30 2.240E-30 1.804E-30 1.375E-30 0.000E+00 7.819E-28 2.586E-28 1.223E-28 6.841E-29 4.231E-29 2.803E-29 1.952E-29 1.413E-29 1.054E-29 8.056E-30 6.277E-30 4.965E-30 3.970E-30 3.189E-30 2.542E-30 1.920E-30 0.000E+00 9.281E-28 3.069E-28 1.452E-28 8.125E-29 5.027E-29 3.330E-29 2.320E-29 1.678E-29 1.251E-29 9.552E-30 7.426E-30 5.850E-30 4.639E-30 3.657E-30 2.734E-30 0.000E+00 1.114E-27 3.682E-28 1.743E-28 9.753E-29 6.036E-29 3.999E-29 2.785E-29 2.014E-29 1.500E-29 1.143E-29 8.850E-30 6.917E-30 5.384E-30 3.979E-30 0.000E+00 1.352E-27 4.469E-28 2.116E-28 1.185E-28 7.335E-29 4.861E-29 3.384E-29 2.445E-29 1.818E-29 1.380E-29 1.060E-29 8.136E-30 5.936E-30 0.000E+00 1.665E-27 5.500E-28 2.605E-28 1.459E-28 9.038E-29 5.988E-29 4.167E-29 3.007E-29 2.228E-29 1.679E-29 1.267E-29 9.110E-30 0.000E+00 2.082E-27 6.876E-28 3.259E-28 1.826E-28 1.131E-28 7.494E-29 5.208E-29 3.747E-29 2.758E-29 2.041E-29 1.444E-29 0.000E+00 2.652E-27 8.755E-28 4.151E-28 2.328E-28 1.442E-28 9.547E-29 6.620E-29 4.733E-29 3.424E-29 2.377E-29 0.000E+00 3.454E-27 1.139E-27 5.405E-28 3.033E-28 1.878E-28 1.241E-28 8.562E-29 6.024E-29 4.091E-29 0.000E+00 4.616E-27 1.521E-27 7.223E-28 4.055E-28 2.509E-28 1.651E-28 1.122E-28 7.421E-29 0.000E+00 6.372E-27 2.098E-27 9.966E-28 5.595E-28 3.452E-28 2.242E-28 1.435E-28 0.000E+00 9.158E-27 3.010E-27 1.431E-27 8.022E-28 4.897E-28 3.006E-28 0.000E+00 1.387E-26 4.548E-27 2.161E-27 1.202E-27 6.969E-28 0.000E+00 2.257E-26 7.361E-27 3.479E-27 1.850E-27 0.000E+00 4.067E-26 1.309E-26 5.953E-27 0.000E+00 8.600E-26 2.621E-26 0.000E+00 2.398E-25 2.007E-24
1.000E+03 1 1.500E+04 B 98 25
0.000E+00 3.125E-28 9.987E-29 4.608E-29 2.539E-29 1.556E-29 1.024E-29 7.108E-30 5.134E-30 3.828E-30 2.929E-30 2.289E-30 1.821E-30 1.471E-30 1.204E-30 9.963E-31 8.325E-31 7.013E-31 5.947E-31 5.068E-31 4.329E-31 3.693E-31 3.111E-31 2.477E-31 0.000E+00 3.492E-28 1.121E-28 5.192E-29 2.868E-29 1.760E-29 1.161E-29 8.058E-30 5.823E-30 4.342E-30 3.321E-30 2.595E-30 2.064E-30 1.666E-30 1.363E-30 1.127E-30 9.401E-31 7.904E-31 6.684E-31 5.669E-31 4.804E-31 4.023E-31 3.184E-31 0.000E+00 3.927E-28 1.265E-28 5.885E-29 3.259E-29 2.003E-29 1.322E-29 9.182E-30 6.636E-30 4.948E-30 3.785E-30 2.956E-30 2.350E-30 1.896E-30 1.549E-30 1.279E-30 1.065E-30 8.930E-31 7.516E-31 6.323E-31 5.261E-31 4.138E-31 0.000E+00 4.445E-28 1.438E-28 6.713E-29 3.725E-29 2.293E-29 1.514E-29 1.052E-29 7.604E-30 5.670E-30 4.335E-30 3.385E-30 2.689E-30 2.167E-30 1.768E-30 1.457E-30 1.210E-30 1.010E-30 8.431E-31 6.964E-31 5.441E-31 0.000E+00 5.068E-28 1.647E-28 7.711E-29 4.286E-29 2.641E-29 1.744E-29 1.213E-29 8.764E-30 6.534E-30 4.994E-30 3.897E-30 3.093E-30 2.490E-30 2.028E-30 1.666E-30 1.378E-30 1.140E-30 9.344E-31 7.248E-31 0.000E+00 5.825E-28 1.901E-28 8.921E-29 4.966E-29 3.062E-29 2.023E-29 1.407E-29 1.017E-29 7.578E-30 5.789E-30 4.514E-30 3.578E-30 2.875E-30 2.335E-30 1.911E-30 1.566E-30 1.273E-30 9.792E-31 0.000E+00 6.755E-28 2.212E-28 1.040E-28 5.797E-29 3.576E-29 2.364E-29 1.644E-29 1.188E-29 8.850E-30 6.757E-30 5.262E-30 4.165E-30 3.338E-30 2.699E-30 2.189E-30 1.762E-30 1.344E-30 0.000E+00 7.908E-28 2.597E-28 1.223E-28 6.824E-29 4.212E-29 2.785E-29 1.937E-29 1.399E-29 1.042E-29 7.946E-30 6.178E-30 4.877E-30 3.891E-30 3.120E-30 2.485E-30 1.877E-30 0.000E+00 9.357E-28 3.079E-28 1.452E-28 8.108E-29 5.007E-29 3.312E-29 2.302E-29 1.663E-29 1.237E-29 9.421E-30 7.307E-30 5.743E-30 4.545E-30 3.577E-30 2.673E-30 0.000E+00 1.120E-27 3.690E-28 1.743E-28 9.736E-29 6.015E-29 3.978E-29 2.765E-29 1.996E-29 1.483E-29 1.127E-29 8.703E-30 6.785E-30 5.270E-30 3.892E-30 0.000E+00 1.358E-27 4.478E-28 2.116E-28 1.183E-28 7.311E-29 4.836E-29 3.360E-29 2.422E-29 1.796E-29 1.359E-29 1.042E-29 7.971E-30 5.808E-30 0.000E+00 1.669E-27 5.508E-28 2.605E-28 1.457E-28 9.008E-29 5.957E-29 4.136E-29 2.976E-29 2.199E-29 1.651E-29 1.242E-29 8.916E-30 0.000E+00 2.086E-27 6.885E-28 3.258E-28 1.823E-28 1.127E-28 7.453E-29 5.167E-29 3.706E-29 2.718E-29 2.004E-29 1.414E-29 0.000E+00 2.657E-27 8.765E-28 4.151E-28 2.324E-28 1.437E-28 9.490E-29 6.561E-29 4.674E-29 3.367E-29 2.329E-29 0.000E+00 3.458E-27 1.140E-27 5.403E-28 3.027E-28 1.871E-28 1.233E-28 8.473E-29 5.934E-29 4.011E-29 0.000E+00 4.622E-27 1.523E-27 7.220E-28 4.046E-28 2.498E-28 1.638E-28 1.108E-28 7.285E-29 0.000E+00 6.380E-27 2.099E-27 9.960E-28 5.580E-28 3.432E-28 2.219E-28 1.411E-28 0.000E+00 9.170E-27 3.012E-27 1.430E-27 7.992E-28 4.857E-28 2.961E-28 0.000E+00 1.389E-26 4.550E-27 2.158E-27 1.195E-27 6.880E-28 0.000E+00 2.260E-26 7.361E-27 3.468E-27 1.831E-27 0.000E+00 4.072E-26 1.308E-26 5.911E-27 0.000E+00 8.607E-26 2.611E-26 0.000E+00 2.396E-25 2.216E-24
1.000E+04 1 1.500E+04 B 69 25
0.000E+00 3.518E-28 1.103E-28 4.894E-29 2.610E-29 1.561E-29 1.009E-29 6.909E-30 4.940E-30 3.655E-30 2.780E-30 2.163E-30 1.715E-30 1.383E-30 1.130E-30 9.343E-31 7.805E-31 6.577E-31 5.582E-31 4.763E-31 4.076E-31 3.485E-31 2.945E-31 2.353E-31 0.000E+00 3.904E-28 1.227E-28 5.467E-29 2.927E-29 1.756E-29 1.139E-29 7.811E-30 5.593E-30 4.143E-30 3.154E-30 2.455E-30 1.948E-30 1.570E-30 1.283E-30 1.060E-30 8.850E-31 7.446E-31 6.304E-31 5.357E-31 4.550E-31 3.821E-31 3.036E-31 0.000E+00 4.357E-28 1.371E-28 6.141E-29 3.303E-29 1.989E-29 1.293E-29 8.886E-30 6.372E-30 4.725E-30 3.599E-30 2.803E-30 2.224E-30 1.793E-30 1.464E-30 1.209E-30 1.007E-30 8.455E-31 7.129E-31 6.010E-31 5.014E-31 3.959E-31 0.000E+00 4.893E-28 1.542E-28 6.943E-29 3.752E-29 2.267E-29 1.478E-29 1.018E-29 7.308E-30 5.423E-30 4.134E-30 3.220E-30 2.555E-30 2.058E-30 1.679E-30 1.384E-30 1.150E-30 9.615E-31 8.042E-31 6.659E-31 5.222E-31 0.000E+00 5.530E-28 1.747E-28 7.907E-29 4.293E-29 2.603E-29 1.701E-29 1.174E-29 8.438E-30 6.267E-30 4.778E-30 3.722E-30 2.951E-30 2.375E-30 1.934E-30 1.590E-30 1.316E-30 1.091E-30 8.962E-31 6.973E-31 0.000E+00 6.296E-28 1.993E-28 9.078E-29 4.953E-29 3.014E-29 1.974E-29 1.364E-29 9.816E-30 7.293E-30 5.560E-30 4.329E-30 3.429E-30 2.754E-30 2.237E-30 1.832E-30 1.503E-30 1.224E-30 9.441E-31 0.000E+00 7.227E-28 2.295E-28 1.052E-28 5.765E-29 3.519E-29 2.310E-29 1.598E-29 1.151E-29 8.550E-30 6.515E-30 5.067E-30 4.007E-30 3.210E-30 2.596E-30 2.107E-30 1.698E-30 1.298E-30 0.000E+00 8.370E-28 2.670E-28 1.231E-28 6.776E-29 4.147E-29 2.727E-29 1.888E-29 1.360E-29 1.010E-29 7.689E-30 5.970E-30 4.708E-30 3.755E-30 3.011E-30 2.399E-30 1.816E-30 0.000E+00 9.794E-28 3.141E-28 1.456E-28 8.048E-29 4.937E-29 3.250E-29 2.251E-29 1.621E-29 1.203E-29 9.144E-30 7.081E-30 5.559E-30 4.396E-30 3.460E-30 2.589E-30 0.000E+00 1.160E-27 3.742E-28 1.744E-28 9.667E-29 5.940E-29 3.913E-29 2.711E-29 1.951E-29 1.446E-29 1.096E-29 8.449E-30 6.577E-30 5.105E-30 3.772E-30 0.000E+00 1.393E-27 4.520E-28 2.116E-28 1.176E-28 7.232E-29 4.766E-29 3.300E-29 2.372E-29 1.754E-29 1.324E-29 1.012E-29 7.733E-30 5.633E-30 0.000E+00 1.700E-27 5.543E-28 2.603E-28 1.449E-28 8.923E-29 5.880E-29 4.068E-29 2.918E-29 2.148E-29 1.609E-29 1.207E-29 8.655E-30 0.000E+00 2.112E-27 6.914E-28 3.255E-28 1.814E-28 1.118E-28 7.362E-29 5.085E-29 3.633E-29 2.654E-29 1.951E-29 1.374E-29 0.000E+00 2.678E-27 8.790E-28 4.146E-28 2.313E-28 1.425E-28 9.376E-29 6.454E-29 4.578E-29 3.284E-29 2.264E-29 0.000E+00 3.476E-27 1.143E-27 5.397E-28 3.013E-28 1.855E-28 1.217E-28 8.324E-29 5.800E-29 3.904E-29 0.000E+00 4.639E-27 1.525E-27 7.211E-28 4.026E-28 2.475E-28 1.614E-28 1.085E-28 7.098E-29 0.000E+00 6.397E-27 2.102E-27 9.943E-28 5.549E-28 3.395E-28 2.181E-28 1.377E-28 0.000E+00 9.191E-27 3.015E-27 1.426E-27 7.936E-28 4.791E-28 2.896E-28 0.000E+00 1.392E-26 4.552E-27 2.150E-27 1.184E-27 6.748E-28 0.000E+00 2.264E-26 7.359E-27 3.449E-27 1.802E-27 0.000E+00 4.080E-26 1.306E-26 5.843E-27 0.000E+00 8.621E-26 2.594E-26 0.000E+00 2.395E-25 2.737E-24
1.000E+05 1 1.500E+04 B 50 25
0.000E+00 3.992E-28 1.231E-28 5.327E-29 2.776E-29 1.628E-29 1.035E-29 6.992E-30 4.942E-30 3.621E-30 2.732E-30 2.111E-30 1.664E-30 1.334E-30 1.085E-30 8.940E-31 7.444E-31 6.255E-31 5.296E-31 4.510E-31 3.854E-31 3.291E-31 2.779E-31 2.222E-31 0.000E+00 4.442E-28 1.372E-28 5.946E-29 3.103E-29 1.822E-29 1.160E-29 7.842E-30 5.547E-30 4.067E-30 3.069E-30 2.372E-30 1.870E-30 1.500E-30 1.220E-30 1.005E-30 8.359E-31 7.016E-31 5.928E-31 5.030E-31 4.268E-31 3.584E-31 2.850E-31 0.000E+00 4.964E-28 1.536E-28 6.668E-29 3.486E-29 2.050E-29 1.307E-29 8.847E-30 6.264E-30 4.596E-30 3.470E-30 2.683E-30 2.116E-30 1.697E-30 1.380E-30 1.136E-30 9.441E-31 7.909E-31 6.659E-31 5.611E-31 4.681E-31 3.701E-31 0.000E+00 5.571E-28 1.727E-28 7.516E-29 3.939E-29 2.321E-29 1.483E-29 1.005E-29 7.122E-30 5.230E-30 3.952E-30 3.057E-30 2.411E-30 1.934E-30 1.572E-30 1.292E-30 1.072E-30 8.951E-31 7.484E-31 6.201E-31 4.871E-31 0.000E+00 6.281E-28 1.951E-28 8.520E-29 4.479E-29 2.646E-29 1.694E-29 1.149E-29 8.158E-30 5.997E-30 4.535E-30 3.509E-30 2.769E-30 2.219E-30 1.803E-30 1.480E-30 1.223E-30 1.014E-30 8.340E-31 6.506E-31 0.000E+00 7.121E-28 2.217E-28 9.720E-29 5.128E-29 3.038E-29 1.949E-29 1.326E-29 9.422E-30 6.934E-30 5.247E-30 4.062E-30 3.205E-30 2.567E-30 2.082E-30 1.703E-30 1.398E-30 1.140E-30 8.824E-31 0.000E+00 8.126E-28 2.536E-28 1.117E-28 5.917E-29 3.518E-29 2.264E-29 1.543E-29 1.098E-29 8.091E-30 6.127E-30 4.744E-30 3.740E-30 2.992E-30 2.418E-30 1.964E-30 1.586E-30 1.217E-30 0.000E+00 9.344E-28 2.923E-28 1.294E-28 6.890E-29 4.113E-29 2.655E-29 1.813E-29 1.293E-29 9.536E-30 7.224E-30 5.591E-30 4.402E-30 3.509E-30 2.816E-30 2.249E-30 1.709E-30 0.000E+00 1.085E-27 3.399E-28 1.514E-28 8.108E-29 4.861E-29 3.148E-29 2.155E-29 1.539E-29 1.136E-29 8.603E-30 6.649E-30 5.217E-30 4.130E-30 3.258E-30 2.447E-30 0.000E+00 1.273E-27 3.996E-28 1.793E-28 9.657E-29 5.817E-29 3.779E-29 2.593E-29 1.854E-29 1.368E-29 1.035E-29 7.971E-30 6.209E-30 4.829E-30 3.581E-30 0.000E+00 1.512E-27 4.758E-28 2.151E-28 1.166E-28 7.059E-29 4.600E-29 3.161E-29 2.261E-29 1.666E-29 1.256E-29 9.602E-30 7.347E-30 5.369E-30 0.000E+00 1.822E-27 5.754E-28 2.624E-28 1.432E-28 8.702E-29 5.684E-29 3.909E-29 2.792E-29 2.051E-29 1.534E-29 1.152E-29 8.275E-30 0.000E+00 2.233E-27 7.089E-28 3.260E-28 1.790E-28 1.091E-28 7.136E-29 4.904E-29 3.491E-29 2.545E-29 1.869E-29 1.317E-29 0.000E+00 2.791E-27 8.927E-28 4.137E-28 2.282E-28 1.394E-28 9.116E-29 6.245E-29 4.412E-29 3.157E-29 2.176E-29 0.000E+00 3.576E-27 1.153E-27 5.377E-28 2.975E-28 1.819E-28 1.186E-28 8.068E-29 5.597E-29 3.758E-29 0.000E+00 4.722E-27 1.533E-27 7.180E-28 3.979E-28 2.429E-28 1.574E-28 1.052E-28 6.848E-29 0.000E+00 6.466E-27 2.107E-27 9.898E-28 5.484E-28 3.330E-28 2.122E-28 1.331E-28 0.000E+00 9.252E-27 3.019E-27 1.419E-27 7.833E-28 4.686E-28 2.807E-28 0.000E+00 1.399E-26 4.553E-27 2.136E-27 1.165E-27 6.562E-28 0.000E+00 2.273E-26 7.353E-27 3.414E-27 1.761E-27 0.000E+00 4.094E-26 1.302E-26 5.741E-27 0.000E+00 8.642E-26 2.568E-26 0.000E+00 2.392E-25 2.974E-24
1.000E+06 1 1.500E+04 B 50 25
0.000E+00 4.508E-28 1.384E-28 5.950E-29 3.083E-29 1.799E-29 1.139E-29 7.664E-30 5.399E-30 3.944E-30 2.967E-30 2.287E-30 1.799E-30 1.440E-30 1.169E-30 9.613E-31 7.991E-31 6.705E-31 5.668E-31 4.821E-31 4.114E-31 3.509E-31 2.960E-31 2.364E-31 0.000E+00 4.990E-28 1.532E-28 6.588E-29 3.414E-29 1.992E-29 1.262E-29 8.490E-30 5.981E-30 4.369E-30 3.287E-30 2.533E-30 1.992E-30 1.593E-30 1.293E-30 1.063E-30 8.828E-31 7.396E-31 6.239E-31 5.286E-31 4.479E-31 3.755E-31 2.982E-31 0.000E+00 5.550E-28 1.704E-28 7.332E-29 3.801E-29 2.218E-29 1.405E-29 9.455E-30 6.661E-30 4.866E-30 3.660E-30 2.820E-30 2.217E-30 1.773E-30 1.438E-30 1.181E-30 9.793E-31 8.186E-31 6.880E-31 5.787E-31 4.820E-31 3.805E-31 0.000E+00 6.209E-28 1.907E-28 8.209E-29 4.257E-29 2.485E-29 1.575E-29 1.060E-29 7.465E-30 5.453E-30 4.101E-30 3.160E-30 2.483E-30 1.984E-30 1.608E-30 1.319E-30 1.091E-30 9.089E-31 7.583E-31 6.271E-31 4.918E-31 0.000E+00 6.994E-28 2.149E-28 9.255E-29 4.802E-29 2.804E-29 1.778E-29 1.196E-29 8.429E-30 6.157E-30 4.630E-30 3.566E-30 2.801E-30 2.237E-30 1.810E-30 1.481E-30 1.221E-30 1.010E-30 8.286E-31 6.451E-31 0.000E+00 7.936E-28 2.440E-28 1.052E-28 5.460E-29 3.191E-29 2.023E-29 1.362E-29 9.599E-30 7.012E-30 5.272E-30 4.059E-30 3.186E-30 2.541E-30 2.053E-30 1.673E-30 1.370E-30 1.114E-30 8.605E-31 0.000E+00 9.077E-28 2.793E-28 1.205E-28 6.263E-29 3.663E-29 2.324E-29 1.565E-29 1.103E-29 8.060E-30 6.059E-30 4.662E-30 3.656E-30 2.910E-30 2.342E-30 1.897E-30 1.527E-30 1.169E-30 0.000E+00 1.047E-27 3.224E-28 1.393E-28 7.250E-29 4.245E-29 2.696E-29 1.817E-29 1.281E-29 9.359E-30 7.034E-30 5.407E-30 4.233E-30 3.358E-30 2.685E-30 2.138E-30 1.621E-30 0.000E+00 1.217E-27 3.754E-28 1.625E-28 8.475E-29 4.970E-29 3.160E-29 2.132E-29 1.504E-29 1.099E-29 8.254E-30 6.337E-30 4.945E-30 3.898E-30 3.066E-30 2.300E-30 0.000E+00 1.427E-27 4.412E-28 1.916E-28 1.002E-28 5.886E-29 3.749E-29 2.532E-29 1.788E-29 1.306E-29 9.800E-30 7.503E-30 5.819E-30 4.513E-30 3.344E-30 0.000E+00 1.691E-27 5.238E-28 2.283E-28 1.198E-28 7.062E-29 4.508E-29 3.049E-29 2.154E-29 1.573E-29 1.178E-29 8.963E-30 6.842E-30 5.000E-30 0.000E+00 2.027E-27 6.293E-28 2.758E-28 1.454E-28 8.601E-29 5.505E-29 3.730E-29 2.636E-29 1.921E-29 1.431E-29 1.072E-29 7.711E-30 0.000E+00 2.465E-27 7.672E-28 3.383E-28 1.794E-28 1.066E-28 6.846E-29 4.644E-29 3.278E-29 2.378E-29 1.743E-29 1.231E-29 0.000E+00 3.055E-27 9.520E-28 4.231E-28 2.260E-28 1.350E-28 8.690E-29 5.894E-29 4.142E-29 2.958E-29 2.043E-29 0.000E+00 3.871E-27 1.208E-27 5.421E-28 2.918E-28 1.751E-28 1.129E-28 7.624E-29 5.275E-29 3.547E-29 0.000E+00 5.038E-27 1.578E-27 7.156E-28 3.881E-28 2.336E-28 1.500E-28 9.979E-29 6.494E-29 0.000E+00 6.779E-27 2.138E-27 9.802E-28 5.342E-28 3.208E-28 2.029E-28 1.269E-28 0.000E+00 9.532E-27 3.035E-27 1.402E-27 7.634E-28 4.519E-28 2.687E-28 0.000E+00 1.422E-26 4.556E-27 2.107E-27 1.133E-27 6.312E-28 0.000E+00 2.294E-26 7.336E-27 3.357E-27 1.704E-27 0.000E+00 4.118E-26 1.294E-26 5.598E-27 0.000E+00 8.675E-26 2.530E-26 0.000E+00 2.389E-25 3.020E-24
1.000E+07 1 1.500E+04 B 50 25
0.000E+00 5.145E-28 1.578E-28 6.777E-29 3.508E-29 2.045E-29 1.294E-29 8.700E-30 6.124E-30 4.471E-30 3.362E-30 2.590E-30 2.036E-30 1.628E-30 1.322E-30 1.086E-30 9.026E-31 7.570E-31 6.396E-31 5.437E-31 4.637E-31 3.953E-31 3.332E-31 2.658E-31 0.000E+00 5.745E-28 1.762E-28 7.567E-29 3.917E-29 2.283E-29 1.445E-29 9.710E-30 6.835E-30 4.989E-30 3.750E-30 2.888E-30 2.270E-30 1.815E-30 1.472E-30 1.209E-30 1.004E-30 8.403E-31 7.084E-31 5.998E-31 5.078E-31 4.255E-31 3.375E-31 0.000E+00 6.431E-28 1.972E-28 8.470E-29 4.384E-29 2.555E-29 1.617E-29 1.087E-29 7.647E-30 5.581E-30 4.194E-30 3.229E-30 2.537E-30 2.027E-30 1.643E-30 1.348E-30 1.117E-30 9.333E-31 7.837E-31 6.586E-31 5.481E-31 4.322E-31 0.000E+00 7.218E-28 2.213E-28 9.506E-29 4.920E-29 2.867E-29 1.814E-29 1.219E-29 8.578E-30 6.258E-30 4.702E-30 3.619E-30 2.841E-30 2.268E-30 1.837E-30 1.505E-30 1.244E-30 1.035E-30 8.631E-31 7.131E-31 5.585E-31 0.000E+00 8.124E-28 2.491E-28 1.070E-28 5.537E-29 3.227E-29 2.041E-29 1.371E-29 9.648E-30 7.037E-30 5.285E-30 4.065E-30 3.190E-30 2.544E-30 2.057E-30 1.681E-30 1.385E-30 1.144E-30 9.374E-31 7.289E-31 0.000E+00 9.173E-28 2.813E-28 1.208E-28 6.252E-29 3.643E-29 2.304E-29 1.548E-29 1.089E-29 7.939E-30 5.959E-30 4.581E-30 3.590E-30 2.860E-30 2.307E-30 1.878E-30 1.536E-30 1.247E-30 9.620E-31 0.000E+00 1.040E-27 3.190E-28 1.370E-28 7.090E-29 4.131E-29 2.613E-29 1.755E-29 1.234E-29 8.992E-30 6.745E-30 5.180E-30 4.054E-30 3.222E-30 2.589E-30 2.093E-30 1.683E-30 1.286E-30 0.000E+00 1.186E-27 3.638E-28 1.563E-28 8.088E-29 4.712E-29 2.980E-29 2.001E-29 1.406E-29 1.024E-29 7.677E-30 5.887E-30 4.598E-30 3.640E-30 2.904E-30 2.308E-30 1.747E-30 0.000E+00 1.364E-27 4.184E-28 1.797E-28 9.304E-29 5.421E-29 3.427E-29 2.301E-29 1.616E-29 1.176E-29 8.803E-30 6.737E-30 5.242E-30 4.120E-30 3.232E-30 2.418E-30 0.000E+00 1.586E-27 4.865E-28 2.091E-28 1.082E-28 6.306E-29 3.987E-29 2.675E-29 1.878E-29 1.365E-29 1.020E-29 7.774E-30 6.006E-30 4.643E-30 3.429E-30 0.000E+00 1.869E-27 5.735E-28 2.466E-28 1.277E-28 7.441E-29 4.704E-29 3.155E-29 2.212E-29 1.605E-29 1.195E-29 9.047E-30 6.874E-30 5.003E-30 0.000E+00 2.236E-27 6.866E-28 2.954E-28 1.531E-28 8.925E-29 5.641E-29 3.781E-29 2.647E-29 1.915E-29 1.416E-29 1.055E-29 7.547E-30 0.000E+00 2.720E-27 8.358E-28 3.602E-28 1.869E-28 1.090E-28 6.889E-29 4.613E-29 3.221E-29 2.315E-29 1.685E-29 1.182E-29 0.000E+00 3.367E-27 1.036E-27 4.473E-28 2.325E-28 1.358E-28 8.583E-29 5.737E-29 3.984E-29 2.820E-29 1.935E-29 0.000E+00 4.251E-27 1.310E-27 5.676E-28 2.959E-28 1.731E-28 1.094E-28 7.279E-29 4.983E-29 3.329E-29 0.000E+00 5.501E-27 1.696E-27 7.388E-28 3.868E-28 2.267E-28 1.429E-28 9.390E-29 6.074E-29 0.000E+00 7.350E-27 2.264E-27 9.930E-28 5.227E-28 3.065E-28 1.911E-28 1.188E-28 0.000E+00 1.024E-26 3.146E-27 1.392E-27 7.359E-28 4.280E-28 2.527E-28 0.000E+00 1.503E-26 4.619E-27 2.062E-27 1.085E-27 5.977E-28 0.000E+00 2.374E-26 7.323E-27 3.264E-27 1.627E-27 0.000E+00 4.188E-26 1.281E-26 5.408E-27 0.000E+00 8.740E-26 2.480E-26 0.000E+00 2.389E-25 3.048E-24
1.000E+08 1 1.500E+04 B 50 25
0.000E+00 5.417E-28 1.661E-28 7.133E-29 3.692E-29 2.152E-29 1.362E-29 9.152E-30 6.442E-30 4.702E-30 3.535E-30 2.723E-30 2.141E-30 1.712E-30 1.389E-30 1.142E-30 9.486E-31 7.954E-31 6.721E-31 5.712E-31 4.871E-31 4.151E-31 3.499E-31 2.790E-31 0.000E+00 6.109E-28 1.873E-28 8.043E-29 4.163E-29 2.426E-29 1.535E-29 1.031E-29 7.259E-30 5.298E-30 3.982E-30 3.066E-30 2.409E-30 1.926E-30 1.562E-30 1.283E-30 1.065E-30 8.913E-31 7.513E-31 6.360E-31 5.384E-31 4.509E-31 3.576E-31 0.000E+00 6.919E-28 2.121E-28 9.109E-29 4.713E-29 2.746E-29 1.737E-29 1.167E-29 8.214E-30 5.994E-30 4.504E-30 3.467E-30 2.723E-30 2.175E-30 1.763E-30 1.446E-30 1.198E-30 1.001E-30 8.403E-31 7.060E-31 5.874E-31 4.629E-31 0.000E+00 7.873E-28 2.413E-28 1.036E-28 5.361E-29 3.123E-29 1.976E-29 1.327E-29 9.336E-30 6.810E-30 5.115E-30 3.936E-30 3.089E-30 2.466E-30 1.997E-30 1.635E-30 1.352E-30 1.125E-30 9.371E-31 7.738E-31 6.057E-31 0.000E+00 8.999E-28 2.758E-28 1.184E-28 6.126E-29 3.568E-29 2.256E-29 1.516E-29 1.066E-29 7.772E-30 5.835E-30 4.487E-30 3.519E-30 2.806E-30 2.268E-30 1.853E-30 1.526E-30 1.260E-30 1.032E-30 8.019E-31 0.000E+00 1.033E-27 3.167E-28 1.359E-28 7.032E-29 4.095E-29 2.589E-29 1.738E-29 1.222E-29 8.907E-30 6.684E-30 5.135E-30 4.024E-30 3.203E-30 2.583E-30 2.102E-30 1.718E-30 1.394E-30 1.075E-30 0.000E+00 1.192E-27 3.653E-28 1.568E-28 8.108E-29 4.721E-29 2.984E-29 2.003E-29 1.407E-29 1.025E-29 7.686E-30 5.900E-30 4.615E-30 3.666E-30 2.944E-30 2.379E-30 1.911E-30 1.459E-30 0.000E+00 1.381E-27 4.232E-28 1.816E-28 9.390E-29 5.466E-29 3.454E-29 2.317E-29 1.627E-29 1.184E-29 8.871E-30 6.799E-30 5.306E-30 4.198E-30 3.347E-30 2.657E-30 2.009E-30 0.000E+00 1.607E-27 4.924E-28 2.112E-28 1.092E-28 6.354E-29 4.013E-29 2.691E-29 1.888E-29 1.373E-29 1.027E-29 7.851E-30 6.104E-30 4.793E-30 3.756E-30 2.807E-30 0.000E+00 1.878E-27 5.751E-28 2.467E-28 1.275E-28 7.415E-29 4.681E-29 3.137E-29 2.199E-29 1.596E-29 1.191E-29 9.072E-30 7.001E-30 5.404E-30 3.986E-30 0.000E+00 2.203E-27 6.746E-28 2.893E-28 1.495E-28 8.690E-29 5.482E-29 3.670E-29 2.569E-29 1.861E-29 1.383E-29 1.046E-29 7.933E-30 5.763E-30 0.000E+00 2.600E-27 7.961E-28 3.413E-28 1.763E-28 1.024E-28 6.455E-29 4.315E-29 3.014E-29 2.175E-29 1.605E-29 1.193E-29 8.519E-30 0.000E+00 3.100E-27 9.491E-28 4.068E-28 2.100E-28 1.219E-28 7.674E-29 5.119E-29 3.563E-29 2.553E-29 1.852E-29 1.296E-29 0.000E+00 3.761E-27 1.151E-27 4.932E-28 2.544E-28 1.476E-28 9.271E-29 6.163E-29 4.259E-29 3.001E-29 2.050E-29 0.000E+00 4.678E-27 1.431E-27 6.131E-28 3.161E-28 1.830E-28 1.146E-28 7.568E-29 5.144E-29 3.414E-29 0.000E+00 5.998E-27 1.835E-27 7.859E-28 4.048E-28 2.338E-28 1.455E-28 9.456E-29 6.057E-29 0.000E+00 7.961E-27 2.434E-27 1.043E-27 5.362E-28 3.082E-28 1.890E-28 1.159E-28 0.000E+00 1.100E-26 3.357E-27 1.439E-27 7.380E-28 4.189E-28 2.429E-28 0.000E+00 1.605E-26 4.864E-27 2.083E-27 1.059E-27 5.702E-28 0.000E+00 2.522E-26 7.524E-27 3.201E-27 1.551E-27 0.000E+00 4.391E-26 1.276E-26 5.190E-27 0.000E+00 8.947E-26 2.421E-26 0.000E+00 2.398E-25 3.093E-24
1.000E+02 1 2.000E+04 B 147 25
0.000E+00 2.250E-28 7.168E-29 3.296E-29 1.806E-29 1.100E-29 7.203E-30 4.974E-30 3.578E-30 2.658E-30 2.027E-30 1.580E-30 1.255E-30 1.012E-30 8.267E-31 6.833E-31 5.703E-31 4.799E-31 4.065E-31 3.461E-31 2.954E-31 2.517E-31 2.118E-31 1.684E-31 0.000E+00 2.537E-28 8.096E-29 3.725E-29 2.042E-29 1.244E-29 8.146E-30 5.625E-30 4.046E-30 3.006E-30 2.292E-30 1.786E-30 1.418E-30 1.143E-30 9.331E-31 7.706E-31 6.424E-31 5.396E-31 4.559E-31 3.864E-31 3.271E-31 2.737E-31 2.163E-31 0.000E+00 2.878E-28 9.194E-29 4.232E-29 2.320E-29 1.414E-29 9.260E-30 6.395E-30 4.599E-30 3.416E-30 2.605E-30 2.029E-30 1.610E-30 1.297E-30 1.058E-30 8.728E-31 7.263E-31 6.085E-31 5.118E-31 4.303E-31 3.576E-31 2.809E-31 0.000E+00 3.284E-28 1.050E-28 4.836E-29 2.652E-29 1.616E-29 1.059E-29 7.311E-30 5.257E-30 3.904E-30 2.976E-30 2.318E-30 1.838E-30 1.479E-30 1.206E-30 9.927E-31 8.239E-31 6.872E-31 5.733E-31 4.732E-31 3.692E-31 0.000E+00 3.773E-28 1.207E-28 5.561E-29 3.050E-29 1.859E-29 1.218E-29 8.409E-30 6.046E-30 4.489E-30 3.421E-30 2.663E-30 2.110E-30 1.696E-30 1.380E-30 1.134E-30 9.366E-31 7.749E-31 6.346E-31 4.917E-31 0.000E+00 4.366E-28 1.397E-28 6.438E-29 3.532E-29 2.153E-29 1.410E-29 9.737E-30 7.001E-30 5.197E-30 3.958E-30 3.079E-30 2.437E-30 1.956E-30 1.588E-30 1.298E-30 1.064E-30 8.639E-31 6.641E-31 0.000E+00 5.091E-28 1.629E-28 7.510E-29 4.120E-29 2.512E-29 1.645E-29 1.136E-29 8.166E-30 6.059E-30 4.612E-30 3.584E-30 2.833E-30 2.268E-30 1.833E-30 1.486E-30 1.196E-30 9.113E-31 0.000E+00 5.989E-28 1.916E-28 8.834E-29 4.847E-29 2.955E-29 1.936E-29 1.336E-29 9.604E-30 7.122E-30 5.417E-30 4.203E-30 3.314E-30 2.642E-30 2.118E-30 1.686E-30 1.273E-30 0.000E+00 7.113E-28 2.275E-28 1.049E-28 5.756E-29 3.510E-29 2.299E-29 1.587E-29 1.140E-29 8.446E-30 6.415E-30 4.966E-30 3.899E-30 3.084E-30 2.427E-30 1.812E-30 0.000E+00 8.538E-28 2.730E-28 1.259E-28 6.908E-29 4.212E-29 2.759E-29 1.903E-29 1.366E-29 1.011E-29 7.664E-30 5.910E-30 4.604E-30 3.575E-30 2.638E-30 0.000E+00 1.037E-27 3.315E-28 1.528E-28 8.389E-29 5.115E-29 3.350E-29 2.310E-29 1.656E-29 1.224E-29 9.238E-30 7.069E-30 5.406E-30 3.937E-30 0.000E+00 1.278E-27 4.080E-28 1.881E-28 1.033E-28 6.296E-29 4.122E-29 2.840E-29 2.033E-29 1.496E-29 1.121E-29 8.427E-30 6.043E-30 0.000E+00 1.599E-27 5.102E-28 2.352E-28 1.291E-28 7.872E-29 5.149E-29 3.543E-29 2.528E-29 1.847E-29 1.360E-29 9.586E-30 0.000E+00 2.039E-27 6.496E-28 2.995E-28 1.644E-28 1.002E-28 6.546E-29 4.491E-29 3.183E-29 2.286E-29 1.579E-29 0.000E+00 2.656E-27 8.453E-28 3.896E-28 2.139E-28 1.302E-28 8.487E-29 5.788E-29 4.035E-29 2.721E-29 0.000E+00 3.553E-27 1.129E-27 5.200E-28 2.853E-28 1.734E-28 1.124E-28 7.547E-29 4.944E-29 0.000E+00 4.908E-27 1.555E-27 7.162E-28 3.924E-28 2.374E-28 1.517E-28 9.588E-29 0.000E+00 7.058E-27 2.229E-27 1.025E-27 5.597E-28 3.343E-28 2.016E-28 0.000E+00 1.069E-26 3.360E-27 1.540E-27 8.316E-28 4.702E-28 0.000E+00 1.739E-26 5.414E-27 2.456E-27 1.260E-27 0.000E+00 3.128E-26 9.543E-27 4.123E-27 0.000E+00 6.579E-26 1.869E-26 0.000E+00 1.807E-25 1.530E-24
1.000E+03 1 2.000E+04 B 98 25
0.000E+00 2.359E-28 7.325E-29 3.309E-29 1.795E-29 1.088E-29 7.098E-30 4.891E-30 3.513E-30 2.607E-30 1.987E-30 1.548E-30 1.228E-30 9.898E-31 8.085E-31 6.680E-31 5.574E-31 4.690E-31 3.974E-31 3.384E-31 2.889E-31 2.463E-31 2.075E-31 1.652E-31 0.000E+00 2.644E-28 8.234E-29 3.733E-29 2.030E-29 1.231E-29 8.040E-30 5.542E-30 3.981E-30 2.955E-30 2.251E-30 1.753E-30 1.391E-30 1.120E-30 9.143E-31 7.547E-31 6.289E-31 5.282E-31 4.462E-31 3.783E-31 3.204E-31 2.682E-31 2.123E-31 0.000E+00 2.979E-28 9.313E-29 4.235E-29 2.307E-29 1.401E-29 9.155E-30 6.313E-30 4.535E-30 3.365E-30 2.563E-30 1.996E-30 1.582E-30 1.273E-30 1.038E-30 8.560E-31 7.119E-31 5.963E-31 5.015E-31 4.217E-31 3.507E-31 2.759E-31 0.000E+00 3.378E-28 1.060E-28 4.836E-29 2.638E-29 1.603E-29 1.048E-29 7.229E-30 5.193E-30 3.853E-30 2.934E-30 2.283E-30 1.808E-30 1.454E-30 1.184E-30 9.745E-31 8.083E-31 6.739E-31 5.622E-31 4.642E-31 3.627E-31 0.000E+00 3.858E-28 1.216E-28 5.558E-29 3.036E-29 1.846E-29 1.208E-29 8.328E-30 5.982E-30 4.437E-30 3.377E-30 2.626E-30 2.078E-30 1.669E-30 1.357E-30 1.113E-30 9.195E-31 7.604E-31 6.228E-31 4.830E-31 0.000E+00 4.441E-28 1.404E-28 6.434E-29 3.518E-29 2.141E-29 1.400E-29 9.656E-30 6.935E-30 5.142E-30 3.912E-30 3.039E-30 2.402E-30 1.926E-30 1.561E-30 1.276E-30 1.045E-30 8.482E-31 6.526E-31 0.000E+00 5.156E-28 1.635E-28 7.505E-29 4.108E-29 2.500E-29 1.635E-29 1.128E-29 8.097E-30 6.000E-30 4.561E-30 3.540E-30 2.794E-30 2.234E-30 1.803E-30 1.461E-30 1.175E-30 8.956E-31 0.000E+00 6.043E-28 1.921E-28 8.829E-29 4.835E-29 2.944E-29 1.926E-29 1.328E-29 9.529E-30 7.057E-30 5.359E-30 4.152E-30 3.268E-30 2.602E-30 2.083E-30 1.657E-30 1.251E-30 0.000E+00 7.157E-28 2.279E-28 1.048E-28 5.744E-29 3.498E-29 2.288E-29 1.577E-29 1.131E-29 8.370E-30 6.347E-30 4.905E-30 3.844E-30 3.036E-30 2.386E-30 1.781E-30 0.000E+00 8.574E-28 2.734E-28 1.258E-28 6.896E-29 4.199E-29 2.747E-29 1.893E-29 1.356E-29 1.002E-29 7.581E-30 5.834E-30 4.536E-30 3.516E-30 2.593E-30 0.000E+00 1.040E-27 3.318E-28 1.528E-28 8.376E-29 5.101E-29 3.336E-29 2.297E-29 1.644E-29 1.212E-29 9.132E-30 6.972E-30 5.321E-30 3.871E-30 0.000E+00 1.280E-27 4.083E-28 1.881E-28 1.031E-28 6.280E-29 4.105E-29 2.824E-29 2.017E-29 1.481E-29 1.107E-29 8.301E-30 5.944E-30 0.000E+00 1.601E-27 5.105E-28 2.351E-28 1.290E-28 7.851E-29 5.128E-29 3.521E-29 2.507E-29 1.827E-29 1.341E-29 9.432E-30 0.000E+00 2.040E-27 6.500E-28 2.994E-28 1.642E-28 9.991E-29 6.516E-29 4.461E-29 3.153E-29 2.257E-29 1.555E-29 0.000E+00 2.658E-27 8.457E-28 3.895E-28 2.135E-28 1.298E-28 8.444E-29 5.742E-29 3.989E-29 2.680E-29 0.000E+00 3.555E-27 1.129E-27 5.198E-28 2.848E-28 1.728E-28 1.117E-28 7.474E-29 4.875E-29 0.000E+00 4.910E-27 1.556E-27 7.157E-28 3.915E-28 2.364E-28 1.505E-28 9.464E-29 0.000E+00 7.062E-27 2.230E-27 1.024E-27 5.581E-28 3.323E-28 1.993E-28 0.000E+00 1.070E-26 3.361E-27 1.538E-27 8.281E-28 4.657E-28 0.000E+00 1.740E-26 5.414E-27 2.450E-27 1.251E-27 0.000E+00 3.130E-26 9.537E-27 4.101E-27 0.000E+00 6.583E-26 1.864E-26 0.000E+00 1.806E-25 1.684E-24
1.000E+04 1 2.000E+04 B 69 25
0.000E+00 2.556E-28 7.894E-29 3.465E-29 1.833E-29 1.090E-29 7.011E-30 4.781E-30 3.407E-30 2.513E-30 1.907E-30 1.481E-30 1.172E-30 9.431E-31 7.696E-31 6.356E-31 5.304E-31 4.464E-31 3.785E-31 3.227E-31 2.759E-31 2.357E-31 1.991E-31 1.590E-31 0.000E+00 2.857E-28 8.818E-29 3.881E-29 2.060E-29 1.227E-29 7.912E-30 5.403E-30 3.855E-30 2.846E-30 2.161E-30 1.678E-30 1.329E-30 1.069E-30 8.723E-31 7.200E-31 6.002E-31 5.045E-31 4.267E-31 3.622E-31 3.074E-31 2.580E-31 2.049E-31 0.000E+00 3.210E-28 9.900E-29 4.371E-29 2.327E-29 1.390E-29 8.982E-30 6.143E-30 4.388E-30 3.242E-30 2.463E-30 1.913E-30 1.515E-30 1.219E-30 9.935E-31 8.192E-31 6.819E-31 5.717E-31 4.815E-31 4.056E-31 3.382E-31 2.668E-31 0.000E+00 3.628E-28 1.118E-28 4.954E-29 2.647E-29 1.585E-29 1.026E-29 7.031E-30 5.026E-30 3.717E-30 2.824E-30 2.194E-30 1.737E-30 1.396E-30 1.137E-30 9.362E-31 7.772E-31 6.488E-31 5.422E-31 4.486E-31 3.516E-31 0.000E+00 4.125E-28 1.271E-28 5.654E-29 3.032E-29 1.821E-29 1.181E-29 8.102E-30 5.798E-30 4.289E-30 3.259E-30 2.532E-30 2.003E-30 1.608E-30 1.308E-30 1.074E-30 8.875E-31 7.350E-31 6.032E-31 4.691E-31 0.000E+00 4.722E-28 1.455E-28 6.504E-29 3.501E-29 2.108E-29 1.370E-29 9.408E-30 6.736E-30 4.984E-30 3.787E-30 2.940E-30 2.323E-30 1.862E-30 1.510E-30 1.234E-30 1.012E-30 8.230E-31 6.347E-31 0.000E+00 5.444E-28 1.681E-28 7.548E-29 4.078E-29 2.462E-29 1.602E-29 1.101E-29 7.886E-30 5.834E-30 4.430E-30 3.435E-30 2.710E-30 2.166E-30 1.749E-30 1.418E-30 1.142E-30 8.721E-31 0.000E+00 6.330E-28 1.960E-28 8.848E-29 4.796E-29 2.901E-29 1.890E-29 1.300E-29 9.308E-30 6.883E-30 5.220E-30 4.041E-30 3.179E-30 2.530E-30 2.026E-30 1.612E-30 1.219E-30 0.000E+00 7.431E-28 2.312E-28 1.048E-28 5.698E-29 3.453E-29 2.251E-29 1.548E-29 1.108E-29 8.186E-30 6.199E-30 4.785E-30 3.747E-30 2.958E-30 2.325E-30 1.738E-30 0.000E+00 8.825E-28 2.760E-28 1.256E-28 6.845E-29 4.153E-29 2.709E-29 1.862E-29 1.332E-29 9.823E-30 7.418E-30 5.701E-30 4.428E-30 3.431E-30 2.532E-30 0.000E+00 1.062E-27 3.339E-28 1.525E-28 8.324E-29 5.053E-29 3.296E-29 2.264E-29 1.617E-29 1.190E-29 8.946E-30 6.819E-30 5.198E-30 3.781E-30 0.000E+00 1.299E-27 4.099E-28 1.878E-28 1.026E-28 6.229E-29 4.062E-29 2.787E-29 1.986E-29 1.455E-29 1.085E-29 8.119E-30 5.810E-30 0.000E+00 1.616E-27 5.118E-28 2.348E-28 1.284E-28 7.795E-29 5.078E-29 3.477E-29 2.468E-29 1.794E-29 1.314E-29 9.224E-30 0.000E+00 2.052E-27 6.510E-28 2.990E-28 1.635E-28 9.925E-29 6.455E-29 4.405E-29 3.103E-29 2.214E-29 1.521E-29 0.000E+00 2.667E-27 8.466E-28 3.890E-28 2.127E-28 1.290E-28 8.361E-29 5.665E-29 3.919E-29 2.625E-29 0.000E+00 3.563E-27 1.130E-27 5.192E-28 2.837E-28 1.716E-28 1.105E-28 7.359E-29 4.779E-29 0.000E+00 4.918E-27 1.557E-27 7.147E-28 3.899E-28 2.344E-28 1.486E-28 9.289E-29 0.000E+00 7.070E-27 2.230E-27 1.022E-27 5.551E-28 3.288E-28 1.959E-28 0.000E+00 1.071E-26 3.361E-27 1.534E-27 8.220E-28 4.589E-28 0.000E+00 1.742E-26 5.412E-27 2.439E-27 1.236E-27 0.000E+00 3.134E-26 9.524E-27 4.065E-27 0.000E+00 6.589E-26 1.855E-26 0.000E+00 1.805E-25 2.100E-24
1.000E+05 1 2.000E+04 B 50 25
0.000E+00 2.782E-28 8.559E-29 3.695E-29 1.922E-29 1.126E-29 7.153E-30 4.826E-30 3.408E-30 2.495E-30 1.881E-30 1.453E-30 1.144E-30 9.171E-31 7.458E-31 6.140E-31 5.110E-31 4.292E-31 3.632E-31 3.092E-31 2.641E-31 2.255E-31 1.903E-31 1.521E-31 0.000E+00 3.110E-28 9.573E-29 4.138E-29 2.155E-29 1.263E-29 8.032E-30 5.423E-30 3.832E-30 2.807E-30 2.116E-30 1.635E-30 1.288E-30 1.032E-30 8.391E-31 6.906E-31 5.743E-31 4.817E-31 4.068E-31 3.450E-31 2.926E-31 2.456E-31 1.952E-31 0.000E+00 3.493E-28 1.076E-28 4.655E-29 2.428E-29 1.425E-29 9.070E-30 6.128E-30 4.333E-30 3.176E-30 2.396E-30 1.851E-30 1.458E-30 1.168E-30 9.496E-31 7.810E-31 6.487E-31 5.431E-31 4.570E-31 3.848E-31 3.209E-31 2.535E-31 0.000E+00 3.943E-28 1.215E-28 5.266E-29 2.751E-29 1.617E-29 1.030E-29 6.969E-30 4.932E-30 3.616E-30 2.729E-30 2.109E-30 1.662E-30 1.331E-30 1.081E-30 8.884E-31 7.365E-31 6.144E-31 5.133E-31 4.250E-31 3.336E-31 0.000E+00 4.474E-28 1.379E-28 5.990E-29 3.136E-29 1.846E-29 1.178E-29 7.980E-30 5.653E-30 4.148E-30 3.132E-30 2.421E-30 1.907E-30 1.527E-30 1.239E-30 1.016E-30 8.395E-31 6.953E-31 5.712E-31 4.452E-31 0.000E+00 5.110E-28 1.575E-28 6.858E-29 3.599E-29 2.124E-29 1.358E-29 9.209E-30 6.530E-30 4.795E-30 3.622E-30 2.800E-30 2.205E-30 1.764E-30 1.429E-30 1.168E-30 9.579E-31 7.801E-31 6.032E-31 0.000E+00 5.878E-28 1.812E-28 7.909E-29 4.163E-29 2.462E-29 1.578E-29 1.072E-29 7.608E-30 5.591E-30 4.225E-30 3.265E-30 2.570E-30 2.052E-30 1.657E-30 1.344E-30 1.084E-30 8.308E-31 0.000E+00 6.819E-28 2.100E-28 9.197E-29 4.857E-29 2.882E-29 1.851E-29 1.259E-29 8.949E-30 6.581E-30 4.973E-30 3.841E-30 3.018E-30 2.402E-30 1.925E-30 1.535E-30 1.165E-30 0.000E+00 7.985E-28 2.455E-28 1.080E-28 5.725E-29 3.408E-29 2.194E-29 1.495E-29 1.064E-29 7.824E-30 5.909E-30 4.556E-30 3.568E-30 2.819E-30 2.220E-30 1.666E-30 0.000E+00 9.450E-28 2.901E-28 1.282E-28 6.827E-29 4.078E-29 2.632E-29 1.796E-29 1.279E-29 9.403E-30 7.090E-30 5.447E-30 4.234E-30 3.287E-30 2.434E-30 0.000E+00 1.132E-27 3.471E-28 1.542E-28 8.253E-29 4.947E-29 3.200E-29 2.186E-29 1.556E-29 1.142E-29 8.582E-30 6.544E-30 4.996E-30 3.645E-30 0.000E+00 1.373E-27 4.215E-28 1.884E-28 1.014E-28 6.094E-29 3.948E-29 2.697E-29 1.917E-29 1.402E-29 1.045E-29 7.828E-30 5.613E-30 0.000E+00 1.691E-27 5.210E-28 2.344E-28 1.267E-28 7.635E-29 4.949E-29 3.377E-29 2.391E-29 1.735E-29 1.270E-29 8.929E-30 0.000E+00 2.122E-27 6.579E-28 2.978E-28 1.615E-28 9.744E-29 6.309E-29 4.290E-29 3.014E-29 2.147E-29 1.475E-29 0.000E+00 2.728E-27 8.513E-28 3.873E-28 2.104E-28 1.269E-28 8.190E-29 5.527E-29 3.813E-29 2.549E-29 0.000E+00 3.612E-27 1.133E-27 5.169E-28 2.809E-28 1.690E-28 1.083E-28 7.181E-29 4.648E-29 0.000E+00 4.956E-27 1.559E-27 7.118E-28 3.862E-28 2.309E-28 1.455E-28 9.052E-29 0.000E+00 7.101E-27 2.231E-27 1.018E-27 5.495E-28 3.233E-28 1.913E-28 0.000E+00 1.074E-26 3.361E-27 1.526E-27 8.118E-28 4.492E-28 0.000E+00 1.746E-26 5.407E-27 2.421E-27 1.214E-27 0.000E+00 3.140E-26 9.499E-27 4.012E-27 0.000E+00 6.599E-26 1.841E-26 0.000E+00 1.803E-25 2.306E-24
1.000E+06 1 2.000E+04 B 50 25
0.000E+00 3.042E-28 9.333E-29 4.012E-29 2.078E-29 1.212E-29 7.677E-30 5.163E-30 3.637E-30 2.656E-30 1.998E-30 1.540E-30 1.211E-30 9.691E-31 7.869E-31 6.470E-31 5.378E-31 4.512E-31 3.814E-31 3.243E-31 2.768E-31 2.360E-31 1.991E-31 1.589E-31 0.000E+00 3.385E-28 1.039E-28 4.465E-29 2.313E-29 1.349E-29 8.546E-30 5.748E-30 4.049E-30 2.957E-30 2.224E-30 1.714E-30 1.348E-30 1.078E-30 8.747E-31 7.188E-31 5.969E-31 5.000E-31 4.217E-31 3.572E-31 3.026E-31 2.537E-31 2.014E-31 0.000E+00 3.785E-28 1.162E-28 4.995E-29 2.588E-29 1.510E-29 9.565E-30 6.434E-30 4.531E-30 3.309E-30 2.489E-30 1.917E-30 1.507E-30 1.205E-30 9.772E-31 8.022E-31 6.652E-31 5.560E-31 4.671E-31 3.928E-31 3.272E-31 2.582E-31 0.000E+00 4.259E-28 1.307E-28 5.622E-29 2.914E-29 1.700E-29 1.077E-29 7.246E-30 5.103E-30 3.727E-30 2.802E-30 2.158E-30 1.696E-30 1.355E-30 1.098E-30 8.999E-31 7.446E-31 6.200E-31 5.172E-31 4.276E-31 3.352E-31 0.000E+00 4.824E-28 1.481E-28 6.372E-29 3.304E-29 1.928E-29 1.222E-29 8.218E-30 5.788E-30 4.227E-30 3.177E-30 2.446E-30 1.921E-30 1.534E-30 1.241E-30 1.015E-30 8.367E-31 6.917E-31 5.672E-31 4.414E-31 0.000E+00 5.505E-28 1.690E-28 7.276E-29 3.774E-29 2.204E-29 1.396E-29 9.396E-30 6.618E-30 4.832E-30 3.632E-30 2.795E-30 2.193E-30 1.748E-30 1.412E-30 1.151E-30 9.416E-31 7.653E-31 5.908E-31 0.000E+00 6.331E-28 1.944E-28 8.376E-29 4.347E-29 2.540E-29 1.610E-29 1.084E-29 7.634E-30 5.573E-30 4.187E-30 3.220E-30 2.524E-30 2.008E-30 1.616E-30 1.307E-30 1.052E-30 8.051E-31 0.000E+00 7.343E-28 2.256E-28 9.726E-29 5.053E-29 2.954E-29 1.874E-29 1.262E-29 8.889E-30 6.489E-30 4.873E-30 3.744E-30 2.929E-30 2.322E-30 1.855E-30 1.477E-30 1.119E-30 0.000E+00 8.592E-28 2.640E-28 1.140E-28 5.930E-29 3.471E-29 2.203E-29 1.484E-29 1.046E-29 7.634E-30 5.728E-30 4.394E-30 3.426E-30 2.698E-30 2.120E-30 1.589E-30 0.000E+00 1.015E-27 3.121E-28 1.349E-28 7.032E-29 4.122E-29 2.620E-29 1.766E-29 1.245E-29 9.082E-30 6.806E-30 5.204E-30 4.031E-30 3.123E-30 2.312E-30 0.000E+00 1.213E-27 3.728E-28 1.616E-28 8.440E-29 4.957E-29 3.155E-29 2.129E-29 1.501E-29 1.094E-29 8.175E-30 6.212E-30 4.735E-30 3.455E-30 0.000E+00 1.469E-27 4.509E-28 1.960E-28 1.027E-28 6.047E-29 3.856E-29 2.604E-29 1.835E-29 1.334E-29 9.914E-30 7.414E-30 5.323E-30 0.000E+00 1.807E-27 5.535E-28 2.414E-28 1.270E-28 7.502E-29 4.793E-29 3.238E-29 2.278E-29 1.647E-29 1.204E-29 8.484E-30 0.000E+00 2.264E-27 6.912E-28 3.030E-28 1.602E-28 9.492E-29 6.074E-29 4.099E-29 2.869E-29 2.042E-29 1.406E-29 0.000E+00 2.898E-27 8.822E-28 3.891E-28 2.068E-28 1.230E-28 7.868E-29 5.284E-29 3.640E-29 2.438E-29 0.000E+00 3.803E-27 1.157E-27 5.144E-28 2.749E-28 1.637E-28 1.042E-28 6.890E-29 4.461E-29 0.000E+00 5.148E-27 1.574E-27 7.048E-28 3.777E-28 2.240E-28 1.404E-28 8.718E-29 0.000E+00 7.270E-27 2.238E-27 1.007E-27 5.381E-28 3.142E-28 1.849E-28 0.000E+00 1.088E-26 3.359E-27 1.509E-27 7.948E-28 4.360E-28 0.000E+00 1.757E-26 5.394E-27 2.390E-27 1.184E-27 0.000E+00 3.151E-26 9.454E-27 3.936E-27 0.000E+00 6.614E-26 1.821E-26 0.000E+00 1.802E-25 2.343E-24
1.000E+07 1 2.000E+04 B 50 25
0.000E+00 3.369E-28 1.033E-28 4.438E-29 2.297E-29 1.339E-29 8.474E-30 5.696E-30 4.010E-30 2.927E-30 2.201E-30 1.696E-30 1.333E-30 1.066E-30 8.653E-31 7.112E-31 5.909E-31 4.955E-31 4.187E-31 3.559E-31 3.036E-31 2.587E-31 2.181E-31 1.739E-31 0.000E+00 3.772E-28 1.157E-28 4.967E-29 2.571E-29 1.498E-29 9.482E-30 6.373E-30 4.486E-30 3.274E-30 2.461E-30 1.896E-30 1.490E-30 1.191E-30 9.660E-31 7.934E-31 6.585E-31 5.514E-31 4.648E-31 3.935E-31 3.332E-31 2.791E-31 2.214E-31 0.000E+00 4.235E-28 1.299E-28 5.577E-29 2.887E-29 1.682E-29 1.064E-29 7.154E-30 5.034E-30 3.674E-30 2.761E-30 2.126E-30 1.670E-30 1.334E-30 1.081E-30 8.872E-31 7.353E-31 6.142E-31 5.158E-31 4.334E-31 3.607E-31 2.844E-31 0.000E+00 4.772E-28 1.463E-28 6.284E-29 3.252E-29 1.895E-29 1.199E-29 8.056E-30 5.668E-30 4.136E-30 3.107E-30 2.391E-30 1.877E-30 1.499E-30 1.214E-30 9.942E-31 8.220E-31 6.840E-31 5.701E-31 4.709E-31 3.688E-31 0.000E+00 5.397E-28 1.655E-28 7.106E-29 3.677E-29 2.143E-29 1.355E-29 9.106E-30 6.405E-30 4.672E-30 3.509E-30 2.699E-30 2.117E-30 1.689E-30 1.365E-30 1.116E-30 9.190E-31 7.591E-31 6.220E-31 4.835E-31 0.000E+00 6.129E-28 1.879E-28 8.070E-29 4.176E-29 2.433E-29 1.539E-29 1.034E-29 7.269E-30 5.300E-30 3.978E-30 3.057E-30 2.396E-30 1.908E-30 1.539E-30 1.253E-30 1.025E-30 8.320E-31 6.416E-31 0.000E+00 6.998E-28 2.145E-28 9.213E-29 4.767E-29 2.777E-29 1.756E-29 1.179E-29 8.291E-30 6.042E-30 4.532E-30 3.480E-30 2.723E-30 2.164E-30 1.739E-30 1.405E-30 1.130E-30 8.632E-31 0.000E+00 8.043E-28 2.466E-28 1.059E-28 5.479E-29 3.192E-29 2.018E-29 1.355E-29 9.519E-30 6.932E-30 5.195E-30 3.983E-30 3.110E-30 2.462E-30 1.964E-30 1.561E-30 1.181E-30 0.000E+00 9.326E-28 2.859E-28 1.228E-28 6.352E-29 3.700E-29 2.339E-29 1.569E-29 1.102E-29 8.020E-30 6.002E-30 4.592E-30 3.572E-30 2.807E-30 2.202E-30 1.647E-30 0.000E+00 1.093E-27 3.351E-28 1.439E-28 7.448E-29 4.338E-29 2.741E-29 1.839E-29 1.290E-29 9.376E-30 7.001E-30 5.337E-30 4.122E-30 3.185E-30 2.351E-30 0.000E+00 1.299E-27 3.982E-28 1.710E-28 8.851E-29 5.155E-29 3.256E-29 2.183E-29 1.530E-29 1.110E-29 8.256E-30 6.249E-30 4.746E-30 3.452E-30 0.000E+00 1.567E-27 4.802E-28 2.064E-28 1.068E-28 6.221E-29 3.929E-29 2.631E-29 1.841E-29 1.331E-29 9.834E-30 7.320E-30 5.235E-30 0.000E+00 1.922E-27 5.888E-28 2.532E-28 1.311E-28 7.638E-29 4.822E-29 3.225E-29 2.250E-29 1.615E-29 1.174E-29 8.234E-30 0.000E+00 2.401E-27 7.352E-28 3.164E-28 1.640E-28 9.558E-29 6.030E-29 4.023E-29 2.790E-29 1.972E-29 1.351E-29 0.000E+00 3.064E-27 9.369E-28 4.038E-28 2.096E-28 1.222E-28 7.699E-29 5.111E-29 3.491E-29 2.327E-29 0.000E+00 4.016E-27 1.223E-27 5.283E-28 2.748E-28 1.602E-28 1.006E-28 6.584E-29 4.244E-29 0.000E+00 5.440E-27 1.646E-27 7.126E-28 3.716E-28 2.163E-28 1.341E-28 8.292E-29 0.000E+00 7.673E-27 2.300E-27 1.000E-27 5.224E-28 3.010E-28 1.763E-28 0.000E+00 1.137E-26 3.389E-27 1.481E-27 7.672E-28 4.177E-28 0.000E+00 1.805E-26 5.379E-27 2.335E-27 1.142E-27 0.000E+00 3.190E-26 9.374E-27 3.832E-27 0.000E+00 6.645E-26 1.794E-26 0.000E+00 1.801E-25 2.358E-24
1.000E+08 1 2.000E+04 B 50 25
0.000E+00 3.512E-28 1.077E-28 4.625E-29 2.394E-29 1.395E-29 8.828E-30 5.934E-30 4.177E-30 3.049E-30 2.292E-30 1.766E-30 1.388E-30 1.110E-30 9.008E-31 7.403E-31 6.151E-31 5.157E-31 4.358E-31 3.703E-31 3.158E-31 2.692E-31 2.268E-31 1.809E-31 0.000E+00 3.962E-28 1.215E-28 5.217E-29 2.700E-29 1.573E-29 9.954E-30 6.690E-30 4.708E-30 3.436E-30 2.583E-30 1.989E-30 1.563E-30 1.249E-30 1.013E-30 8.320E-31 6.905E-31 5.781E-31 4.873E-31 4.125E-31 3.492E-31 2.924E-31 2.319E-31 0.000E+00 4.490E-28 1.377E-28 5.911E-29 3.059E-29 1.782E-29 1.127E-29 7.575E-30 5.330E-30 3.889E-30 2.922E-30 2.249E-30 1.767E-30 1.411E-30 1.144E-30 9.384E-31 7.775E-31 6.494E-31 5.452E-31 4.581E-31 3.811E-31 3.003E-31 0.000E+00 5.112E-28 1.567E-28 6.728E-29 3.481E-29 2.028E-29 1.283E-29 8.618E-30 6.062E-30 4.422E-30 3.321E-30 2.556E-30 2.006E-30 1.601E-30 1.296E-30 1.062E-30 8.777E-31 7.301E-31 6.084E-31 5.024E-31 3.933E-31 0.000E+00 5.850E-28 1.793E-28 7.697E-29 3.982E-29 2.319E-29 1.467E-29 9.851E-30 6.927E-30 5.051E-30 3.792E-30 2.916E-30 2.287E-30 1.824E-30 1.474E-30 1.205E-30 9.918E-31 8.189E-31 6.707E-31 5.211E-31 0.000E+00 6.727E-28 2.062E-28 8.850E-29 4.577E-29 2.666E-29 1.685E-29 1.132E-29 7.955E-30 5.798E-30 4.350E-30 3.343E-30 2.619E-30 2.085E-30 1.681E-30 1.368E-30 1.118E-30 9.075E-31 6.993E-31 0.000E+00 7.777E-28 2.383E-28 1.023E-28 5.289E-29 3.080E-29 1.946E-29 1.306E-29 9.180E-30 6.687E-30 5.013E-30 3.848E-30 3.010E-30 2.391E-30 1.920E-30 1.551E-30 1.246E-30 9.515E-31 0.000E+00 9.039E-28 2.769E-28 1.188E-28 6.144E-29 3.576E-29 2.260E-29 1.516E-29 1.065E-29 7.748E-30 5.803E-30 4.447E-30 3.471E-30 2.746E-30 2.189E-30 1.738E-30 1.314E-30 0.000E+00 1.056E-27 3.236E-28 1.388E-28 7.175E-29 4.175E-29 2.637E-29 1.768E-29 1.241E-29 9.020E-30 6.745E-30 5.157E-30 4.009E-30 3.148E-30 2.467E-30 1.843E-30 0.000E+00 1.241E-27 3.801E-28 1.630E-28 8.425E-29 4.900E-29 3.093E-29 2.072E-29 1.453E-29 1.055E-29 7.869E-30 5.993E-30 4.624E-30 3.569E-30 2.632E-30 0.000E+00 1.468E-27 4.495E-28 1.927E-28 9.955E-29 5.787E-29 3.651E-29 2.443E-29 1.710E-29 1.239E-29 9.207E-30 6.960E-30 5.280E-30 3.835E-30 0.000E+00 1.750E-27 5.358E-28 2.297E-28 1.186E-28 6.889E-29 4.341E-29 2.902E-29 2.027E-29 1.462E-29 1.079E-29 8.017E-30 5.724E-30 0.000E+00 2.112E-27 6.463E-28 2.769E-28 1.429E-28 8.296E-29 5.221E-29 3.482E-29 2.422E-29 1.735E-29 1.259E-29 8.805E-30 0.000E+00 2.595E-27 7.937E-28 3.399E-28 1.753E-28 1.016E-28 6.381E-29 4.240E-29 2.929E-29 2.063E-29 1.409E-29 0.000E+00 3.267E-27 9.985E-28 4.274E-28 2.201E-28 1.274E-28 7.973E-29 5.261E-29 3.574E-29 2.370E-29 0.000E+00 4.238E-27 1.294E-27 5.533E-28 2.846E-28 1.642E-28 1.021E-28 6.628E-29 4.241E-29 0.000E+00 5.692E-27 1.733E-27 7.404E-28 3.799E-28 2.179E-28 1.334E-28 8.165E-29 0.000E+00 7.976E-27 2.415E-27 1.029E-27 5.257E-28 2.973E-28 1.718E-28 0.000E+00 1.182E-26 3.532E-27 1.497E-27 7.554E-28 4.040E-28 0.000E+00 1.886E-26 5.497E-27 2.301E-27 1.101E-27 0.000E+00 3.313E-26 9.333E-27 3.708E-27 0.000E+00 6.764E-26 1.759E-26 0.000E+00 1.804E-25 2.382E-24
1.000E+02 1 3.000E+04 B 147 25
0.000E+00 1.510E-28 4.607E-29 2.050E-29 1.097E-29 6.568E-30 4.244E-30 2.900E-30 2.069E-30 1.527E-30 1.158E-30 8.985E-31 7.106E-31 5.712E-31 4.655E-31 3.839E-31 3.198E-31 2.687E-31 2.274E-31 1.934E-31 1.650E-31 1.406E-31 1.183E-31 9.410E-32 0.000E+00 1.704E-28 5.206E-29 2.318E-29 1.241E-29 7.427E-30 4.799E-30 3.279E-30 2.339E-30 1.726E-30 1.309E-30 1.015E-30 8.025E-31 6.447E-31 5.251E-31 4.326E-31 3.600E-31 3.020E-31 2.549E-31 2.159E-31 1.827E-31 1.528E-31 1.209E-31 0.000E+00 1.934E-28 5.914E-29 2.634E-29 1.410E-29 8.441E-30 5.454E-30 3.727E-30 2.658E-30 1.960E-30 1.486E-30 1.152E-30 9.107E-31 7.312E-31 5.950E-31 4.897E-31 4.068E-31 3.403E-31 2.860E-31 2.403E-31 1.997E-31 1.570E-31 0.000E+00 2.209E-28 6.758E-29 3.011E-29 1.612E-29 9.647E-30 6.233E-30 4.259E-30 3.036E-30 2.239E-30 1.697E-30 1.315E-30 1.039E-30 8.334E-31 6.774E-31 5.565E-31 4.611E-31 3.841E-31 3.202E-31 2.642E-31 2.063E-31 0.000E+00 2.539E-28 7.770E-29 3.462E-29 1.853E-29 1.109E-29 7.167E-30 4.896E-30 3.490E-30 2.573E-30 1.949E-30 1.510E-30 1.192E-30 9.549E-31 7.749E-31 6.350E-31 5.239E-31 4.329E-31 3.544E-31 2.747E-31 0.000E+00 2.940E-28 8.997E-29 4.009E-29 2.146E-29 1.284E-29 8.297E-30 5.667E-30 4.038E-30 2.976E-30 2.253E-30 1.744E-30 1.375E-30 1.100E-30 8.904E-31 7.266E-31 5.946E-31 4.825E-31 3.710E-31 0.000E+00 3.430E-28 1.050E-28 4.677E-29 2.503E-29 1.498E-29 9.676E-30 6.607E-30 4.707E-30 3.467E-30 2.623E-30 2.029E-30 1.597E-30 1.274E-30 1.027E-30 8.313E-31 6.680E-31 5.091E-31 0.000E+00 4.037E-28 1.235E-28 5.502E-29 2.944E-29 1.762E-29 1.138E-29 7.766E-30 5.530E-30 4.071E-30 3.077E-30 2.376E-30 1.865E-30 1.482E-30 1.185E-30 9.421E-31 7.109E-31 0.000E+00 4.798E-28 1.467E-28 6.533E-29 3.496E-29 2.091E-29 1.350E-29 9.212E-30 6.556E-30 4.821E-30 3.639E-30 2.803E-30 2.192E-30 1.728E-30 1.357E-30 1.012E-30 0.000E+00 5.763E-28 1.760E-28 7.838E-29 4.194E-29 2.508E-29 1.619E-29 1.104E-29 7.849E-30 5.764E-30 4.340E-30 3.330E-30 2.583E-30 2.000E-30 1.474E-30 0.000E+00 7.007E-28 2.138E-28 9.517E-29 5.090E-29 3.044E-29 1.963E-29 1.338E-29 9.498E-30 6.960E-30 5.220E-30 3.974E-30 3.027E-30 2.200E-30 0.000E+00 8.637E-28 2.632E-28 1.171E-28 6.262E-29 3.742E-29 2.412E-29 1.641E-29 1.163E-29 8.491E-30 6.320E-30 4.725E-30 3.379E-30 0.000E+00 1.082E-27 3.292E-28 1.464E-28 7.822E-29 4.672E-29 3.008E-29 2.043E-29 1.442E-29 1.045E-29 7.642E-30 5.362E-30 0.000E+00 1.380E-27 4.193E-28 1.863E-28 9.947E-29 5.934E-29 3.813E-29 2.581E-29 1.809E-29 1.288E-29 8.843E-30 0.000E+00 1.800E-27 5.456E-28 2.421E-28 1.291E-28 7.691E-29 4.926E-29 3.312E-29 2.282E-29 1.526E-29 0.000E+00 2.410E-27 7.283E-28 3.227E-28 1.718E-28 1.020E-28 6.492E-29 4.292E-29 2.778E-29 0.000E+00 3.331E-27 1.003E-27 4.433E-28 2.354E-28 1.389E-28 8.697E-29 5.406E-29 0.000E+00 4.795E-27 1.436E-27 6.322E-28 3.336E-28 1.938E-28 1.142E-28 0.000E+00 7.270E-27 2.159E-27 9.438E-28 4.905E-28 2.686E-28 0.000E+00 1.182E-26 3.461E-27 1.488E-27 7.294E-28 0.000E+00 2.123E-26 6.036E-27 2.439E-27 0.000E+00 4.440E-26 1.152E-26 0.000E+00 1.199E-25 1.030E-24
1.000E+03 1 3.000E+04 B 104 25
0.000E+00 1.567E-28 4.671E-29 2.050E-29 1.089E-29 6.497E-30 4.190E-30 2.861E-30 2.039E-30 1.504E-30 1.141E-30 8.851E-31 6.999E-31 5.625E-31 4.584E-31 3.780E-31 3.149E-31 2.646E-31 2.240E-31 1.906E-31 1.626E-31 1.386E-31 1.168E-31 9.299E-32 0.000E+00 1.760E-28 5.261E-29 2.315E-29 1.232E-29 7.354E-30 4.745E-30 3.240E-30 2.310E-30 1.703E-30 1.292E-30 1.002E-30 7.917E-31 6.359E-31 5.179E-31 4.266E-31 3.550E-31 2.977E-31 2.513E-31 2.129E-31 1.802E-31 1.509E-31 1.195E-31 0.000E+00 1.988E-28 5.960E-29 2.629E-29 1.401E-29 8.368E-30 5.401E-30 3.688E-30 2.629E-30 1.938E-30 1.469E-30 1.139E-30 8.997E-31 7.222E-31 5.875E-31 4.834E-31 4.015E-31 3.358E-31 2.822E-31 2.372E-31 1.972E-31 1.552E-31 0.000E+00 2.258E-28 6.796E-29 3.004E-29 1.602E-29 9.576E-30 6.182E-30 4.221E-30 3.008E-30 2.218E-30 1.680E-30 1.302E-30 1.028E-30 8.240E-31 6.695E-31 5.498E-31 4.554E-31 3.793E-31 3.162E-31 2.610E-31 2.040E-31 0.000E+00 2.584E-28 7.801E-29 3.455E-29 1.845E-29 1.103E-29 7.118E-30 4.859E-30 3.462E-30 2.551E-30 1.932E-30 1.496E-30 1.180E-30 9.449E-31 7.663E-31 6.277E-31 5.177E-31 4.277E-31 3.502E-31 2.717E-31 0.000E+00 2.978E-28 9.021E-29 4.002E-29 2.138E-29 1.278E-29 8.250E-30 5.631E-30 4.011E-30 2.954E-30 2.235E-30 1.729E-30 1.362E-30 1.089E-30 8.810E-31 7.185E-31 5.878E-31 4.769E-31 3.670E-31 0.000E+00 3.463E-28 1.052E-28 4.670E-29 2.495E-29 1.492E-29 9.631E-30 6.572E-30 4.679E-30 3.444E-30 2.604E-30 2.012E-30 1.582E-30 1.262E-30 1.016E-30 8.221E-31 6.605E-31 5.036E-31 0.000E+00 4.064E-28 1.236E-28 5.495E-29 2.937E-29 1.756E-29 1.133E-29 7.731E-30 5.501E-30 4.046E-30 3.056E-30 2.357E-30 1.849E-30 1.468E-30 1.173E-30 9.318E-31 7.032E-31 0.000E+00 4.818E-28 1.468E-28 6.526E-29 3.489E-29 2.086E-29 1.346E-29 9.175E-30 6.524E-30 4.794E-30 3.615E-30 2.781E-30 2.172E-30 1.711E-30 1.342E-30 1.002E-30 0.000E+00 5.778E-28 1.761E-28 7.833E-29 4.187E-29 2.503E-29 1.614E-29 1.100E-29 7.812E-30 5.731E-30 4.311E-30 3.303E-30 2.559E-30 1.979E-30 1.458E-30 0.000E+00 7.017E-28 2.139E-28 9.511E-29 5.084E-29 3.038E-29 1.958E-29 1.333E-29 9.454E-30 6.920E-30 5.183E-30 3.940E-30 2.998E-30 2.177E-30 0.000E+00 8.643E-28 2.633E-28 1.171E-28 6.255E-29 3.736E-29 2.406E-29 1.636E-29 1.158E-29 8.438E-30 6.271E-30 4.681E-30 3.344E-30 0.000E+00 1.082E-27 3.293E-28 1.463E-28 7.815E-29 4.664E-29 3.000E-29 2.035E-29 1.435E-29 1.038E-29 7.575E-30 5.309E-30 0.000E+00 1.380E-27 4.193E-28 1.862E-28 9.937E-29 5.924E-29 3.803E-29 2.570E-29 1.799E-29 1.278E-29 8.757E-30 0.000E+00 1.800E-27 5.456E-28 2.420E-28 1.290E-28 7.677E-29 4.911E-29 3.296E-29 2.266E-29 1.511E-29 0.000E+00 2.409E-27 7.283E-28 3.226E-28 1.716E-28 1.018E-28 6.468E-29 4.266E-29 2.754E-29 0.000E+00 3.331E-27 1.003E-27 4.432E-28 2.351E-28 1.385E-28 8.654E-29 5.363E-29 0.000E+00 4.795E-27 1.436E-27 6.319E-28 3.330E-28 1.931E-28 1.134E-28 0.000E+00 7.271E-27 2.159E-27 9.431E-28 4.893E-28 2.670E-28 0.000E+00 1.182E-26 3.461E-27 1.486E-27 7.261E-28 0.000E+00 2.123E-26 6.034E-27 2.431E-27 0.000E+00 4.441E-26 1.150E-26 0.000E+00 1.199E-25 1.128E-24
1.000E+04 1 3.000E+04 B 69 25
0.000E+00 1.628E-28 4.904E-29 2.117E-29 1.106E-29 6.514E-30 4.162E-30 2.821E-30 2.000E-30 1.470E-30 1.111E-30 8.605E-31 6.794E-31 5.455E-31 4.443E-31 3.663E-31 3.052E-31 2.565E-31 2.172E-31 1.850E-31 1.581E-31 1.349E-31 1.138E-31 9.087E-32 0.000E+00 1.835E-28 5.505E-29 2.378E-29 1.245E-29 7.340E-30 4.695E-30 3.185E-30 2.260E-30 1.662E-30 1.257E-30 9.733E-31 7.686E-31 6.170E-31 5.023E-31 4.139E-31 3.445E-31 2.891E-31 2.443E-31 2.072E-31 1.756E-31 1.473E-31 1.169E-31 0.000E+00 2.078E-28 6.210E-29 2.685E-29 1.408E-29 8.317E-30 5.326E-30 3.618E-30 2.569E-30 1.890E-30 1.430E-30 1.107E-30 8.741E-31 7.014E-31 5.707E-31 4.697E-31 3.904E-31 3.268E-31 2.750E-31 2.314E-31 1.928E-31 1.521E-31 0.000E+00 2.365E-28 7.043E-29 3.050E-29 1.603E-29 9.484E-30 6.082E-30 4.135E-30 2.938E-30 2.162E-30 1.636E-30 1.267E-30 9.997E-31 8.017E-31 6.516E-31 5.355E-31 4.439E-31 3.701E-31 3.090E-31 2.555E-31 2.001E-31 0.000E+00 2.707E-28 8.037E-29 3.488E-29 1.837E-29 1.089E-29 6.995E-30 4.759E-30 3.384E-30 2.490E-30 1.884E-30 1.458E-30 1.150E-30 9.214E-31 7.476E-31 6.128E-31 5.058E-31 4.184E-31 3.431E-31 2.667E-31 0.000E+00 3.116E-28 9.237E-29 4.020E-29 2.123E-29 1.261E-29 8.106E-30 5.519E-30 3.925E-30 2.888E-30 2.185E-30 1.690E-30 1.331E-30 1.065E-30 8.615E-31 7.031E-31 5.758E-31 4.678E-31 3.606E-31 0.000E+00 3.609E-28 1.070E-28 4.674E-29 2.475E-29 1.472E-29 9.472E-30 6.452E-30 4.588E-30 3.375E-30 2.551E-30 1.971E-30 1.550E-30 1.236E-30 9.960E-31 8.063E-31 6.485E-31 4.952E-31 0.000E+00 4.213E-28 1.252E-28 5.487E-29 2.912E-29 1.734E-29 1.116E-29 7.606E-30 5.407E-30 3.975E-30 3.001E-30 2.314E-30 1.815E-30 1.441E-30 1.152E-30 9.156E-31 6.919E-31 0.000E+00 4.962E-28 1.480E-28 6.508E-29 3.460E-29 2.063E-29 1.328E-29 9.047E-30 6.428E-30 4.720E-30 3.557E-30 2.735E-30 2.136E-30 1.682E-30 1.320E-30 9.860E-31 0.000E+00 5.909E-28 1.770E-28 7.808E-29 4.157E-29 2.479E-29 1.597E-29 1.087E-29 7.712E-30 5.653E-30 4.249E-30 3.253E-30 2.519E-30 1.948E-30 1.436E-30 0.000E+00 7.130E-28 2.145E-28 9.484E-29 5.054E-29 3.015E-29 1.940E-29 1.319E-29 9.348E-30 6.834E-30 5.114E-30 3.884E-30 2.953E-30 2.145E-30 0.000E+00 8.734E-28 2.637E-28 1.168E-28 6.226E-29 3.713E-29 2.388E-29 1.621E-29 1.146E-29 8.340E-30 6.190E-30 4.616E-30 3.296E-30 0.000E+00 1.089E-27 3.295E-28 1.460E-28 7.786E-29 4.640E-29 2.980E-29 2.019E-29 1.421E-29 1.026E-29 7.477E-30 5.235E-30 0.000E+00 1.385E-27 4.195E-28 1.859E-28 9.908E-29 5.898E-29 3.780E-29 2.550E-29 1.781E-29 1.263E-29 8.639E-30 0.000E+00 1.803E-27 5.457E-28 2.417E-28 1.287E-28 7.645E-29 4.881E-29 3.268E-29 2.241E-29 1.492E-29 0.000E+00 2.411E-27 7.284E-28 3.222E-28 1.712E-28 1.014E-28 6.425E-29 4.226E-29 2.720E-29 0.000E+00 3.332E-27 1.003E-27 4.427E-28 2.344E-28 1.378E-28 8.585E-29 5.302E-29 0.000E+00 4.795E-27 1.436E-27 6.311E-28 3.320E-28 1.919E-28 1.123E-28 0.000E+00 7.272E-27 2.159E-27 9.416E-28 4.871E-28 2.647E-28 0.000E+00 1.183E-26 3.460E-27 1.482E-27 7.209E-28 0.000E+00 2.124E-26 6.029E-27 2.419E-27 0.000E+00 4.443E-26 1.147E-26 0.000E+00 1.199E-25 1.426E-24
1.000E+05 1 3.000E+04 B 50 25
0.000E+00 1.672E-28 5.118E-29 2.201E-29 1.142E-29 6.671E-30 4.231E-30 2.850E-30 2.010E-30 1.470E-30 1.107E-30 8.537E-31 6.720E-31 5.381E-31 4.372E-31 3.598E-31 2.992E-31 2.511E-31 2.124E-31 1.807E-31 1.543E-31 1.316E-31 1.110E-31 8.863E-32 0.000E+00 1.881E-28 5.753E-29 2.475E-29 1.284E-29 7.506E-30 4.762E-30 3.209E-30 2.263E-30 1.655E-30 1.247E-30 9.617E-31 7.569E-31 6.060E-31 4.922E-31 4.048E-31 3.363E-31 2.819E-31 2.379E-31 2.016E-31 1.709E-31 1.433E-31 1.138E-31 0.000E+00 2.128E-28 6.500E-29 2.796E-29 1.452E-29 8.490E-30 5.389E-30 3.632E-30 2.563E-30 1.875E-30 1.412E-30 1.089E-30 8.572E-31 6.861E-31 5.570E-31 4.576E-31 3.798E-31 3.176E-31 2.670E-31 2.247E-31 1.872E-31 1.477E-31 0.000E+00 2.422E-28 7.383E-29 3.177E-29 1.650E-29 9.656E-30 6.133E-30 4.135E-30 2.919E-30 2.136E-30 1.609E-30 1.241E-30 9.765E-31 7.811E-31 6.337E-31 5.200E-31 4.306E-31 3.588E-31 2.995E-31 2.477E-31 1.942E-31 0.000E+00 2.773E-28 8.435E-29 3.630E-29 1.887E-29 1.105E-29 7.023E-30 4.738E-30 3.346E-30 2.449E-30 1.845E-30 1.423E-30 1.119E-30 8.948E-31 7.249E-31 5.937E-31 4.898E-31 4.052E-31 3.325E-31 2.588E-31 0.000E+00 3.199E-28 9.698E-29 4.174E-29 2.172E-29 1.273E-29 8.098E-30 5.468E-30 3.863E-30 2.828E-30 2.131E-30 1.643E-30 1.292E-30 1.031E-30 8.339E-31 6.804E-31 5.573E-31 4.533E-31 3.500E-31 0.000E+00 3.719E-28 1.123E-28 4.834E-29 2.518E-29 1.478E-29 9.410E-30 6.358E-30 4.495E-30 3.292E-30 2.480E-30 1.911E-30 1.501E-30 1.196E-30 9.637E-31 7.806E-31 6.286E-31 4.811E-31 0.000E+00 4.362E-28 1.310E-28 5.642E-29 2.943E-29 1.730E-29 1.103E-29 7.460E-30 5.276E-30 3.865E-30 2.910E-30 2.241E-30 1.757E-30 1.395E-30 1.116E-30 8.884E-31 6.731E-31 0.000E+00 5.164E-28 1.541E-28 6.644E-29 3.473E-29 2.045E-29 1.306E-29 8.841E-30 6.256E-30 4.581E-30 3.447E-30 2.650E-30 2.069E-30 1.631E-30 1.282E-30 9.605E-31 0.000E+00 6.172E-28 1.832E-28 7.909E-29 4.145E-29 2.446E-29 1.564E-29 1.060E-29 7.499E-30 5.488E-30 4.122E-30 3.157E-30 2.447E-30 1.895E-30 1.401E-30 0.000E+00 7.453E-28 2.202E-28 9.536E-29 5.013E-29 2.965E-29 1.898E-29 1.286E-29 9.099E-30 6.646E-30 4.973E-30 3.779E-30 2.878E-30 2.096E-30 0.000E+00 9.103E-28 2.685E-28 1.167E-28 6.157E-29 3.648E-29 2.337E-29 1.583E-29 1.118E-29 8.133E-30 6.038E-30 4.507E-30 3.224E-30 0.000E+00 1.127E-27 3.332E-28 1.455E-28 7.695E-29 4.565E-29 2.924E-29 1.977E-29 1.390E-29 1.003E-29 7.314E-30 5.127E-30 0.000E+00 1.421E-27 4.219E-28 1.850E-28 9.803E-29 5.815E-29 3.718E-29 2.504E-29 1.747E-29 1.238E-29 8.471E-30 0.000E+00 1.833E-27 5.470E-28 2.406E-28 1.275E-28 7.555E-29 4.812E-29 3.215E-29 2.202E-29 1.464E-29 0.000E+00 2.434E-27 7.289E-28 3.210E-28 1.700E-28 1.003E-28 6.342E-29 4.160E-29 2.673E-29 0.000E+00 3.347E-27 1.003E-27 4.413E-28 2.330E-28 1.365E-28 8.474E-29 5.216E-29 0.000E+00 4.804E-27 1.435E-27 6.293E-28 3.299E-28 1.899E-28 1.106E-28 0.000E+00 7.277E-27 2.158E-27 9.386E-28 4.835E-28 2.613E-28 0.000E+00 1.183E-26 3.458E-27 1.475E-27 7.132E-28 0.000E+00 2.126E-26 6.020E-27 2.400E-27 0.000E+00 4.446E-26 1.142E-26 0.000E+00 1.198E-25 1.592E-24
1.000E+06 1 3.000E+04 B 50 25
0.000E+00 1.750E-28 5.365E-29 2.305E-29 1.194E-29 6.960E-30 4.406E-30 2.963E-30 2.086E-30 1.523E-30 1.146E-30 8.828E-31 6.942E-31 5.553E-31 4.508E-31 3.706E-31 3.080E-31 2.584E-31 2.184E-31 1.856E-31 1.584E-31 1.350E-31 1.139E-31 9.085E-32 0.000E+00 1.961E-28 6.011E-29 2.583E-29 1.337E-29 7.797E-30 4.936E-30 3.319E-30 2.337E-30 1.706E-30 1.283E-30 9.884E-31 7.769E-31 6.213E-31 5.041E-31 4.141E-31 3.438E-31 2.879E-31 2.428E-31 2.056E-31 1.741E-31 1.459E-31 1.158E-31 0.000E+00 2.209E-28 6.771E-29 2.909E-29 1.506E-29 8.782E-30 5.559E-30 3.738E-30 2.631E-30 1.921E-30 1.444E-30 1.112E-30 8.740E-31 6.985E-31 5.664E-31 4.648E-31 3.853E-31 3.220E-31 2.704E-31 2.274E-31 1.893E-31 1.493E-31 0.000E+00 2.503E-28 7.671E-29 3.296E-29 1.707E-29 9.950E-30 6.299E-30 4.235E-30 2.981E-30 2.176E-30 1.635E-30 1.259E-30 9.888E-31 7.898E-31 6.397E-31 5.242E-31 4.336E-31 3.609E-31 3.009E-31 2.487E-31 1.948E-31 0.000E+00 2.856E-28 8.750E-29 3.759E-29 1.947E-29 1.135E-29 7.185E-30 4.830E-30 3.399E-30 2.481E-30 1.864E-30 1.434E-30 1.126E-30 8.983E-31 7.266E-31 5.941E-31 4.895E-31 4.044E-31 3.315E-31 2.578E-31 0.000E+00 3.284E-28 1.005E-28 4.319E-29 2.236E-29 1.304E-29 8.255E-30 5.549E-30 3.905E-30 2.849E-30 2.140E-30 1.646E-30 1.291E-30 1.028E-30 8.298E-31 6.759E-31 5.528E-31 4.491E-31 3.464E-31 0.000E+00 3.805E-28 1.164E-28 5.001E-29 2.590E-29 1.510E-29 9.562E-30 6.427E-30 4.522E-30 3.298E-30 2.476E-30 1.902E-30 1.490E-30 1.185E-30 9.524E-31 7.701E-31 6.192E-31 4.734E-31 0.000E+00 4.450E-28 1.360E-28 5.840E-29 3.025E-29 1.765E-29 1.117E-29 7.509E-30 5.282E-30 3.851E-30 2.889E-30 2.217E-30 1.732E-30 1.372E-30 1.095E-30 8.709E-31 6.591E-31 0.000E+00 5.254E-28 1.603E-28 6.884E-29 3.567E-29 2.081E-29 1.318E-29 8.856E-30 6.229E-30 4.538E-30 3.400E-30 2.604E-30 2.028E-30 1.595E-30 1.252E-30 9.368E-31 0.000E+00 6.274E-28 1.909E-28 8.195E-29 4.248E-29 2.479E-29 1.570E-29 1.055E-29 7.420E-30 5.401E-30 4.040E-30 3.083E-30 2.384E-30 1.844E-30 1.363E-30 0.000E+00 7.587E-28 2.299E-28 9.867E-29 5.117E-29 2.988E-29 1.893E-29 1.272E-29 8.941E-30 6.498E-30 4.844E-30 3.673E-30 2.793E-30 2.034E-30 0.000E+00 9.311E-28 2.804E-28 1.203E-28 6.243E-29 3.649E-29 2.313E-29 1.554E-29 1.091E-29 7.906E-30 5.855E-30 4.367E-30 3.127E-30 0.000E+00 1.161E-27 3.470E-28 1.488E-28 7.733E-29 4.525E-29 2.870E-29 1.927E-29 1.349E-29 9.718E-30 7.081E-30 4.972E-30 0.000E+00 1.475E-27 4.365E-28 1.873E-28 9.755E-29 5.717E-29 3.626E-29 2.431E-29 1.692E-29 1.199E-29 8.221E-30 0.000E+00 1.911E-27 5.605E-28 2.411E-28 1.259E-28 7.388E-29 4.680E-29 3.119E-29 2.135E-29 1.423E-29 0.000E+00 2.529E-27 7.388E-28 3.191E-28 1.671E-28 9.801E-29 6.174E-29 4.046E-29 2.603E-29 0.000E+00 3.445E-27 1.008E-27 4.373E-28 2.291E-28 1.336E-28 8.274E-29 5.092E-29 0.000E+00 4.887E-27 1.436E-27 6.237E-28 3.251E-28 1.863E-28 1.083E-28 0.000E+00 7.334E-27 2.155E-27 9.312E-28 4.769E-28 2.564E-28 0.000E+00 1.187E-26 3.451E-27 1.463E-27 7.023E-28 0.000E+00 2.128E-26 6.002E-27 2.373E-27 0.000E+00 4.449E-26 1.135E-26 0.000E+00 1.198E-25 1.620E-24
1.000E+07 1 3.000E+04 B 50 25
0.000E+00 1.861E-28 5.706E-29 2.451E-29 1.268E-29 7.393E-30 4.678E-30 3.145E-30 2.214E-30 1.616E-30 1.215E-30 9.360E-31 7.358E-31 5.884E-31 4.776E-31 3.925E-31 3.261E-31 2.735E-31 2.311E-31 1.964E-31 1.675E-31 1.428E-31 1.203E-31 9.597E-32 0.000E+00 2.091E-28 6.410E-29 2.753E-29 1.425E-29 8.303E-30 5.254E-30 3.531E-30 2.485E-30 1.814E-30 1.364E-30 1.050E-30 8.252E-31 6.597E-31 5.351E-31 4.394E-31 3.647E-31 3.054E-31 2.574E-31 2.179E-31 1.845E-31 1.545E-31 1.226E-31 0.000E+00 2.358E-28 7.230E-29 3.105E-29 1.607E-29 9.363E-30 5.924E-30 3.981E-30 2.801E-30 2.044E-30 1.536E-30 1.183E-30 9.289E-31 7.421E-31 6.015E-31 4.935E-31 4.090E-31 3.416E-31 2.868E-31 2.410E-31 2.005E-31 1.581E-31 0.000E+00 2.672E-28 8.191E-29 3.517E-29 1.820E-29 1.060E-29 6.708E-30 4.507E-30 3.171E-30 2.313E-30 1.738E-30 1.337E-30 1.050E-30 8.381E-31 6.786E-31 5.558E-31 4.595E-31 3.823E-31 3.187E-31 2.632E-31 2.061E-31 0.000E+00 3.042E-28 9.324E-29 4.003E-29 2.071E-29 1.207E-29 7.633E-30 5.127E-30 3.606E-30 2.630E-30 1.975E-30 1.519E-30 1.191E-30 9.502E-31 7.681E-31 6.277E-31 5.169E-31 4.269E-31 3.497E-31 2.718E-31 0.000E+00 3.483E-28 1.067E-28 4.582E-29 2.370E-29 1.381E-29 8.731E-30 5.864E-30 4.123E-30 3.006E-30 2.256E-30 1.733E-30 1.358E-30 1.082E-30 8.724E-31 7.102E-31 5.805E-31 4.713E-31 3.633E-31 0.000E+00 4.012E-28 1.229E-28 5.277E-29 2.730E-29 1.590E-29 1.005E-29 6.748E-30 4.743E-30 3.456E-30 2.591E-30 1.989E-30 1.557E-30 1.237E-30 9.936E-31 8.028E-31 6.451E-31 4.928E-31 0.000E+00 4.659E-28 1.427E-28 6.125E-29 3.168E-29 1.844E-29 1.166E-29 7.823E-30 5.496E-30 4.001E-30 2.998E-30 2.298E-30 1.794E-30 1.420E-30 1.132E-30 8.993E-31 6.800E-31 0.000E+00 5.460E-28 1.672E-28 7.174E-29 3.710E-29 2.159E-29 1.364E-29 9.152E-30 6.425E-30 4.673E-30 3.496E-30 2.674E-30 2.079E-30 1.633E-30 1.280E-30 9.571E-31 0.000E+00 6.471E-28 1.981E-28 8.496E-29 4.392E-29 2.556E-29 1.614E-29 1.082E-29 7.589E-30 5.512E-30 4.114E-30 3.134E-30 2.420E-30 1.868E-30 1.379E-30 0.000E+00 7.771E-28 2.377E-28 1.019E-28 5.267E-29 3.064E-29 1.934E-29 1.295E-29 9.071E-30 6.574E-30 4.888E-30 3.697E-30 2.806E-30 2.039E-30 0.000E+00 9.475E-28 2.894E-28 1.240E-28 6.408E-29 3.726E-29 2.350E-29 1.572E-29 1.098E-29 7.931E-30 5.855E-30 4.354E-30 3.110E-30 0.000E+00 1.175E-27 3.582E-28 1.534E-28 7.921E-29 4.603E-29 2.900E-29 1.936E-29 1.348E-29 9.666E-30 7.017E-30 4.912E-30 0.000E+00 1.487E-27 4.515E-28 1.932E-28 9.968E-29 5.787E-29 3.640E-29 2.422E-29 1.675E-29 1.181E-29 8.075E-30 0.000E+00 1.926E-27 5.812E-28 2.482E-28 1.280E-28 7.420E-29 4.654E-29 3.077E-29 2.094E-29 1.391E-29 0.000E+00 2.568E-27 7.667E-28 3.266E-28 1.682E-28 9.730E-29 6.068E-29 3.951E-29 2.534E-29 0.000E+00 3.540E-27 1.041E-27 4.420E-28 2.273E-28 1.309E-28 8.049E-29 4.943E-29 0.000E+00 5.067E-27 1.464E-27 6.209E-28 3.185E-28 1.811E-28 1.050E-28 0.000E+00 7.580E-27 2.165E-27 9.176E-28 4.653E-28 2.493E-28 0.000E+00 1.210E-26 3.438E-27 1.440E-27 6.862E-28 0.000E+00 2.144E-26 5.965E-27 2.334E-27 0.000E+00 4.458E-26 1.125E-26 0.000E+00 1.197E-25 1.627E-24
1.000E+08 1 3.000E+04 B 50 25
0.000E+00 1.911E-28 5.861E-29 2.517E-29 1.303E-29 7.592E-30 4.804E-30 3.229E-30 2.273E-30 1.659E-30 1.247E-30 9.608E-31 7.553E-31 6.040E-31 4.902E-31 4.029E-31 3.347E-31 2.806E-31 2.371E-31 2.015E-31 1.719E-31 1.465E-31 1.234E-31 9.842E-32 0.000E+00 2.158E-28 6.615E-29 2.841E-29 1.470E-29 8.567E-30 5.420E-30 3.643E-30 2.564E-30 1.871E-30 1.406E-30 1.083E-30 8.509E-31 6.802E-31 5.517E-31 4.530E-31 3.760E-31 3.148E-31 2.653E-31 2.246E-31 1.901E-31 1.592E-31 1.263E-31 0.000E+00 2.447E-28 7.503E-29 3.222E-29 1.667E-29 9.713E-30 6.144E-30 4.128E-30 2.905E-30 2.120E-30 1.593E-30 1.226E-30 9.629E-31 7.692E-31 6.234E-31 5.114E-31 4.237E-31 3.539E-31 2.971E-31 2.496E-31 2.077E-31 1.637E-31 0.000E+00 2.790E-28 8.552E-29 3.672E-29 1.900E-29 1.107E-29 7.000E-30 4.702E-30 3.308E-30 2.413E-30 1.812E-30 1.394E-30 1.095E-30 8.737E-31 7.073E-31 5.793E-31 4.789E-31 3.984E-31 3.319E-31 2.741E-31 2.146E-31 0.000E+00 3.198E-28 9.801E-29 4.208E-29 2.177E-29 1.268E-29 8.017E-30 5.384E-30 3.786E-30 2.761E-30 2.073E-30 1.594E-30 1.250E-30 9.968E-31 8.057E-31 6.583E-31 5.420E-31 4.475E-31 3.665E-31 2.848E-31 0.000E+00 3.687E-28 1.130E-28 4.849E-29 2.508E-29 1.461E-29 9.234E-30 6.200E-30 4.358E-30 3.176E-30 2.383E-30 1.831E-30 1.435E-30 1.142E-30 9.210E-31 7.496E-31 6.126E-31 4.971E-31 3.830E-31 0.000E+00 4.276E-28 1.310E-28 5.623E-29 2.908E-29 1.693E-29 1.070E-29 7.181E-30 5.046E-30 3.675E-30 2.755E-30 2.115E-30 1.654E-30 1.314E-30 1.055E-30 8.524E-31 6.847E-31 5.228E-31 0.000E+00 4.992E-28 1.530E-28 6.562E-29 3.393E-29 1.975E-29 1.248E-29 8.370E-30 5.877E-30 4.278E-30 3.204E-30 2.455E-30 1.916E-30 1.516E-30 1.208E-30 9.592E-31 7.249E-31 0.000E+00 5.870E-28 1.798E-28 7.713E-29 3.986E-29 2.319E-29 1.465E-29 9.820E-30 6.890E-30 5.010E-30 3.746E-30 2.864E-30 2.226E-30 1.748E-30 1.370E-30 1.023E-30 0.000E+00 6.956E-28 2.130E-28 9.134E-29 4.719E-29 2.745E-29 1.732E-29 1.160E-29 8.134E-30 5.905E-30 4.405E-30 3.354E-30 2.588E-30 1.997E-30 1.473E-30 0.000E+00 8.316E-28 2.546E-28 1.091E-28 5.635E-29 3.276E-29 2.066E-29 1.383E-29 9.676E-30 7.007E-30 5.207E-30 3.935E-30 2.985E-30 2.168E-30 0.000E+00 1.005E-27 3.075E-28 1.318E-28 6.801E-29 3.950E-29 2.489E-29 1.663E-29 1.161E-29 8.376E-30 6.178E-30 4.590E-30 3.276E-30 0.000E+00 1.232E-27 3.767E-28 1.613E-28 8.319E-29 4.827E-29 3.036E-29 2.024E-29 1.408E-29 1.008E-29 7.310E-30 5.111E-30 0.000E+00 1.538E-27 4.699E-28 2.010E-28 1.036E-28 6.001E-29 3.767E-29 2.501E-29 1.727E-29 1.216E-29 8.295E-30 0.000E+00 1.968E-27 6.001E-28 2.564E-28 1.319E-28 7.626E-29 4.768E-29 3.143E-29 2.133E-29 1.413E-29 0.000E+00 2.592E-27 7.882E-28 3.361E-28 1.725E-28 9.935E-29 6.167E-29 3.997E-29 2.553E-29 0.000E+00 3.538E-27 1.070E-27 4.547E-28 2.324E-28 1.329E-28 8.110E-29 4.949E-29 0.000E+00 5.051E-27 1.510E-27 6.377E-28 3.234E-28 1.818E-28 1.045E-28 0.000E+00 7.644E-27 2.233E-27 9.320E-28 4.645E-28 2.460E-28 0.000E+00 1.243E-26 3.498E-27 1.430E-27 6.720E-28 0.000E+00 2.205E-26 5.941E-27 2.284E-27 0.000E+00 4.512E-26 1.110E-26 0.000E+00 1.198E-25 1.635E-24
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914.000 0.6928 0.0214 -0.0163 -0.2431 -0.8800
962.000 1.0998 -0.0042 -0.0279 -0.2294 -0.9656
997.000 0.7821 -0.3684 0.0003 -0.1217 -0.7874
1064.00 1.7852 -0.0545 -0.0387 -0.2083 -1.1416
1066.00 4.8730 -0.1628 0.0218 -0.1224 -0.6327
1142.00 7.0215 -0.2315 -0.0418 -0.1438 -0.7814
1157.00 0.3719 -0.2897 -0.0547 -0.1232 -0.7311
1232.00 2.4954 -0.4875 0.0411 -0.1048 -0.8786
1270.00 0.6192 -0.3684 0.0003 -0.1217 -0.7874
1324.00 1.0791 -2.2342 1.3884 -0.0351 -1.8815
1505.00 0.4713 -0.2897 -0.0547 -0.1232 -0.7310
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�������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/Rneii_old.dat���������������������������������������������������������������0000664�0000000�0000000�00000000536�12714613141�0017623�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������3694.22 21.883 -0.898 -0.074 -0.024 -1.7205 0.350
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702 5001.4770 0.4300 08L 0.4300 04 V19 166582.2500 5 3p 3D 186570.7800 7 3d 3F* 0.2963
702 5005.1490 0.5900 08L 0.5900 04 V19 166678.4400 7 3p 3D 186652.2900 9 3d 3F* 0.4286
702 5016.3870 -0.4700 08L -0.4700 04L V19 166582.2500 5 3p 3D 186511.3800 5 3d 3F* 0.0370
702 5025.6620 -0.4700 08L -0.4700 04L V19 166678.4400 7 3p 3D 186570.7800 7 3d 3F* 0.0370
702 5040.7200 -2.0200 08L -2.0200 04L V19 166678.4400 7 3p 3D 186511.3800 5 3d 3F* 0.0011
702 4774.2410 -1.0600 08L -1.0500 04 V20 166521.4900 3 3p 3D 187461.3600 5 3d 3D* 0.0500
702 4779.7220 -0.5800 08L -0.5800 04 V20 166521.4900 3 3p 3D 187437.3600 3 3d 3D* 0.1500
702 4781.1900 -1.0400 08L -1.0400 04 V20 166582.2500 5 3p 3D 187491.7000 7 3d 3D* 0.0518
702 4788.1310 -0.3900 08L -0.3900 04 V20 166582.2500 5 3p 3D 187461.3600 5 3d 3D* 0.2315
702 4793.6500 -1.0600 08L -1.0500 04L V20 166582.2500 5 3p 3D 187437.3600 3 3d 3D* 0.0500
702 4803.2890 -0.1400 08L -0.1400 04 V20 166678.4400 7 3p 3D 187491.7000 7 3d 3D* 0.4148
702 4810.3060 -1.0400 08L -1.0400 04L V20 166678.4400 7 3p 3D 187461.3600 5 3d 3D* 0.0518
702 4459.9330 -1.4900 08L -1.5100 04L V21 166521.4900 3 3p 3D 188937.0400 1 3d 3P* 0.1111
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702 4475.8860 P -2.7900 08L -2.8100 04L V21 166521.4900 3 3p 3D 188857.1700 5 3d 3P* 0.0056
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702 4488.1200 -1.6100 08L -1.6400 04L V21 166582.2500 5 3p 3D 188857.1700 5 3d 3P* 0.0833
702 4507.5570 -0.8600 08L -0.8900 04L V21 166678.4400 7 3p 3D 188857.1700 5 3d 3P* 0.4667
702 3311.4180 P -2.0100 08L -2.0100 04L V22 166521.4900 3 3p 3D 196711.3400 5 4s 3P* 0.0056
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702 3324.5730 -0.8300 08L -0.8300 04L V22 166521.4900 3 3p 3D 196591.8700 3 4s 3P* 0.0833
702 3328.7300 -0.0800 08L -0.0800 04L V22 166678.4400 7 3p 3D 196711.3400 5 4s 3P* 0.4667
702 3330.3140 -0.7100 08L -0.7100 04L V22 166521.4900 3 3p 3D 196540.0300 1 4s 3P* 0.1111
702 3331.3100 -0.3500 08L -0.3600 04L V22 166582.2500 5 3p 3D 196591.8700 3 4s 3P* 0.2500
702 4987.3670 -0.5300 08L -0.5300 04 V24 168892.0100 3 3p 3S 188937.0400 1 3d 3P* 0.1111
702 4994.3630 -0.0500 08L -0.0600 04 V24 168892.0100 3 3p 3S 188908.9700 3 3d 3P* 0.3333
702 5007.3250 0.1700 08L 0.1600 04 V24 168892.0100 3 3p 3S 188857.1700 5 3d 3P* 0.5556
702 3593.5970 -0.9000 08L -0.8900 04L V26 168892.0100 3 3p 3S 196711.3400 5 4s 3P* 0.5556
702 3609.0970 -1.1300 08L -1.1100 04L V26 168892.0100 3 3p 3S 196591.8700 3 4s 3P* 0.3333
702 3615.8580 -1.6000 08L -1.5900 04L V26 168892.0100 3 3p 3S 196540.0300 1 4s 3P* 0.1111
702 5927.8110 -0.3100 08L -0.3100 04L V28 170572.4100 1 3p 3P 187437.3600 3 3d 3D* 0.1111
702 5931.7790 0.0400 08L 0.0400 04L V28 170607.6900 3 3p 3P 187461.3600 5 3d 3D* 0.2500
702 5940.2400 -0.4300 08L -0.4300 04L V28 170607.6900 3 3p 3P 187437.3600 3 3d 3D* 0.0833
702 5941.6530 0.3200 08L 0.3200 04L V28 170666.0300 5 3p 3P 187491.7000 7 3d 3D* 0.4667
702 5952.3880 -0.4300 08L -0.4300 04L V28 170666.0300 5 3p 3P 187461.3600 5 3d 3D* 0.0833
702 5960.9010 -1.6100 08L -1.6100 04L V28 170666.0300 5 3p 3P 187437.3600 3 3d 3D* 0.0056
702 5452.0830 -0.8700 08L -0.8600 04L V29 170572.4100 1 3p 3P 188908.9700 3 3d 3P* 0.1111
702 5454.2210 -0.8700 08L -0.8600 04L V29 170607.6900 3 3p 3P 188937.0400 1 3d 3P* 0.1111
702 5462.5920 -1.0000 08L -0.9900 04L V29 170607.6900 3 3p 3P 188908.9700 3 3d 3P* 0.0833
702 5478.0960 -0.7800 08L -0.7700 04L V29 170607.6900 3 3p 3P 188857.1700 5 3d 3P* 0.1389
702 5480.0620 -0.7800 08L -0.7700 04L V29 170666.0300 5 3p 3P 188908.9700 3 3d 3P* 0.1389
702 5495.6660 -0.3000 08L -0.2900 04L V29 170666.0300 5 3p 3P 188857.1700 5 3d 3P* 0.4167
702 3829.7930 -0.5900 08L -0.6000 04L V30 170607.6900 3 3p 3P 196711.3400 5 4s 3P* 0.1389
702 3838.3740 -0.1100 08L -0.1200 04L V30 170666.0300 5 3p 3P 196711.3400 5 4s 3P* 0.4167
702 3842.1830 -0.6900 08L -0.7000 04L V30 170572.4100 1 3p 3P 196591.8700 3 4s 3P* 0.1111
702 3847.4090 -0.8100 08L -0.8200 04L V30 170607.6900 3 3p 3P 196591.8700 3 4s 3P* 0.0833
702 3855.1000 -0.6900 08L -0.7000 04L V30 170607.6900 3 3p 3P 196540.0300 1 4s 3P* 0.1111
702 3856.0570 -0.5900 08L -0.6000 04L V30 170666.0300 5 3p 3P 196591.8700 3 4s 3P* 0.1389
702 6610.5650 0.4600 08 0.4300 18 V31 174211.8300 5 3p 1D 189334.9600 7 3d 1F* 1.0000
702 6114.5980 P -2.5600 08L -2.5600 04L V36 186511.3800 5 3d 3F* 202861.1600 7 4p 3D 0.0011
702 6136.8940 -1.0100 08L -1.0100 04L V36 186570.7800 7 3d 3F* 202861.1600 7 4p 3D 0.0370
702 6150.7550 -1.0100 08L -1.0100 04L V36 186511.3800 5 3d 3F* 202765.0600 5 4p 3D 0.0370
702 6167.7550 0.0600 08L 0.0500 04L V36 186652.2900 9 3d 3F* 202861.1600 7 4p 3D 0.4286
702 6170.1660 -0.2800 08L -0.2800 04L V36 186511.3800 5 3d 3F* 202713.9200 3 4p 3D 0.2000
702 6173.3130 -0.1000 08L -0.1100 04L V36 186570.7800 7 3d 3F* 202765.0600 5 4p 3D 0.2963
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702 4241.2400 -0.3400 04 -0.4000 V48a 187461.3600 5 3d 3D* 211032.7300 5 4f 1<3> 0.0370
702 4237.0500 0.5700 04 0.2100 V48b 187461.3600 5 3d 3D* 211056.0600 7 4f 1<4> 0.2963
702 4246.7070 P -2.0600 -2.0600 V48a 187491.7000 7 3d 3D* 211032.7300 5 4f 1<3> 0.0011
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702 4241.7840 0.7300 04 0.6000 V48a 187491.7000 7 3d 3D* 211060.0400 9 4f 1<4> 0.4286
702 4417.8200 -1.3300 04L -1.2500 V55b 188857.1700 5 3d 3P* 211486.3800 3 4f 2<2> 0.0056
702 4427.9640 -0.1500 04L -0.1500 V55b 188908.9700 3 3d 3P* 211486.3800 3 4f 2<2> 0.0833
702 4431.8160 -0.1500 04 -0.5300 V55a 188857.1700 5 3d 3P* 211414.9600 5 4f 2<3> 0.0833
702 4432.7350 0.6000 04 0.5400 V55a 188857.1700 5 3d 3P* 211410.2700 7 4f 2<3> 0.4667
702 4433.4750 -0.0300 04 -0.0600 V55b 188937.0400 1 3d 3P* 211486.3800 3 4f 2<2> 0.1111
702 4442.0180 0.3300 04 -0.0300 V55a 188908.9700 3 3d 3P* 211414.9600 5 4f 2<3> 0.2500
702 4176.1610 0.6000 04 0.3300 V43a 187091.1700 5 3d 1D* 211029.8700 7 4f 1<3> 1.0000
702 4678.1400 0.4700 04 0.0800 V61b 190120.0400 3 3d 1P* 211490.1000 5 4f 2<2> 1.0000
702 4026.0750 0.2800 0.2800 V39b 186570.7800 7 3d 3F* 211401.8300 9 4f 2<5> 1.0000
702 4552.5270 0.2100 0.2100 V58a 189334.9600 7 3d 1F* 211294.6500 9 4f 2<4> 1.0000
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802 4089.2880 0.8700 06L 0.9000 10 V48a 231530.1490 10 3d 4F 255977.4200 12 4f G5* 1.0000 1.0000 1.0000
802 4114.5020 -0.2800 06L -0.2690 10 V48b 231530.1490 10 3d 4F 255827.5400 10 4f G4* 0.0187 0.0187 0.0187
802 4097.2580 0.7700 06 0.7800 10 V48b 231427.8700 8 3d 4F 255827.5400 10 4f G4* 0.7351 0.7351 0.7351
802 4371.6180 -0.6200 -0.6200 V76b 232959.1500 8 3d 2F 255827.5400 10 4f G4* 0.1249 0.1249 0.1249
802 4332.7070 -0.0600 -0.0600 V65b 232753.7330 8 3d 4D 255827.5400 10 4f G4* 0.1213 0.1213 0.1213
802 4088.2680 -0.9000 -0.9000 V48a 231530.1490 10 3d 4F 255983.5000 10 4f G5* 0.0230 0.0230 0.0230
802 4071.2330 -0.0900 -0.0900 V48a 231427.8700 8 3d 4F 255983.5000 10 4f G5* 0.2036 0.2036 0.2036
802 4342.0040 0.8300 06 0.8100 10 V76a 232959.1500 8 3d 2F 255983.5000 10 4f G5* 0.7018 0.7018 0.7018
802 4303.6090 P 0.3800 0.3800 V65a 232753.7330 8 3d 4D 255983.5000 10 4f G5* 0.0716 0.0716 0.0716
802 4062.9360 -0.2000 06L -0.0900 V50a 231530.1490 10 3d 4F 256135.9800 10 4f F4* 0.1500 0.1500 0.1500
802 4046.1130 -1.2400 06L -1.8300 V50a 231427.8700 8 3d 4F 256135.9800 10 4f F4* 0.0150 0.0150 0.0150
802 4313.4420 0.4600 0.4600 V78a 232959.1500 8 3d 2F 256135.9800 10 4f F4* 0.1534 0.1534 0.1534
802 4275.5510 0.7600 06 0.7600 10 V67a 232753.7330 8 3d 4D 256135.9800 10 4f F4* 0.6815 0.6815 0.6815
802 4114.1750 P -2.5300 -2.5300 V48b 231530.1490 10 3d 4F 255829.5000 8 4f G4* 0.0005 0.0005 0.0005
802 4096.9290 -0.7500 -0.7500 V48b 231427.8700 8 3d 4F 255829.5000 8 4f G4* 0.0459 0.0459 0.0459
802 4371.2450 P -0.7100 06L -0.7300 10 V76b 232959.1500 8 3d 2F 255829.5000 8 4f G4* 0.0023 0.0023 0.0023
802 4332.3320 P -2.0200 -2.0200 V65b 232753.7330 8 3d 4D 255829.5000 8 4f G4* 0.0006 0.0006 0.0006
802 4083.8950 0.1500 0.1500 V48b 231349.9870 6 3d 4F 255829.5000 8 4f G4* 0.4283 0.4283 0.4283
802 4340.3280 0.7300 06 0.7000 10 V76b 232796.2090 6 3d 2F 255829.5000 8 4f G4* 0.3540 0.3540 0.3540
802 4331.1300 -0.9800 -0.9800 V65b 232747.4850 6 3d 4D 255829.5000 8 4f G4* 0.1227 0.1227 0.1227
802 4677.0680 -0.8100 -0.8100 V91 234454.5700 6 3d 2D 255829.5000 8 4f G4* 0.0457 0.0457 0.0457
802 4137.7160 P -1.6600 06L -2.0300 V46a 231530.1490 10 3d 4F 255691.2600 8 4f D3* 0.0014 0.0014 0.0014
802 4120.273 * * * 8 3d 4F * 8 4f D3* 0.0002 0.0002 0.0002
802 4397.8550 -0.9700 -0.9700 V75a 232959.1500 8 3d 2F 255691.2600 8 4f D3* 0.0037 0.0037 0.0037
802 4358.4510 -0.1400 06L -0.8100 V63a 232753.7330 8 3d 4D 255691.2600 8 4f D3* 0.0260 0.0260 0.0260
802 4107.0910 -3.9000 06L -0.1600 V46a 231349.9870 6 3d 4F 255691.2600 8 4f D3* 0.1731 0.1731 0.1731
802 4366.5300 -0.9200 -0.9200 V75a 232796.2090 6 3d 2F 255691.2600 8 4f D3* 0.0497 0.0497 0.0497
802 4357.2520 -0.9200 06L -1.6200 V63a 232747.4850 6 3d 4D 255691.2600 8 4f D3* 0.0794 0.0794 0.0794
802 4707.4840 -1.4900 -1.4900 V89a 234454.5700 6 3d 2D 255691.2600 8 4f D3* 0.0145 0.0145 0.0145
802 4303.8250 0.6700 06 0.6400 10 V53a 232462.6430 6 3d 4P 255691.2600 8 4f D3* 0.6520 0.6520 0.6520
802 4065.0440 -1.2400 06L -1.1200 V50b 231530.1490 10 3d 4F 256123.1500 8 4f F3* 0.0161 0.0161 0.0161
802 4048.2140 -0.3800 06L -0.3700 V50b 231427.8700 8 3d 4F 256123.1500 8 4f F3* 0.0944 0.0944 0.0944
802 4315.8280 -0.3400 -0.3400 V78b 232959.1500 8 3d 2F 256123.1500 8 4f F3* 0.0464 0.0464 0.0464
802 4277.8920 -0.1800 06 -0.1800 10 V67b 232753.7330 8 3d 4D 256123.1500 8 4f F3* 0.1544 0.1544 0.1544
802 4035.4610 -1.1300 06L -4.0100 V50b 231349.9870 6 3d 4F 256123.1500 8 4f F3* 0.0012 0.0012 0.0012
802 4285.6870 -2.2300 -2.2300 V78b 232796.2090 6 3d 2F 256123.1500 8 4f F3* 0.2984 0.2984 0.2984
802 4276.7480 0.6000 06 0.6000 10 V67b 232747.4850 6 3d 4D 256123.1500 8 4f F3* 0.3145 0.3145 0.3145
802 4613.6810 -1.0400 -1.0400 V92b 234454.5700 6 3d 2D 256123.1500 8 4f F3* 0.0737 0.0737 0.0737
802 4225.2620 P -0.9000 -0.9000 232462.6430 6 3d 4P 256123.1500 8 4f F3* 0.0009 0.0009 0.0009
802 4061.7500 P -2.8300 -2.8300 V50a 231530.1490 10 3d 4F 256143.1300 8 4f F4* 0.0018 0.0018 0.0018
802 4044.9420 -1.6200 -1.6200 V50a 231427.8700 8 3d 4F 256143.1300 8 4f F4* 0.0240 0.0240 0.0240
802 4312.1070 -0.2400 06L -0.4300 V78a 232959.1500 8 3d 2F 256143.1300 8 4f F4* 0.0978 0.0978 0.0978
802 4274.2400 -0.5400 -0.5400 V67a 232753.7330 8 3d 4D 256143.1300 8 4f F4* 0.0348 0.0348 0.0348
802 4032.2480 -1.6200 -1.6200 V50a 231349.9870 6 3d 4F 256143.1300 8 4f F4* 0.0166 0.0166 0.0166
802 4282.0150 P -1.6800 06 -1.3500 V78a 232796.2090 6 3d 2F 256143.1300 8 4f F4* 0.0017 0.0017 0.0017
802 4273.1040 -1.3800 -1.3800 V67a 232747.4850 6 3d 4D 256143.1300 8 4f F4* 0.0807 0.0807 0.0807
802 4609.4420 0.7100 06 0.6700 10 V92a 234454.5700 6 3d 2D 256143.1300 8 4f F4* 0.7253 0.7253 0.7253
802 4221.7030 -1.3000 -1.3000 232462.6430 6 3d 4P 256143.1300 8 4f F4* 0.0175 0.0175 0.0175
802 4126.0920 P -1.8100 06L -1.8000 10 V48c 231530.1490 10 3d 4F 255759.3200 8 4f G3* 0.0001 0.0001 0.0001
802 4108.7530 -0.1600 06L -0.1500 10 V48c 231427.8700 8 3d 4F 255759.3200 8 4f G3* 0.0544 0.0544 0.0544
802 4384.7000 P -2.3400 -2.3400 V76c 232959.1500 8 3d 2F 255759.3200 8 4f G3* 0.0023 0.0023 0.0023
802 4345.5490 P -0.7100 -0.7100 V65c 232753.7330 8 3d 4D 255759.3200 8 4f G3* 0.0495 0.0495 0.0495
802 4095.6440 0.6500 06 0.6500 10 V48c 231349.9870 6 3d 4F 255759.3200 8 4f G3* 0.2965 0.2965 0.2965
802 4353.5940 0.2200 0.2200 V76c 232796.2090 6 3d 2F 255759.3200 8 4f G3* 0.1623 0.1623 0.1623
802 4344.4200 -1.7600 -1.7600 V65c 232747.4850 6 3d 4D 255759.3200 8 4f G3* 0.1890 0.1890 0.1890
802 4291.2540 -0.2300 -0.2300 V55 232462.6430 6 3d 4P 255759.3200 8 4f G3* 0.2459 0.2459 0.2459
802 4120.5080 P -2.9000 -2.9000 V46a 231427.8700 8 3d 4F 255689.8800 6 4f D3* 0.0005 0.0005 0.0005
802 4398.0950 P -1.7100 06L -4.6200 V75a 232959.1500 8 3d 2F 255689.8800 6 4f D3* 0.0004 0.0004 0.0004
802 4358.7050 P -1.8600 -1.8600 V63a 232753.7330 8 3d 4D 255689.8800 6 4f D3* 0.0020 0.0020 0.0020
802 4107.3330 -1.4400 -1.4400 V46a 231349.9870 6 3d 4F 255689.8800 6 4f D3* 0.0161 0.0161 0.0161
802 4366.7920 P -3.0100 06L -2.0700 V75a 232796.2090 6 3d 2F 255689.8800 6 4f D3* 0.0093 0.0093 0.0093
802 4707.8110 -0.1900 06L -0.6200 V89a 234454.5700 6 3d 2D 255689.8800 6 4f D3* 0.0318 0.0318 0.0318
802 4304.0800 P -0.9100 -0.9100 V53a 232462.6430 6 3d 4P 255689.8800 6 4f D3* 0.0317 0.0317 0.0317
802 4098.2430 -0.0800 -0.0800 V46a 231296.0400 4 3d 4F 255689.8800 6 4f D3* 0.3333 0.3333 0.3333
802 4357.2520 -1.7700 -1.7700 V63a 232745.9010 4 3d 4D 255689.8800 6 4f D3* 0.0161 0.0161 0.0161
802 4696.3470 -1.3400 04 -0.9800 V89a 234402.7300 4 3d 2D 255689.8800 6 4f D3* 0.0413 0.0413 0.0413
802 4317.7000 -0.1100 -0.1100 V53a 232535.8600 4 3d 4P 255689.8800 6 4f D3* 0.1501 0.1501 0.1501
802 4491.2270 0.4800 06 0.5200 10 V86a 233430.4700 4 3d 2P 255689.8800 6 4f D3* 0.3011 0.3011 0.3011
802 4054.0810 -1.1300 06L -1.2200 V50c 231427.8700 8 3d 4F 256087.7000 6 4f F2* 0.0140 0.0140 0.0140
802 4322.4450 -1.3700 -1.3700 V78c 232959.1500 8 3d 2F 256087.7000 6 4f F2* 0.0068 0.0068 0.0068
802 4284.3930 -1.4700 06L -1.4740 10 V67c 232753.7330 8 3d 4D 256087.7000 6 4f F2* 0.0123 0.0123 0.0123
802 4041.2890 -0.5500 06L -0.7700 V50c 231349.9870 6 3d 4F 256087.7000 6 4f F2* 0.0331 0.0331 0.0331
802 4292.2110 -1.7700 -1.7700 V78c 232796.2090 6 3d 2F 256087.7000 6 4f F2* 0.1864 0.1864 0.1864
802 4283.2490 -0.0700 06 -0.0700 10 V67c 232747.4850 6 3d 4D 256087.7000 6 4f F2* 0.0653 0.0653 0.0653
802 4621.2720 -1.1500 -1.1500 V92c 234454.5700 6 3d 2D 256087.7000 6 4f F2* 0.0429 0.0429 0.0429
802 4032.4830 -1.2600 06L -1.9400 V50c 231296.0400 4 3d 4F 256087.7000 6 4f F2* 0.0049 0.0049 0.0049
802 4282.9640 0.4200 06 0.4200 10 V67c 232745.9010 4 3d 4D 256087.7000 6 4f F2* 0.3230 0.3230 0.3230
802 4610.2030 -0.1700 -0.1700 V92c 234402.7300 4 3d 2D 256087.7000 6 4f F2* 0.3062 0.3062 0.3062
802 4244.7580 P -0.7200 -0.7200 232535.8600 4 3d 4P 256087.7000 6 4f F2* 0.0006 0.0006 0.0006
802 4412.3630 P -1.3800 -1.3800 233430.4700 4 3d 2P 256087.7000 6 4f F2* 0.0013 0.0013 0.0013
802 4047.7990 -1.8000 -1.8000 V50b 231427.8700 8 3d 4F 256125.7200 6 4f F3* 0.0113 0.0113 0.0113
802 4315.3930 -1.6800 06 -2.3600 V78b 232959.1500 8 3d 2F 256125.7200 6 4f F3* 0.0025 0.0025 0.0025
802 4277.4390 -1.5100 -1.5100 V67b 232753.7330 8 3d 4D 256125.7200 6 4f F3* 0.0096 0.0096 0.0096
802 4035.0680 -1.1300 -1.1300 V50b 231349.9870 6 3d 4F 256125.7200 6 4f F3* 0.0523 0.0523 0.0523
802 4285.2110 P -0.3700 06L -0.5500 V78b 232796.2090 6 3d 2F 256125.7200 6 4f F3* 0.0010 0.0010 0.0010
802 4276.2810 -0.9300 -0.9300 V67b 232747.4850 6 3d 4D 256125.7200 6 4f F3* 0.1577 0.1577 0.1577
802 4613.1370 -0.5900 06 -0.6400 10 V92b 234454.5700 6 3d 2D 256125.7200 6 4f F3* 0.0767 0.0767 0.0767
802 4224.7960 -1.3600 -1.3600 232462.6430 6 3d 4P 256125.7200 6 4f F3* 0.0059 0.0059 0.0059
802 4026.3120 -1.9100 -1.9100 V50b 231296.0400 4 3d 4F 256125.7200 6 4f F3* 0.0096 0.0096 0.0096
802 4275.9940 -0.5200 -0.5200 V67b 232745.9010 4 3d 4D 256125.7200 6 4f F3* 0.2183 0.2183 0.2183
802 4602.1280 0.5600 06 0.5100 10 V92b 234402.7300 4 3d 2D 256125.7200 6 4f F3* 0.3851 0.3851 0.3851
802 4237.9300 -0.9900 -0.9900 232535.8600 4 3d 4P 256125.7200 6 4f F3* 0.0216 0.0216 0.0216
802 4404.9500 -1.0900 -1.0900 233430.4700 4 3d 2P 256125.7200 6 4f F3* 0.0369 0.0369 0.0369
802 4099.6340 P -1.8300 06L -3.3600 V46b 231427.8700 8 3d 4F 255813.4100 6 4f D2* 0.0001 0.0001 0.0001
802 4374.2950 -1.5000 -1.5000 V75b 232959.1500 8 3d 2F 255813.4100 6 4f D2* 0.0018 0.0018 0.0018
802 4335.3620 -0.9200 06L -1.4200 V63b 232753.7330 8 3d 4D 255813.4100 6 4f D2* 0.0127 0.0127 0.0127
802 4086.5820 P -2.5000 06L -1.4400 V46b 231349.9870 6 3d 4F 255813.4100 6 4f D2* 0.0097 0.0097 0.0097
802 4343.3560 P -1.0300 -1.0300 V75b 232796.2090 6 3d 2F 255813.4100 6 4f D2* 0.0057 0.0057 0.0057
802 4334.1860 -0.4400 06L -0.4100 V63b 232747.4850 6 3d 4D 255813.4100 6 4f D2* 0.0771 0.0771 0.0771
802 4680.5830 -1.1600 -1.1600 V89b 234454.5700 6 3d 2D 255813.4100 6 4f D2* 0.0119 0.0119 0.0119
802 4281.3180 0.0100 06 0.0000 10 V53b 232462.6430 6 3d 4P 255813.4100 6 4f D2* 0.1105 0.1105 0.1105
802 4077.5900 P -3.7600 06L -2.9800 V46b 231296.0400 4 3d 4F 255813.4100 6 4f D2* 0.0019 0.0019 0.0019
802 4333.8830 P -0.8300 06L -0.8500 V63b 232745.9010 4 3d 4D 255813.4100 6 4f D2* 0.0001 0.0001 0.0001
802 4669.2660 -1.0300 -1.0300 V89b 234402.7300 4 3d 2D 255813.4100 6 4f D2* 0.0508 0.0508 0.0508
802 4294.7810 0.3800 06 0.3600 10 V53b 232535.8600 4 3d 4P 255813.4100 6 4f D2* 0.4868 0.4868 0.4868
802 4466.4150 -0.0500 -0.0500 V86b 233430.4700 4 3d 2P 255813.4100 6 4f D2* 0.1991 0.1991 0.1991
802 4109.2870 -1.7200 06L -1.7100 10 V48c 231427.8700 8 3d 4F 255756.0700 6 4f G3* 0.0018 0.0018 0.0018
802 4385.3250 P -4.4600 -4.4600 V76c 232959.1500 8 3d 2F 255756.0700 6 4f G3* 0.0005 0.0005 0.0005
802 4346.1590 -2.1200 -2.1200 V65c 232753.7330 8 3d 4D 255756.0700 6 4f G3* 0.0029 0.0029 0.0029
802 4096.1880 -0.2700 06 -0.2670 10 V48c 231349.9870 6 3d 4F 255756.0700 6 4f G3* 0.0962 0.0962 0.0962
802 4354.1780 -4.1900 -4.1900 V76c 232796.2090 6 3d 2F 255756.0700 6 4f G3* 0.0072 0.0072 0.0072
802 4344.9580 -1.4700 -1.4700 V65c 232747.4850 6 3d 4D 255756.0700 6 4f G3* 0.0063 0.0063 0.0063
802 4693.1950 -0.9100 -0.9100 234454.5700 6 3d 2D 255756.0700 6 4f G3* 0.0339 0.0339 0.0339
802 4291.8570 -1.6300 -1.6300 V55 232462.6430 6 3d 4P 255756.0700 6 4f G3* 0.0135 0.0135 0.0135
802 4087.1520 0.5200 06 0.5300 10 V48c 231296.0400 4 3d 4F 255756.0700 6 4f G3* 0.5418 0.5418 0.5418
802 4344.6830 P -2.8000 -2.8000 V65c 232745.9010 4 3d 4D 255756.0700 6 4f G3* 0.0001 0.0001 0.0001
802 4681.800 * * * 4 3d 2D * 6 4f G3* 0.0003 0.0003 0.0003
802 4305.3900 -0.8000 -0.8000 V55 232535.8600 4 3d 4P 255756.0700 6 4f G3* 0.0648 0.0648 0.0648
802 4477.9040 -0.2300 -0.2300 V88 233430.4700 4 3d 2P 255756.0700 6 4f G3* 0.1883 0.1883 0.1883
802 4041.9510 -1.2600 06L -1.3500 V50c 231349.9870 6 3d 4F 256083.5100 4 4f F2* 0.0213 0.0213 0.0213
802 4292.9540 -2.4300 -2.4300 V78c 232796.2090 6 3d 2F 256083.5100 4 4f F2* 0.0107 0.0107 0.0107
802 4284.0020 -1.3400 06 -1.3340 10 V67c 232747.4850 6 3d 4D 256083.5100 4 4f F2* 0.0289 0.0289 0.0289
802 4622.1400 P -2.6100 -2.6100 V92c 234454.5700 6 3d 2D 256083.5100 4 4f F2* 0.0011 0.0011 0.0011
802 4232.3530 P -2.2700 -2.2700 232462.6430 6 3d 4P 256083.5100 4 4f F2* 0.0004 0.0004 0.0004
802 4033.1550 -0.6600 06L -0.8500 V50c 231296.0400 4 3d 4F 256083.5100 4 4f F2* 0.0634 0.0634 0.0634
802 4283.7270 -0.1800 06 -0.1900 10 V67c 232745.9010 4 3d 4D 256083.5100 4 4f F2* 0.3021 0.3021 0.3021
802 4611.0700 -1.5600 -1.5600 V92c 234402.7300 4 3d 2D 256083.5100 4 4f F2* 0.0119 0.0119 0.0119
802 4245.5190 -0.9600 -0.9600 232535.8600 4 3d 4P 256083.5100 4 4f F2* 0.0093 0.0093 0.0093
802 4413.1790 P -1.3300 -1.3300 233430.4700 4 3d 2P 256083.5100 4 4f F2* 0.0117 0.0117 0.0117
802 4277.4270 0.2100 06 0.2100 10 V67c 232711.5630 2 3d 4D 256083.5100 4 4f F2* 0.4194 0.4194 0.4194
802 4257.5490 -0.2800 -0.2800 232602.4080 2 3d 4P 256083.5100 4 4f F2* 0.0466 0.0466 0.0466
802 4435.5060 -0.7300 -0.7300 233544.5200 2 3d 2P 256083.5100 4 4f F2* 0.0622 0.0622 0.0622
802 4086.7140 P -3.1300 -3.1300 V46b 231349.9870 6 3d 4F 255812.6200 4 4f D2* 0.0004 0.0004 0.0004
802 4343.5050 P -1.8600 06L -1.8900 V75b 232796.2090 6 3d 2F 255812.6200 4 4f D2* 0.0026 0.0026 0.0026
802 4334.3290 P -1.2700 -1.2700 V63b 232747.4850 6 3d 4D 255812.6200 4 4f D2* 0.0209 0.0209 0.0209
802 4680.7650 P -1.3400 06L -1.6400 V89b 234454.5700 6 3d 2D 255812.6200 4 4f D2* 0.0060 0.0060 0.0060
802 4281.4550 P -1.9500 -1.9500 V53b 232462.6430 6 3d 4P 255812.6200 4 4f D2* 0.0080 0.0080 0.0080
802 4077.7150 -1.5400 -1.5400 V46b 231296.0400 4 3d 4F 255812.6200 4 4f D2* 0.0173 0.0173 0.0173
802 4334.0290 -0.8200 -0.8200 V63b 232745.9010 4 3d 4D 255812.6200 4 4f D2* 0.0324 0.0324 0.0324
802 4669.4270 -0.3800 06L -0.6100 V89b 234402.7300 4 3d 2D 255812.6200 4 4f D2* 0.0618 0.0618 0.0618
802 4294.9220 P -0.4700 -0.4700 V53b 232535.8600 4 3d 4P 255812.6200 4 4f D2* 0.1715 0.1715 0.1715
802 4466.5930 P -0.4900 06 -0.4350 10 V86b 233430.4700 4 3d 2P 255812.6200 4 4f D2* 0.0353 0.0353 0.0353
802 4327.5890 P -2.4800 -2.4800 V63b 232711.5630 2 3d 4D 255812.6200 4 4f D2* 0.0307 0.0307 0.0307
802 4307.2330 -0.0500 -0.0500 V53b 232602.4080 2 3d 4P 255812.6200 4 4f D2* 0.3314 0.3314 0.3314
802 4489.4862 0.2100 06 0.2600 10 V86b 233544.5200 2 3d 2P 255812.6200 4 4f D2* 0.2154 0.2154 0.2154
802 4070.1420 P -2.0100 06L -2.6400 V46c 231349.9870 6 3d 4F 255912.2200 4 4f D1* 0.0015 0.0015 0.0015
802 4324.7900 * * V75c 232796.2090 6 3d 2F 255912.2200 4 4f D1* 0.0252 0.0252 0.0252
802 4315.6930 P -0.8400 06 -0.8800 V63c 232747.4850 6 3d 4D 255912.2200 4 4f D1* 0.0188 0.0188 0.0188
802 4659.0380 P -1.6500 -1.6500 V89c 234454.5700 6 3d 2D 255912.2200 4 4f D1* 0.0078 0.0078 0.0078
802 4263.2690 P -0.9400 06L -0.9600 10 V53c 232462.6430 6 3d 4P 255912.2200 4 4f D1* 0.0056 0.0056 0.0056
802 4061.2220 P -2.6100 06L -2.6500 V46c 231296.0400 4 3d 4F 255912.2200 4 4f D1* 0.0005 0.0005 0.0005
802 4315.3980 P -0.7900 06 -0.2600 V63c 232745.9010 4 3d 4D 255912.2200 4 4f D1* 0.1481 0.1481 0.1481
802 4276.6230 P 0.0800 06 0.0700 10 V53c 232535.8600 4 3d 4P 255912.2200 4 4f D1* 0.0995 0.0995 0.0995
802 4446.8090 -1.0100 -1.0100 V86c 233430.4700 4 3d 2P 255912.2200 4 4f D1* 0.0475 0.0475 0.0475
802 4308.9990 -0.9800 06L -0.6700 V63c 232711.5630 2 3d 4D 255912.2200 4 4f D1* 0.0178 0.0178 0.0178
802 4288.8190 -0.0300 06 -0.0390 10 V53c 232602.4080 2 3d 4P 255912.2200 4 4f D1* 0.1531 0.1531 0.1531
802 4469.4780 P -0.0800 -0.0800 V86c 233544.5200 2 3d 2P 255912.2200 4 4f D1* 0.3167 0.3167 0.3167
802 4061.2050 P -2.2200 06L -2.4900 V46c 231296.0400 4 3d 4F 255912.3200 2 4f D1* 0.0038 0.0038 0.0038
802 4315.3930 -0.9900 06 -0.5800 V63c 232745.9010 4 3d 4D 255912.3200 2 4f D1* 0.1792 0.1792 0.1792
802 4276.7100 -0.7300 06 -0.7400 10 V53c 232535.8600 4 3d 4P 255912.3200 2 4f D1* 0.0395 0.0395 0.0395
802 4308.9990 -0.9800 06L -0.0500 V63c 232711.5630 2 3d 4D 255912.3200 2 4f D1* 0.4547 0.4547 0.4547
802 4288.8200 -0.0300 06 -0.0390 10 V53c 232602.4080 2 3d 4P 255912.3200 2 4f D1* 0.3227 0.3227 0.3227
802 4075.8620 0.7000 06 0.6900 10 V10 207002.3790 8 3p 4D* 231530.1490 10 3d 4F 1.0000 1.0000 1.0000
802 4092.9289 -0.2400 06L -0.2530 10 V10 207002.3790 8 3p 4D* 231427.8700 8 3d 4F 0.1185 0.1185 0.1205
802 4072.1570 0.5400 06 0.5300 10 V10 206877.7720 6 3p 4D* 231427.8700 8 3d 4F 0.8645 0.8645 0.8789
802 4357.2520 * * V18 208484.1190 6 3p 4P* 231427.8700 8 3d 4F 0.0002 0.0002 0.0002
802 4106.0190 -1.5300 06L -1.5500 10 V10 207002.3790 8 3p 4D* 231349.9870 6 3d 4F 0.0069 0.0070 0.0071
802 4085.1125 -0.1300 06 -0.1400 10 V10 206877.7720 6 3p 4D* 231349.9870 6 3d 4F 0.2157 0.2159 0.2192
802 4069.8860 0.3500 06 0.3500 10 V10 206786.1980 4 3p 4D* 231349.9870 6 3d 4F 0.7597 0.7607 0.7723
802 4094.1400 -1.3900 06L -1.4060 10 V10 206877.7720 6 3p 4D* 231296.0400 4 3d 4F 0.0164 0.0164 0.0164
802 4078.8420 -0.2500 06 -0.2590 10 V10 206786.1980 4 3p 4D* 231296.0400 4 3d 4F 0.2634 0.2636 0.2640
802 5224.780 * * * 4 3p 4S* * 4 3d 4F 0.0000 0.0000 0.0000
802 4069.6230 0.1500 06 0.1400 10 V10 206730.6730 2 3p 4D* 231296.0400 4 3d 4F 0.7149 0.7151 0.7164
802 3882.1920 -0.0600 06L -0.0500 10 V12 207002.3790 8 3p 4D* 232753.7330 8 3d 4D 0.1368 0.1368 0.2479
802 3863.5020 -0.8400 06L -0.8300 10 V12 206877.7720 6 3p 4D* 232753.7330 8 3d 4D 0.0155 0.0155 0.0282
802 4751.2710 -0.8000 10 -0.8000 10 V24 211712.6800 6 3p 2D* 232753.7330 8 3d 4D 0.0210 0.0210 0.0381
802 4119.2150 0.4900 06 0.4800 10 V20 208484.1190 6 3p 4P* 232753.7330 8 3d 4D 0.3784 0.3784 0.6858
802 3883.1300 -0.8400 06L -0.8300 10 V12 207002.3790 8 3p 4D* 232747.4850 6 3d 4D 0.0047 0.0063 0.0435
802 3864.4260 -0.3500 06L -0.3480 10 V12 206877.7720 6 3p 4D* 232747.4850 6 3d 4D 0.0093 0.0124 0.0859
802 4752.6810 -1.7500 10 -1.7500 10 V24 211712.6800 6 3p 2D* 232747.4850 6 3d 4D 0.0017 0.0023 0.0159
802 4120.2800 -0.1600 06 -0.1700 10 V20 208484.1190 6 3p 4P* 232747.4850 6 3d 4D 0.0338 0.0452 0.3123
802 3850.7970 -0.7500 06L -0.7400 10 V12 206786.1980 4 3p 4D* 232747.4850 6 3d 4D 0.0024 0.0032 0.0220
802 4710.0120 -0.4690 10 -0.4690 10 V24 211522.2070 4 3p 2D* 232747.4850 6 3d 4D 0.0339 0.0453 0.3131
802 4104.7231 0.2100 06 0.2000 10 V20 208392.1820 4 3p 4P* 232747.4850 6 3d 4D 0.0181 0.0241 0.1666
802 4856.3950 -0.7000 10 -0.7000 10 V29 212161.8400 4 3p 4S* 232747.4850 6 3d 4D 0.0041 0.0054 0.0374
802 3864.6670 -0.7500 06L -0.7400 10 V12 206877.7720 6 3p 4D* 232745.9010 4 3d 4D 0.0150 0.0890 0.0908
802 4753.047 * * * 6 3p 2D* * 4 3d 4D 0.0000 0.0001 0.0001
802 4120.5440 -1.1100 06 -1.1240 10 V20 208484.1190 6 3p 4P* 232745.9010 4 3d 4D 0.0275 0.1631 0.1664
802 3851.0320 -0.6800 06L -0.6800 10 V12 206786.1980 4 3p 4D* 232745.9010 4 3d 4D 0.0109 0.0649 0.0661
802 4104.9930 -0.0800 06 -0.0900 10 V20 208392.1820 4 3p 4P* 232745.9010 4 3d 4D 0.0758 0.4499 0.4587
802 5399.128 * * * 4 3p 2P* * 4 3d 4D 0.0001 0.0003 0.0003
802 4856.7580 -0.6100 10 -0.6100 10 V29 212161.8400 4 3p 4S* 232745.9010 4 3d 4D 0.0133 0.0792 0.0808
802 3842.8150 -0.8900 06L -0.8800 10 V12 206730.6730 2 3p 4D* 232745.9010 4 3d 4D 0.0065 0.0387 0.0394
802 4097.2540 -0.1900 06 -0.2010 10 V20 208346.0180 2 3p 4P* 232745.9010 4 3d 4D 0.0114 0.0676 0.0689
802 5381.7720 * * 214169.8330 2 3p 2P* 232745.9010 4 3d 4D 0.0000 0.0001 0.0001
802 3470.781 * * * 2 3p 2S* * 4 3d 4D 0.0003 0.0016 0.0017
802 3856.1340 -0.8900 06L -0.8800 10 V12 206786.1980 4 3p 4D* 232711.5630 2 3d 4D 0.0142 0.1041 0.1074
802 4717.991 * * * 4 3p 2D* * 2 3d 4D 0.0000 0.0001 0.0001
802 4110.7858 -0.8900 06 -0.9000 10 V20 208392.1820 4 3p 4P* 232711.5630 2 3d 4D 0.0561 0.4103 0.4234
802 5409.2030 * * 214229.5840 4 3p 2P* 232711.5630 2 3d 4D 0.0000 0.0002 0.0002
802 4864.8790 -0.7800 10 -0.7800 10 V29 212161.8400 4 3p 4S* 232711.5630 2 3d 4D 0.0136 0.0992 0.1024
802 3847.8920 -0.8900 06L -0.8800 10 V12 206730.6730 2 3p 4D* 232711.5630 2 3d 4D 0.0092 0.0672 0.0694
802 4103.0010 -0.1900 06 -0.2010 10 V20 208346.0180 2 3p 4P* 232711.5630 2 3d 4D 0.0339 0.2480 0.2559
802 5391.739 * * * 2 3p 2P* * 2 3d 4D 0.0001 0.0004 0.0005
802 3474.9260 -2.5100 10 -2.5100 10 V8 203942.2300 2 3p 2S* 232711.5630 2 3d 4D 0.0004 0.0026 0.0027
802 3907.4550 -2.0600 06L -1.8100 10 V11 206877.7720 6 3p 4D* 232462.6430 6 3d 4P 0.0024 0.0541 0.0561
802 4817.934 * * * 6 3p 2D* * 6 3d 4P 0.0000 0.0001 0.0001
802 4169.2220 0.0300 06 -0.4630 10 V19 208484.1190 6 3p 4P* 232462.6430 6 3d 4P 0.0068 0.1532 0.1588
802 3893.5160 -3.0100 06L -2.7600 10 V11 206786.1980 4 3p 4D* 232462.6430 6 3d 4P 0.0006 0.0128 0.0133
802 4774.0590 * * 211522.2070 4 3p 2D* 232462.6430 6 3d 4P 0.0001 0.0015 0.0015
802 4153.2980 -0.3400 06 0.0800 10 V19 208392.1820 4 3p 4P* 232462.6430 6 3d 4P 0.0198 0.4487 0.4651
802 5483.009 * * * 4 3p 2P* * 6 3d 4P 0.0000 0.0002 0.0002
802 4924.5310 0.1500 06 0.1600 10 V28 212161.8400 4 3p 4S* 232462.6430 6 3d 4P 0.0127 0.2892 0.2998
802 3896.3040 -1.6900 06L -1.4420 10 V11 206877.7720 6 3p 4D* 232535.8600 4 3d 4P 0.0005 0.0099 0.0103
802 4800.990 * * * 6 3p 2D* * 4 3d 4P 0.0000 0.0000 0.0000
802 4156.5300 -0.3400 06 -0.7900 10 V19 208484.1190 6 3p 4P* 232535.8600 4 3d 4P 0.0056 0.1073 0.1113
802 3882.4460 -1.9800 06L -1.7300 10 V11 206786.1980 4 3p 4D* 232535.8600 4 3d 4P 0.0028 0.0530 0.0550
802 4140.7030 -0.8700 06L -1.6100 10 V19 208392.1820 4 3p 4P* 232535.8600 4 3d 4P 0.0005 0.0105 0.0109
802 5461.0400 * * 214229.5840 4 3p 2P* 232535.8600 4 3d 4P 0.0000 0.0008 0.0008
802 4906.8330 -0.0200 06 -0.0100 10 V28 212161.8400 4 3p 4S* 232535.8600 4 3d 4P 0.0133 0.2540 0.2637
802 3874.0920 -2.7900 06L -2.5400 10 V11 206730.6730 2 3p 4D* 232535.8600 4 3d 4P 0.0012 0.0222 0.0230
802 4132.8004 -0.3700 06 -0.0700 10 V19 208346.0180 2 3p 4P* 232535.8600 4 3d 4P 0.0246 0.4687 0.4865
802 5443.317 * * * 2 3p 2P* * 4 3d 4P 0.0000 0.0001 0.0001
802 3496.2760 -2.0880 10 -2.0880 10 V7 203942.2300 2 3p 2S* 232535.8600 4 3d 4P 0.0002 0.0036 0.0037
802 3872.4390 -2.0900 06L -1.8400 10 V11 206786.1980 4 3p 4D* 232602.4080 2 3d 4P 0.0015 0.0262 0.0273
802 4129.3210 -0.3700 06 -1.1160 10 V19 208392.1820 4 3p 4P* 232602.4080 2 3d 4P 0.0066 0.1122 0.1168
802 5441.298 * * * 4 3p 2P* * 2 3d 4P 0.0000 0.0003 0.0003
802 4890.8580 -0.3200 06 -0.3100 10 V28 212161.8400 4 3p 4S* 232602.4080 2 3d 4P 0.0138 0.2364 0.2459
802 3864.1250 -2.0900 06L -1.8400 10 V11 206730.6730 2 3p 4D* 232602.4080 2 3d 4P 0.0039 0.0663 0.0689
802 4121.4619 -1.0700 06L -0.3240 10 V19 208346.0180 2 3p 4P* 232602.4080 2 3d 4P 0.0280 0.4787 0.4980
802 5423.6390 * * 214169.8330 2 3p 2P* 232602.4080 2 3d 4P 0.0000 0.0005 0.0005
802 3488.1730 -2.5200 10 -2.5200 10 V7 203942.2300 2 3p 2S* 232602.4080 2 3d 4P 0.0002 0.0035 0.0036
802 3851.4710 -1.4020 10 -1.4020 10 V13 207002.3790 8 3p 4D* 232959.1500 8 3d 2F 0.0013 0.0013 0.0210
802 3833.0740 -1.7800 10 -1.7800 10 V13 206877.7720 6 3p 4D* 232959.1500 8 3d 2F 0.0005 0.0005 0.0081
802 4705.3500 0.5800 06 0.5600 10 V25 211712.6800 6 3p 2D* 232959.1500 8 3d 2F 0.0545 0.0545 0.9157
802 4084.6520 -0.8900 10 -0.8900 10 V21 208484.1190 6 3p 4P* 232959.1500 8 3d 2F 0.0033 0.0033 0.0552
802 3875.7960 -1.8900 10 -1.8900 10 V13 207002.3790 8 3p 4D* 232796.2090 6 3d 2F 0.0031 0.0035 0.0324
802 3857.1660 -1.2220 10 -1.2220 10 V13 206877.7720 6 3p 4D* 232796.2090 6 3d 2F 0.0061 0.0068 0.0640
802 4741.7070 -0.7200 06 -0.7400 10 V25 211712.6800 6 3p 2D* 232796.2090 6 3d 2F 0.0028 0.0031 0.0294
802 4112.0220 -0.7800 10 -0.7800 10 V21 208484.1190 6 3p 4P* 232796.2090 6 3d 2F 0.0202 0.0225 0.2106
802 3843.5870 -1.5300 10 -1.5300 10 V13 206786.1980 4 3p 4D* 232796.2090 6 3d 2F 0.0030 0.0033 0.0312
802 4699.2200 0.4200 06 0.4080 10 V25 211522.2070 4 3p 2D* 232796.2090 6 3d 2F 0.0441 0.0492 0.4611
802 4096.5250 -0.8600 10 -0.8600 10 V21 208392.1820 4 3p 4P* 232796.2090 6 3d 2F 0.0145 0.0161 0.1512
802 4844.9130 -1.7000 10 -1.7000 10 V30 212161.8400 4 3p 4S* 232796.2090 6 3d 2F 0.0016 0.0018 0.0172
802 4563.1780 -2.9600 06L -2.2780 10 N50 211522.2070 4 3p 2D* 233430.4700 4 3d 2P 0.0001 0.0001 0.0002
802 5206.6500 -0.0300 06L -0.1970 10 V32 214229.5840 4 3p 2P* 233430.4700 4 3d 2P 0.0106 0.0106 0.0192
802 3985.4180 -2.0970 10 -2.0970 10 V22 208346.0180 2 3p 4P* 233430.4700 4 3d 2P 0.0002 0.0002 0.0003
802 5190.4960 -0.7300 06L -0.6600 10 V32 214169.8330 2 3p 2P* 233430.4700 4 3d 2P 0.0036 0.0036 0.0065
802 3390.2090 0.1200 06L 0.1100 10 V9 203942.2300 2 3p 2S* 233430.4700 4 3d 2P 0.0273 0.0273 0.0496
802 5175.8960 -0.7300 06L -0.8600 10 V32 214229.5840 4 3p 2P* 233544.5200 2 3d 2P 0.0048 0.0048 0.0089
802 3967.4410 -2.2030 10 -2.2030 10 V22 208346.0180 2 3p 4P* 233544.5200 2 3d 2P 0.0003 0.0003 0.0005
802 5159.9420 -0.4300 06L -0.5500 10 V32 214169.8330 2 3p 2P* 233544.5200 2 3d 2P 0.0099 0.0099 0.0185
802 3377.1460 -0.4200 06L -0.1900 10 V9 203942.2300 2 3p 2S* 233544.5200 2 3d 2P 0.0262 0.0262 0.0489
802 4638.8550 -0.3500 06 -0.2640 10 V1 185235.1930 2 3s 4P 206786.1980 4 3p 4D* 0.0208 0.0208 0.0208
802 4641.8104 0.0500 06 0.1800 10 V1 185340.4980 4 3s 4P 206877.7720 6 3p 4D* 0.0350 0.0350 0.0350
802 4649.1348 0.3300 06 0.4290 10 V1 185499.0260 6 3s 4P 207002.3790 8 3p 4D* 0.0500 0.0500 0.0500
802 4650.8394 -0.3500 06 -0.2770 10 V1 185235.1930 2 3s 4P 206730.6730 2 3p 4D* 0.0417 0.0417 0.0417
802 4661.6332 -0.2400 06 -0.1700 10 V1 185340.4980 4 3s 4P 206786.1980 4 3p 4D* 0.0267 0.0267 0.0267
802 4673.7322 -1.0500 06 -1.0670 10 V1 185340.4980 4 3s 4P 206730.6730 2 3p 4D* 0.0083 0.0083 0.0083
802 4676.2350 -0.3200 06 -0.2960 10 V1 185499.0260 6 3s 4P 206877.7720 6 3p 4D* 0.0150 0.0150 0.0150
802 4696.3470 -1.2800 06 -1.3080 10 V1 185499.0260 6 3s 4P 206786.1980 4 3p 4D* 0.0025 0.0025 0.0025
802 4317.1380 -0.3500 06 -0.3250 10 V2 185235.1930 2 3s 4P 208392.1820 4 3p 4P* 0.0347 0.0347 0.0347
802 4319.6280 -0.3200 06 -0.3210 10 V2 185340.4980 4 3s 4P 208484.1190 6 3p 4P* 0.0250 0.0250 0.0250
802 4325.7580 -1.0500 06 -1.0600 10 V2 185235.1930 2 3s 4P 208346.0180 2 3p 4P* 0.0139 0.0139 0.0139
802 4336.8600 -0.8500 06 -0.7300 10 V2 185340.4980 4 3s 4P 208392.1820 4 3p 4P* 0.0111 0.0111 0.0111
802 4345.5590 -0.3500 06 -0.3000 10 V2 185340.4980 4 3s 4P 208346.0180 2 3p 4P* 0.0694 0.0694 0.0694
802 4349.4260 0.0500 06 0.1000 10 V2 185499.0260 6 3s 4P 208484.1190 6 3p 4P* 0.0583 0.0583 0.0583
802 4366.8880 -0.3200 06 -0.2390 10 V2 185499.0260 6 3s 4P 208392.1820 4 3p 4P* 0.0375 0.0375 0.0375
802 3712.7410 -0.6000 06L -0.6400 10 V3 185235.1930 2 3s 4P 212161.8400 4 3p 4S* 0.0417 0.0417 0.0417
802 3727.3200 -0.3000 06L -0.3120 10 V3 185340.4980 4 3s 4P 212161.8400 4 3p 4S* 0.0833 0.0833 0.0833
802 3749.4860 -0.1300 06L -0.1200 10 V3 185499.0260 6 3s 4P 212161.8400 4 3p 4S* 0.1250 0.1250 0.1250
802 4414.9010 0.2300 06 0.3000 10 V5 189068.4270 4 3s 2P 211712.6800 6 3p 2D* 0.1000 0.1000 0.1000
802 4416.9730 -0.0200 06 0.0500 10 V5 188888.4560 2 3s 2P 211522.2070 4 3p 2D* 0.0833 0.0833 0.0833
802 4452.3740 -0.7200 06 -0.7400 10 V5 189068.4270 4 3s 2P 211522.2070 4 3p 2D* 0.0167 0.0167 0.0167
802 3945.0375 -0.6800 06L -0.6900 10 V6 188888.4560 2 3s 2P 214229.5840 4 3p 2P* 0.0278 0.0278 0.0278
802 3954.3619 -0.3800 06L -0.3530 10 V6 188888.4560 2 3s 2P 214169.8330 2 3p 2P* 0.1111 0.1111 0.1111
802 3973.2562 0.0200 06L 0.0800 10 V6 189068.4270 4 3s 2P 214229.5840 4 3p 2P* 0.1389 0.1389 0.1389
802 3982.7140 -0.6800 06L -0.6700 10 V6 189068.4270 4 3s 2P 214169.8330 2 3p 2P* 0.0556 0.0556 0.0556
802 6641.0540 -0.8400 06L -0.8900 10 V4 188888.4560 2 3s 2P 203942.2300 2 3p 2S* 0.1667 0.1667 0.1667
802 6721.3980 -0.5400 06L -0.5900 10 V4 189068.4270 4 3s 2P 203942.2300 2 3p 2S* 0.3333 0.3333 0.3333
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C3+ 4647.42 0.429 -0.501 0.624 0.681 0.522
C3+ 4650.25 0.429 -0.501 0.624 0.681 0.313
C3+ 4651.47 0.429 -0.501 0.624 0.681 0.104
C3+ 4186.90 0.174 -0.784 4.205 0.720 0.980
N3+ 4379.11 0.697 -0.784 4.205 0.720 1.000
N3+ 4640.64 1.449 -0.700 1.683 0.667 0.768
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/ariii.dat�������������������������������������������������������������������0000664�0000000�0000000�00000013434�12714613141�0017015�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 20
** Atomic data from version 7 of the CHIANTI database **
%Observed energies: Ver. 3.0.3 of the online NIST database. http://physics.nist.gov/PhysRefData/ASD/index.html
%Theoretical energies: No theoretical energies available.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 3-Jun-2006
%filename: ar_3.wgfa
%Observed energies: Ver. 3.0.3 of the online NIST database. http://physics.nist.gov/PhysRefData/ASD/index.html
%A-values: Biemont, E., & Hansen, J.E., 1986, Physica Scripta, 34, 116
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 5-Jun-2006
%filename: ar_3.splups
%Theoretical energies: No theoretical energies available - observed energies from .elvlc file used instead.
%Upsilons: Galavis, M.E., Mendoza, C., Zeippen, C.J., 1995, A&AS, 111, 347
%comment: The original upsilons were tabulated over the range 10^3 - 10^5 K. The CHIANTI fits reproduce the data to within 0.28 %.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 5-Jun-2006
5 23
1 3s2.3p4 3P2
2 3s2.3p4 3P1
3 3s2.3p4 3P0
4 3s2.3p4 1D2
5 3s2.3p4 1S0
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 4.20e+00
0 0 4.17e+00
0 0 4.11e+00
0 0 4.03e+00
0 0 3.90e+00
0 0 3.72e+00
0 0 3.51e+00
0 0 3.34e+00
0 0 3.23e+00
0 0 3.14e+00
0 0 3.09e+00
0 0 3.12e+00
0 0 3.20e+00
0 0 3.32e+00
0 0 3.34e+00
0 0 3.17e+00
0 0 2.94e+00
0 0 2.75e+00
0 0 2.62e+00
0 0 2.53e+00
0 0 2.47e+00
0 0 2.44e+00
0 0 2.41e+00
1 3 7.89e-01
0 0 7.84e-01
0 0 7.76e-01
0 0 7.65e-01
0 0 7.48e-01
0 0 7.25e-01
0 0 6.97e-01
0 0 6.76e-01
0 0 6.66e-01
0 0 6.60e-01
0 0 6.71e-01
0 0 7.16e-01
0 0 7.80e-01
0 0 8.56e-01
0 0 9.05e-01
0 0 8.97e-01
0 0 8.66e-01
0 0 8.38e-01
0 0 8.17e-01
0 0 8.02e-01
0 0 7.93e-01
0 0 7.87e-01
0 0 7.83e-01
1 4 2.87e+00
0 0 2.86e+00
0 0 2.86e+00
0 0 2.85e+00
0 0 2.84e+00
0 0 2.83e+00
0 0 2.81e+00
0 0 2.79e+00
0 0 2.77e+00
0 0 2.73e+00
0 0 2.68e+00
0 0 2.63e+00
0 0 2.60e+00
0 0 2.59e+00
0 0 2.52e+00
0 0 2.31e+00
0 0 2.06e+00
0 0 1.86e+00
0 0 1.71e+00
0 0 1.62e+00
0 0 1.56e+00
0 0 1.52e+00
0 0 1.49e+00
1 5 4.81e-01
0 0 4.83e-01
0 0 4.86e-01
0 0 4.91e-01
0 0 4.98e-01
0 0 5.07e-01
0 0 5.14e-01
0 0 5.08e-01
0 0 4.90e-01
0 0 4.77e-01
0 0 4.67e-01
0 0 4.60e-01
0 0 4.52e-01
0 0 4.43e-01
0 0 4.20e-01
0 0 3.76e-01
0 0 3.30e-01
0 0 2.95e-01
0 0 2.70e-01
0 0 2.54e-01
0 0 2.43e-01
0 0 2.36e-01
0 0 2.32e-01
2 3 1.94e+00
0 0 1.92e+00
0 0 1.89e+00
0 0 1.84e+00
0 0 1.77e+00
0 0 1.67e+00
0 0 1.55e+00
0 0 1.45e+00
0 0 1.39e+00
0 0 1.32e+00
0 0 1.26e+00
0 0 1.21e+00
0 0 1.16e+00
0 0 1.13e+00
0 0 1.09e+00
0 0 1.01e+00
0 0 9.20e-01
0 0 8.52e-01
0 0 8.06e-01
0 0 7.75e-01
0 0 7.55e-01
0 0 7.42e-01
0 0 7.34e-01
2 4 1.72e+00
0 0 1.72e+00
0 0 1.71e+00
0 0 1.71e+00
0 0 1.70e+00
0 0 1.70e+00
0 0 1.69e+00
0 0 1.68e+00
0 0 1.66e+00
0 0 1.64e+00
0 0 1.61e+00
0 0 1.58e+00
0 0 1.56e+00
0 0 1.55e+00
0 0 1.51e+00
0 0 1.38e+00
0 0 1.23e+00
0 0 1.11e+00
0 0 1.03e+00
0 0 9.71e-01
0 0 9.33e-01
0 0 9.10e-01
0 0 8.95e-01
2 5 2.88e-01
0 0 2.90e-01
0 0 2.92e-01
0 0 2.95e-01
0 0 2.99e-01
0 0 3.04e-01
0 0 3.08e-01
0 0 3.05e-01
0 0 2.94e-01
0 0 2.86e-01
0 0 2.80e-01
0 0 2.76e-01
0 0 2.71e-01
0 0 2.66e-01
0 0 2.52e-01
0 0 2.26e-01
0 0 1.98e-01
0 0 1.77e-01
0 0 1.62e-01
0 0 1.53e-01
0 0 1.46e-01
0 0 1.42e-01
0 0 1.40e-01
3 4 5.73e-01
0 0 5.72e-01
0 0 5.72e-01
0 0 5.70e-01
0 0 5.68e-01
0 0 5.66e-01
0 0 5.62e-01
0 0 5.59e-01
0 0 5.54e-01
0 0 5.46e-01
0 0 5.36e-01
0 0 5.27e-01
0 0 5.21e-01
0 0 5.18e-01
0 0 5.04e-01
0 0 4.61e-01
0 0 4.11e-01
0 0 3.71e-01
0 0 3.42e-01
0 0 3.23e-01
0 0 3.11e-01
0 0 3.03e-01
0 0 2.98e-01
3 5 9.61e-02
0 0 9.65e-02
0 0 9.72e-02
0 0 9.82e-02
0 0 9.96e-02
0 0 1.01e-01
0 0 1.03e-01
0 0 1.02e-01
0 0 9.81e-02
0 0 9.54e-02
0 0 9.34e-02
0 0 9.21e-02
0 0 9.05e-02
0 0 8.86e-02
0 0 8.41e-02
0 0 7.52e-02
0 0 6.61e-02
0 0 5.90e-02
0 0 5.40e-02
0 0 5.08e-02
0 0 4.87e-02
0 0 4.73e-02
0 0 4.65e-02
4 5 1.74e+00
0 0 1.73e+00
0 0 1.71e+00
0 0 1.69e+00
0 0 1.65e+00
0 0 1.59e+00
0 0 1.50e+00
0 0 1.40e+00
0 0 1.30e+00
0 0 1.25e+00
0 0 1.22e+00
0 0 1.19e+00
0 0 1.15e+00
0 0 1.10e+00
0 0 1.04e+00
0 0 9.51e-01
0 0 8.28e-01
0 0 7.04e-01
0 0 6.07e-01
0 0 5.40e-01
0 0 4.95e-01
0 0 4.66e-01
0 0 4.48e-01
0 0 0
1 2 3.054e-02
1 3 2.784e-06
1 4 3.244e-01
1 5 3.493e-02
2 3 5.354e-03
2 4 8.443e-02
2 5 3.972e+00
3 4 2.038e-05
3 5 0.000e+00
4 5 2.693e+00
1 5 0.0
2 3 1112.2
3 1 1570.2
4 5 14010.0
5 1 33265.7
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/ariv.dat��������������������������������������������������������������������0000664�0000000�0000000�00000016142�12714613141�0016660�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 49
** Atomic data from version 7 of the CHIANTI database **
%experimental energy levels: Fuhr, J.R., Kelleher, D.E., Martin, W.C., Musgrove, A., Sugar, J., Wiese, W.L.,
Dalton, G.R., Dragoset, R.A., Mohr, P.J., Olsen, K., Reader, J., Saloman, E.B., Sansonetti, C.J.,
Wiersma, G., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data.
% Theoretical energy levels: Ramsbottom et al 1997, MNRAS, 284, 754
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E.Landi - Aug 2001
%filename: ar_4.wgfa
%experimental energy levels: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0,
March 1999, NIST Physical Reference Data.
% Theoretical energy levels: Ramsbottom et al 1997, MNRAS, 284, 754
% Radiative data: SUPERSTRUCTURE calculation, including 25 configurations.
% Comment: the configurations included in the SUPERSTRUCTURE calculation are:
3s2.3p3, 3s2.3p2.3d, 3s2.3p.3d2, 3s2.3d3
3s.3p4, 3s.3p3.3d, 3s.3p2.3d2, 3s.3p.3d3
3p2.3d3, 3p3.3d2, 3p4.3d, 3p5
3s2.3p3.4l with l=s,p,d,f
3s.3p3.4l with l=s,p,d,f
3p4.4l with l=s,p,d,f
Radiative data have been calculated using experimental energy values.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi - Aug 2001
%filename: ar_4.splups
%Oscillator strengths: SUPERSTRUCTURE calculation, including 25 configurations.
%Effective collision strengths ground configuration: Ramsbottom et al 1997, MNRAS, 284, 754
%Effective collision strengths other configurations: Ramsbottom & Bell, 1997, 66, 65
% Comment: the configurations included in the SUPERSTRUCTURE calculation are:
3s2.3p3, 3s2.3p2.3d, 3s2.3p.3d2, 3s2.3d3
3s.3p4, 3s.3p3.3d, 3s.3p2.3d2, 3s.3p.3d3
3p2.3d3, 3p3.3d2, 3p4.3d, 3p5
3s2.3p3.4l with l=s,p,d,f
3s.3p3.4l with l=s,p,d,f
3p4.4l with l=s,p,d,f
Radiative data have been calculated using experimental energy values.
%Comment: the collisional data are provided in the temperature range 3.0 < Log T < 6.0
%Comment: correction (June 2003): added collisional transitions including levels 17 and 25.
They slightly affect the population balance at electron densities > 10^12 cm^-3.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi - Jun 2003
5 23
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 7.89e-01
0 0 7.89e-01
0 0 7.88e-01
0 0 7.88e-01
0 0 7.86e-01
0 0 7.84e-01
0 0 7.81e-01
0 0 7.77e-01
0 0 7.71e-01
0 0 7.64e-01
0 0 7.61e-01
0 0 7.69e-01
0 0 7.92e-01
0 0 8.29e-01
0 0 8.64e-01
0 0 8.49e-01
0 0 7.76e-01
0 0 6.95e-01
0 0 5.80e-01
0 0 4.52e-01
0 0 3.47e-01
0 0 2.72e-01
0 0 2.22e-01
1 3 1.19e+00
0 0 1.19e+00
0 0 1.19e+00
0 0 1.19e+00
0 0 1.19e+00
0 0 1.18e+00
0 0 1.18e+00
0 0 1.17e+00
0 0 1.16e+00
0 0 1.14e+00
0 0 1.14e+00
0 0 1.15e+00
0 0 1.19e+00
0 0 1.24e+00
0 0 1.30e+00
0 0 1.27e+00
0 0 1.18e+00
0 0 1.06e+00
0 0 8.63e-01
0 0 6.72e-01
0 0 5.25e-01
0 0 4.23e-01
0 0 3.56e-01
1 4 8.01e-01
0 0 7.94e-01
0 0 7.83e-01
0 0 7.66e-01
0 0 7.39e-01
0 0 6.99e-01
0 0 6.38e-01
0 0 5.55e-01
0 0 4.59e-01
0 0 3.94e-01
0 0 3.94e-01
0 0 4.17e-01
0 0 4.49e-01
0 0 4.85e-01
0 0 4.99e-01
0 0 4.86e-01
0 0 4.44e-01
0 0 3.61e-01
0 0 2.70e-01
0 0 1.99e-01
0 0 1.49e-01
0 0 1.15e-01
0 0 9.39e-02
1 5 1.60e+00
0 0 1.59e+00
0 0 1.57e+00
0 0 1.53e+00
0 0 1.48e+00
0 0 1.40e+00
0 0 1.28e+00
0 0 1.11e+00
0 0 9.18e-01
0 0 7.88e-01
0 0 7.88e-01
0 0 8.33e-01
0 0 8.97e-01
0 0 9.69e-01
0 0 9.97e-01
0 0 9.70e-01
0 0 8.83e-01
0 0 7.14e-01
0 0 5.33e-01
0 0 3.89e-01
0 0 2.88e-01
0 0 2.22e-01
0 0 1.78e-01
2 3 7.08e+00
0 0 7.09e+00
0 0 7.09e+00
0 0 7.09e+00
0 0 7.09e+00
0 0 7.10e+00
0 0 7.10e+00
0 0 7.11e+00
0 0 7.12e+00
0 0 7.11e+00
0 0 7.04e+00
0 0 6.83e+00
0 0 6.46e+00
0 0 6.06e+00
0 0 5.91e+00
0 0 5.80e+00
0 0 5.51e+00
0 0 5.16e+00
0 0 4.37e+00
0 0 3.38e+00
0 0 2.56e+00
0 0 1.97e+00
0 0 1.58e+00
2 4 1.69e+00
0 0 1.69e+00
0 0 1.68e+00
0 0 1.68e+00
0 0 1.67e+00
0 0 1.66e+00
0 0 1.64e+00
0 0 1.61e+00
0 0 1.57e+00
0 0 1.53e+00
0 0 1.51e+00
0 0 1.52e+00
0 0 1.56e+00
0 0 1.64e+00
0 0 1.79e+00
0 0 1.95e+00
0 0 2.05e+00
0 0 2.03e+00
0 0 1.85e+00
0 0 1.63e+00
0 0 1.44e+00
0 0 1.31e+00
0 0 1.23e+00
2 5 2.15e+00
0 0 2.15e+00
0 0 2.15e+00
0 0 2.15e+00
0 0 2.14e+00
0 0 2.14e+00
0 0 2.14e+00
0 0 2.14e+00
0 0 2.13e+00
0 0 2.13e+00
0 0 2.13e+00
0 0 2.16e+00
0 0 2.21e+00
0 0 2.30e+00
0 0 2.47e+00
0 0 2.64e+00
0 0 2.67e+00
0 0 2.62e+00
0 0 2.36e+00
0 0 2.02e+00
0 0 1.72e+00
0 0 1.51e+00
0 0 1.36e+00
3 4 1.52e+00
0 0 1.52e+00
0 0 1.52e+00
0 0 1.52e+00
0 0 1.52e+00
0 0 1.52e+00
0 0 1.52e+00
0 0 1.51e+00
0 0 1.51e+00
0 0 1.52e+00
0 0 1.53e+00
0 0 1.55e+00
0 0 1.58e+00
0 0 1.65e+00
0 0 1.77e+00
0 0 1.88e+00
0 0 1.94e+00
0 0 1.88e+00
0 0 1.66e+00
0 0 1.42e+00
0 0 1.22e+00
0 0 1.08e+00
0 0 9.85e-01
3 5 4.24e+00
0 0 4.23e+00
0 0 4.23e+00
0 0 4.22e+00
0 0 4.21e+00
0 0 4.19e+00
0 0 4.16e+00
0 0 4.11e+00
0 0 4.05e+00
0 0 3.97e+00
0 0 3.93e+00
0 0 3.97e+00
0 0 4.08e+00
0 0 4.27e+00
0 0 4.63e+00
0 0 5.00e+00
0 0 5.14e+00
0 0 5.05e+00
0 0 4.60e+00
0 0 3.99e+00
0 0 3.46e+00
0 0 3.08e+00
0 0 2.83e+00
4 5 9.18e-01
0 0 9.25e-01
0 0 9.36e-01
0 0 9.54e-01
0 0 9.82e-01
0 0 1.03e+00
0 0 1.09e+00
0 0 1.20e+00
0 0 1.37e+00
0 0 1.63e+00
0 0 2.04e+00
0 0 2.53e+00
0 0 2.83e+00
0 0 2.97e+00
0 0 3.01e+00
0 0 2.92e+00
0 0 2.71e+00
0 0 2.41e+00
0 0 1.93e+00
0 0 1.45e+00
0 0 1.07e+00
0 0 8.00e-01
0 0 6.24e-01
0 0 0
1 2 2.277e-02
1 3 1.906e-03
1 4 8.702e-01
1 5 2.134e+00
2 3 2.287e-05
2 4 6.660e-01
2 5 8.915e-01
3 4 1.179e-01
3 5 6.559e-01
4 5 4.937e-05
1 4 0.0
2 4 21090.4
3 6 21219.3
4 2 34855.5
5 4 35032.6
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/arv.dat���������������������������������������������������������������������0000664�0000000�0000000�00000013377�12714613141�0016516�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 20
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Version 3.0.3 of the NIST online database. http://physics.nist.gov/PhysRefData/ASD/index.html
%theoretical energy levels: Not available for this ion.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 19-Jun-2006
%filename: ar_5.wgfa
%observed energy levels: Version 3.0.3 of the NIST online database. http://physics.nist.gov/PhysRefData/ASD/index.html
%A-values: Biemont, E., & Bromage, G.E., 1983, MNRAS, 205, 1085
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 19-Jun-2006
%filename: ar_5.splups
%Upsilons: Galavis, M.E., Mendoza, C., Zeippen, C.J. 1995, A&ASS 111, 347
%Theoretical energies: No theoretical energies available - observed energies from .elvlc file used instead.
%comment: The fits are accurate to within 0.59% over the temperature range 3.0 <= logT <= 5.0.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 20-Jun-2006
5 23
1 3s2.3p2 3P0
2 3s2.3p2 3P1
3 3s2.3p2 3P2
4 3s2.3p2 1D2
5 3s2.3p2 1S0
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 4.56e+00
0 0 4.54e+00
0 0 4.49e+00
0 0 4.42e+00
0 0 4.31e+00
0 0 4.16e+00
0 0 3.96e+00
0 0 3.74e+00
0 0 3.52e+00
0 0 3.26e+00
0 0 2.94e+00
0 0 2.58e+00
0 0 2.24e+00
0 0 1.98e+00
0 0 1.82e+00
0 0 1.68e+00
0 0 1.58e+00
0 0 1.51e+00
0 0 1.46e+00
0 0 1.43e+00
0 0 1.41e+00
0 0 1.40e+00
0 0 1.39e+00
1 3 1.91e+00
0 0 1.90e+00
0 0 1.90e+00
0 0 1.89e+00
0 0 1.88e+00
0 0 1.87e+00
0 0 1.87e+00
0 0 1.93e+00
0 0 1.98e+00
0 0 1.95e+00
0 0 1.84e+00
0 0 1.67e+00
0 0 1.51e+00
0 0 1.41e+00
0 0 1.35e+00
0 0 1.29e+00
0 0 1.23e+00
0 0 1.20e+00
0 0 1.17e+00
0 0 1.16e+00
0 0 1.15e+00
0 0 1.14e+00
0 0 1.14e+00
1 4 8.28e-01
0 0 8.07e-01
0 0 7.74e-01
0 0 7.24e-01
0 0 6.52e-01
0 0 5.57e-01
0 0 4.62e-01
0 0 4.08e-01
0 0 3.86e-01
0 0 3.64e-01
0 0 3.57e-01
0 0 3.69e-01
0 0 4.01e-01
0 0 4.52e-01
0 0 4.86e-01
0 0 4.96e-01
0 0 4.96e-01
0 0 4.94e-01
0 0 4.92e-01
0 0 4.91e-01
0 0 4.90e-01
0 0 4.89e-01
0 0 4.89e-01
1 5 2.83e-02
0 0 2.95e-02
0 0 3.14e-02
0 0 3.44e-02
0 0 3.87e-02
0 0 4.47e-02
0 0 5.18e-02
0 0 5.74e-02
0 0 6.00e-02
0 0 6.11e-02
0 0 6.21e-02
0 0 6.51e-02
0 0 7.07e-02
0 0 7.77e-02
0 0 8.13e-02
0 0 7.89e-02
0 0 7.43e-02
0 0 7.03e-02
0 0 6.74e-02
0 0 6.55e-02
0 0 6.42e-02
0 0 6.34e-02
0 0 6.29e-02
2 3 9.95e+00
0 0 9.91e+00
0 0 9.84e+00
0 0 9.75e+00
0 0 9.60e+00
0 0 9.40e+00
0 0 9.18e+00
0 0 9.01e+00
0 0 8.86e+00
0 0 8.46e+00
0 0 7.81e+00
0 0 7.00e+00
0 0 6.20e+00
0 0 5.65e+00
0 0 5.30e+00
0 0 5.00e+00
0 0 4.74e+00
0 0 4.56e+00
0 0 4.43e+00
0 0 4.35e+00
0 0 4.30e+00
0 0 4.26e+00
0 0 4.24e+00
2 4 2.48e+00
0 0 2.42e+00
0 0 2.32e+00
0 0 2.17e+00
0 0 1.96e+00
0 0 1.67e+00
0 0 1.39e+00
0 0 1.23e+00
0 0 1.16e+00
0 0 1.09e+00
0 0 1.07e+00
0 0 1.11e+00
0 0 1.20e+00
0 0 1.36e+00
0 0 1.46e+00
0 0 1.49e+00
0 0 1.49e+00
0 0 1.48e+00
0 0 1.48e+00
0 0 1.47e+00
0 0 1.47e+00
0 0 1.47e+00
0 0 1.47e+00
2 5 8.49e-02
0 0 8.86e-02
0 0 9.43e-02
0 0 1.03e-01
0 0 1.16e-01
0 0 1.34e-01
0 0 1.55e-01
0 0 1.72e-01
0 0 1.80e-01
0 0 1.83e-01
0 0 1.86e-01
0 0 1.95e-01
0 0 2.12e-01
0 0 2.33e-01
0 0 2.44e-01
0 0 2.37e-01
0 0 2.23e-01
0 0 2.11e-01
0 0 2.02e-01
0 0 1.97e-01
0 0 1.93e-01
0 0 1.90e-01
0 0 1.89e-01
3 4 4.14e+00
0 0 4.03e+00
0 0 3.87e+00
0 0 3.62e+00
0 0 3.26e+00
0 0 2.79e+00
0 0 2.31e+00
0 0 2.04e+00
0 0 1.93e+00
0 0 1.82e+00
0 0 1.78e+00
0 0 1.85e+00
0 0 2.01e+00
0 0 2.26e+00
0 0 2.43e+00
0 0 2.48e+00
0 0 2.48e+00
0 0 2.47e+00
0 0 2.46e+00
0 0 2.45e+00
0 0 2.45e+00
0 0 2.44e+00
0 0 2.44e+00
3 5 1.45e-01
0 0 1.51e-01
0 0 1.60e-01
0 0 1.74e-01
0 0 1.94e-01
0 0 2.23e-01
0 0 2.58e-01
0 0 2.87e-01
0 0 3.00e-01
0 0 3.06e-01
0 0 3.10e-01
0 0 3.25e-01
0 0 3.54e-01
0 0 3.88e-01
0 0 4.07e-01
0 0 3.94e-01
0 0 3.68e-01
0 0 3.44e-01
0 0 3.27e-01
0 0 3.15e-01
0 0 3.07e-01
0 0 3.03e-01
0 0 2.99e-01
4 5 3.08e+00
0 0 3.02e+00
0 0 2.93e+00
0 0 2.79e+00
0 0 2.59e+00
0 0 2.32e+00
0 0 2.03e+00
0 0 1.84e+00
0 0 1.75e+00
0 0 1.68e+00
0 0 1.65e+00
0 0 1.65e+00
0 0 1.68e+00
0 0 1.75e+00
0 0 1.77e+00
0 0 1.74e+00
0 0 1.71e+00
0 0 1.68e+00
0 0 1.65e+00
0 0 1.64e+00
0 0 1.63e+00
0 0 1.63e+00
0 0 1.62e+00
0 0 0
1 2 8.050e-03
1 3 1.190e-06
1 4 6.140e-05
1 5 0.000e+00
2 3 2.750e-02
2 4 2.033e-01
2 5 6.720e+00
3 4 4.703e-01
3 5 6.760e-02
4 5 3.460e+00
1 1 0.0
2 3 765.2
3 5 2028.8
4 5 16298.9
5 1 37912.0
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/ci.dat����������������������������������������������������������������������0000664�0000000�0000000�00000002751�12714613141�0016313�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
Upsilons Pequignot & Aldrovandi (A&A,50,141,1976); (5S-3Pe : Thomas &
Nesbit Phys Rev A15, 154, 1975); Johnson et al. 1987, J.Phy.B., 20,2553; Aij's from Nussbaumer & Rusca (A&A,72,129,1979)
6 6 0
2p2 3Pe0
2p2 3Pe1
2p2 3Pe2
2p2 1D2
2p2 1S0
2p3 5S2
500
1000
5000
10000
15000
20000
0
1 2 0.009
0 0 0.022
0 0 0.243
0 0 0.371
0 0 .4
0 0 .4
1 3 0.006
0 0 0.017
0 0 0.182
0 0 0.246
0 0 .28
0 0 .28
1 4 0.00694
0 0 0.01389
0 0 0.0670
0 0 0.12667
0 0 0.17778
0 0 0.21778
1 5 0.00191
0 0 0.00377
0 0 0.01656
0 0 0.02800
0 0 0.03556
0 0 0.04056
1 6 0.01667
0 0 0.02356
0 0 0.05278
0 0 0.07456
0 0 0.09133
0 0 0.10556
2 3 0.025
0 0 0.065
0 0 0.714
0 0 1.020
0 0 1.1
0 0 1.1
2 4 0.02083
0 0 0.0417
0 0 0.201
0 0 0.380
0 0 0.533
0 0 0.6533
2 5 0.00573
0 0 0.01130
0 0 0.04967
0 0 0.0840
0 0 0.1067
0 0 0.1217
2 6 0.0500
0 0 0.0707
0 0 0.1583
0 0 0.2237
0 0 0.2740
0 0 0.3167
3 4 0.03472
0 0 0.06944
0 0 0.3354
0 0 0.6333
0 0 0.8889
0 0 1.0889
3 5 0.00956
0 0 0.01883
0 0 0.08278
0 0 0.1400
0 0 0.17778
0 0 0.20278
3 6 0.0833
0 0 0.1178
0 0 0.2639
0 0 0.3728
0 0 0.4567
0 0 0.5278
4 5 0.0620
0 0 0.0877
0 0 0.196
0 0 0.277
0 0 0.340
0 0 0.392
0 0 0
1 2 7.93-8
1 3 1.71-14
1 4 7.77-8
1 5 0.0
1 6 0.0
2 3 2.65-7
2 4 8.21-5
2 5 2.71-3
2 6 6.94
3 4 2.44-4
3 5 2.00-5
3 6 1.56+1
4 5 5.28-1
4 6 0.0
5 6 0.0
1 1 0.
2 3 16.4
3 5 43.4
4 5 10192.6
5 1 21648.0
6 5 33735.2
�����������������������NEAT-master/Atomic-data/cii.dat���������������������������������������������������������������������0000664�0000000�0000000�00000042662�12714613141�0016471�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 31
** Atomic data from version 7 of the CHIANTI database **
%energy levels: Moore, C. E., Tables of Spectra of Hydrogen, Carbon,
Nitrogen, and Oxygen Atoms and Ions, J. W. Gallagher ed., CRC Press, 1993.
% Theoretical energy levels: Zhang, H.L., Graziani, M., Pradhan, A.K., 1994, A&A, 283, 319.
%comment: energy levels renumbered
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P.Dere 1994
%filename: c_2.wgfa
%observed energy levels: Kelly, R.L., 1987, J.Phys.Chem.Ref.Data 16, Suppl. 1.
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%comment: energy levels renumbered
%oscillator strengths: Dankwort, W., Trefftz, E., 1978, A&A, 65, 93.
%oscillator strengths: Lennon, D.J., Dufton, P.L., Hibbert, A., Kingston, A.E., 1985, ApJ, 294, 200.
%oscillator strengths: Nussbaumer, H., and Storey, P. J., 1981, A&A, 96, 91.
%oscillator strengths and A values: Wiese W.L., Fuhr J.R., 1995, NIST Database
for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration CHIANTI
%
% K.P.Dere and E.Landi 2003
%filename: c_2.splups
%oscillator strengths: Dankwort, W., Trefftz, E., 1978, A&A, 65, 93
%oscillator strengths: Lennon, D.J., Dufton, P.L., Hibbert, A., Kingston, A.E., 1985, ApJ, 294, 200
%oscillator strengths: Nussbaumer, H., Storey, P.J., 1981, A&A, 96, 91
%effective collision strengths: Blum, R.D., Pradhan, A.K., 1992, ApJS, 80, 425
%comment: effective collision strengths were given in the 3.0 < Log T < 4.6 temperature range
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere - 1994
10 23
1 2s2.2p 2P1/2
2 2s2.2p 2P3/2
3 2s.2p2 4P1/2
4 2s.2p2 4P3/2
5 2s.2p2 4P5/2
6 2s.2p2 2D3/2
7 2s.2p2 2D5/2
8 2s.2p2 2S1/2
9 2s.2p2 2P1/2
10 2s.2p2 2P3/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 1.52e+00
0 0 1.52e+00
0 0 1.53e+00
0 0 1.54e+00
0 0 1.55e+00
0 0 1.58e+00
0 0 1.61e+00
0 0 1.68e+00
0 0 1.80e+00
0 0 1.98e+00
0 0 2.16e+00
0 0 2.25e+00
0 0 2.28e+00
0 0 2.26e+00
0 0 2.23e+00
0 0 2.20e+00
0 0 2.18e+00
0 0 2.17e+00
0 0 2.16e+00
0 0 2.15e+00
0 0 2.15e+00
0 0 2.14e+00
0 0 2.14e+00
1 3 2.74e-01
0 0 2.73e-01
0 0 2.72e-01
0 0 2.70e-01
0 0 2.68e-01
0 0 2.64e-01
0 0 2.59e-01
0 0 2.52e-01
0 0 2.46e-01
0 0 2.42e-01
0 0 2.43e-01
0 0 2.46e-01
0 0 2.46e-01
0 0 2.43e-01
0 0 2.37e-01
0 0 2.32e-01
0 0 2.27e-01
0 0 2.24e-01
0 0 2.22e-01
0 0 2.21e-01
0 0 2.20e-01
0 0 2.19e-01
0 0 2.19e-01
1 4 4.05e-01
0 0 4.04e-01
0 0 4.03e-01
0 0 4.02e-01
0 0 3.99e-01
0 0 3.95e-01
0 0 3.88e-01
0 0 3.77e-01
0 0 3.64e-01
0 0 3.57e-01
0 0 3.63e-01
0 0 3.71e-01
0 0 3.69e-01
0 0 3.62e-01
0 0 3.54e-01
0 0 3.49e-01
0 0 3.45e-01
0 0 3.42e-01
0 0 3.41e-01
0 0 3.39e-01
0 0 3.39e-01
0 0 3.38e-01
0 0 3.38e-01
1 5 2.46e-01
0 0 2.46e-01
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0 0 2.45e-01
0 0 2.44e-01
0 0 2.42e-01
0 0 2.37e-01
0 0 2.30e-01
0 0 2.28e-01
0 0 2.36e-01
0 0 2.44e-01
0 0 2.44e-01
0 0 2.41e-01
0 0 2.37e-01
0 0 2.33e-01
0 0 2.31e-01
0 0 2.29e-01
0 0 2.28e-01
0 0 2.28e-01
0 0 2.27e-01
0 0 2.27e-01
0 0 2.27e-01
1 6 1.27e+00
0 0 1.27e+00
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0 0 1.27e+00
0 0 1.28e+00
0 0 1.28e+00
0 0 1.29e+00
0 0 1.30e+00
0 0 1.31e+00
0 0 1.34e+00
0 0 1.39e+00
0 0 1.47e+00
0 0 1.58e+00
0 0 1.69e+00
0 0 1.81e+00
0 0 1.96e+00
0 0 2.17e+00
0 0 2.46e+00
0 0 2.82e+00
0 0 3.26e+00
0 0 3.77e+00
0 0 4.33e+00
0 0 4.94e+00
1 7 5.29e-01
0 0 5.28e-01
0 0 5.27e-01
0 0 5.26e-01
0 0 5.23e-01
0 0 5.20e-01
0 0 5.16e-01
0 0 5.12e-01
0 0 5.14e-01
0 0 5.26e-01
0 0 5.44e-01
0 0 5.58e-01
0 0 5.59e-01
0 0 5.50e-01
0 0 5.36e-01
0 0 5.23e-01
0 0 5.13e-01
0 0 5.07e-01
0 0 5.02e-01
0 0 4.99e-01
0 0 4.97e-01
0 0 4.96e-01
0 0 4.95e-01
1 8 8.12e-01
0 0 8.09e-01
0 0 8.04e-01
0 0 7.97e-01
0 0 7.87e-01
0 0 7.71e-01
0 0 7.48e-01
0 0 7.19e-01
0 0 6.90e-01
0 0 6.76e-01
0 0 6.89e-01
0 0 7.12e-01
0 0 7.33e-01
0 0 7.92e-01
0 0 9.10e-01
0 0 1.07e+00
0 0 1.27e+00
0 0 1.50e+00
0 0 1.78e+00
0 0 2.10e+00
0 0 2.48e+00
0 0 2.90e+00
0 0 3.36e+00
1 9 1.15e+00
0 0 1.15e+00
0 0 1.15e+00
0 0 1.15e+00
0 0 1.16e+00
0 0 1.16e+00
0 0 1.17e+00
0 0 1.19e+00
0 0 1.21e+00
0 0 1.26e+00
0 0 1.32e+00
0 0 1.42e+00
0 0 1.55e+00
0 0 1.73e+00
0 0 2.00e+00
0 0 2.34e+00
0 0 2.73e+00
0 0 3.20e+00
0 0 3.76e+00
0 0 4.43e+00
0 0 5.22e+00
0 0 6.11e+00
0 0 7.08e+00
1 10 6.58e-01
0 0 6.59e-01
0 0 6.60e-01
0 0 6.62e-01
0 0 6.65e-01
0 0 6.69e-01
0 0 6.76e-01
0 0 6.86e-01
0 0 7.02e-01
0 0 7.27e-01
0 0 7.65e-01
0 0 8.17e-01
0 0 8.86e-01
0 0 9.80e-01
0 0 1.10e+00
0 0 1.26e+00
0 0 1.44e+00
0 0 1.67e+00
0 0 1.94e+00
0 0 2.27e+00
0 0 2.67e+00
0 0 3.11e+00
0 0 3.60e+00
2 3 1.94e-01
0 0 1.93e-01
0 0 1.92e-01
0 0 1.91e-01
0 0 1.89e-01
0 0 1.87e-01
0 0 1.83e-01
0 0 1.78e-01
0 0 1.74e-01
0 0 1.74e-01
0 0 1.78e-01
0 0 1.82e-01
0 0 1.84e-01
0 0 1.82e-01
0 0 1.78e-01
0 0 1.74e-01
0 0 1.70e-01
0 0 1.68e-01
0 0 1.67e-01
0 0 1.66e-01
0 0 1.65e-01
0 0 1.64e-01
0 0 1.64e-01
2 4 5.10e-01
0 0 5.10e-01
0 0 5.10e-01
0 0 5.10e-01
0 0 5.09e-01
0 0 5.08e-01
0 0 5.04e-01
0 0 4.93e-01
0 0 4.76e-01
0 0 4.67e-01
0 0 4.79e-01
0 0 4.92e-01
0 0 4.91e-01
0 0 4.81e-01
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2 5 1.13e+00
0 0 1.12e+00
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0 0 1.03e+00
0 0 1.01e+00
0 0 1.03e+00
0 0 1.05e+00
0 0 1.04e+00
0 0 1.03e+00
0 0 1.01e+00
0 0 9.92e-01
0 0 9.82e-01
0 0 9.75e-01
0 0 9.71e-01
0 0 9.68e-01
0 0 9.66e-01
0 0 9.65e-01
0 0 9.64e-01
2 6 8.64e-01
0 0 8.65e-01
0 0 8.65e-01
0 0 8.66e-01
0 0 8.67e-01
0 0 8.69e-01
0 0 8.73e-01
0 0 8.78e-01
0 0 8.87e-01
0 0 9.01e-01
0 0 9.27e-01
0 0 9.63e-01
0 0 9.91e-01
0 0 9.91e-01
0 0 9.67e-01
0 0 9.37e-01
0 0 9.19e-01
0 0 9.28e-01
0 0 9.66e-01
0 0 1.03e+00
0 0 1.12e+00
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0 0 6.59e-01
0 0 6.60e-01
0 0 6.62e-01
0 0 6.65e-01
0 0 6.69e-01
0 0 6.76e-01
0 0 6.86e-01
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0 0 7.65e-01
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0 0 6.41e-02
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0 0 8.39e-02
0 0 8.40e-02
0 0 8.41e-02
0 0 8.42e-02
3 9 6.37e-02
0 0 6.44e-02
0 0 6.54e-02
0 0 6.70e-02
0 0 6.94e-02
0 0 7.31e-02
0 0 7.89e-02
0 0 8.80e-02
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0 0 1.40e-01
0 0 1.47e-01
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0 0 1.39e-01
0 0 1.25e-01
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0 0 6.19e-02
0 0 4.40e-02
0 0 3.01e-02
0 0 2.01e-02
0 0 1.31e-02
0 0 8.48e-03
3 10 5.47e-02
0 0 5.64e-02
0 0 5.90e-02
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0 0 1.72e-01
0 0 1.79e-01
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4 5 1.53e+00
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4 6 6.31e-01
0 0 6.32e-01
0 0 6.34e-01
0 0 6.37e-01
0 0 6.41e-01
0 0 6.47e-01
0 0 6.56e-01
0 0 6.68e-01
0 0 6.84e-01
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0 0 8.45e-01
0 0 8.56e-01
0 0 8.63e-01
0 0 8.67e-01
0 0 8.70e-01
0 0 8.72e-01
0 0 8.74e-01
0 0 8.74e-01
0 0 8.75e-01
4 7 6.33e-01
0 0 6.34e-01
0 0 6.37e-01
0 0 6.40e-01
0 0 6.45e-01
0 0 6.52e-01
0 0 6.63e-01
0 0 6.77e-01
0 0 6.96e-01
0 0 7.21e-01
0 0 7.55e-01
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0 0 8.33e-01
0 0 8.61e-01
0 0 8.81e-01
0 0 8.94e-01
0 0 9.03e-01
0 0 9.09e-01
0 0 9.13e-01
0 0 9.16e-01
0 0 9.17e-01
0 0 9.18e-01
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4 8 1.32e-01
0 0 1.32e-01
0 0 1.31e-01
0 0 1.30e-01
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0 0 1.28e-01
0 0 1.27e-01
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0 0 1.39e-01
0 0 1.47e-01
0 0 1.51e-01
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0 0 1.67e-01
0 0 1.67e-01
0 0 1.68e-01
0 0 1.68e-01
0 0 1.68e-01
0 0 1.68e-01
4 9 9.91e-02
0 0 1.00e-01
0 0 1.03e-01
0 0 1.06e-01
0 0 1.11e-01
0 0 1.19e-01
0 0 1.31e-01
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0 0 2.04e-01
4 10 1.38e-01
0 0 1.41e-01
0 0 1.46e-01
0 0 1.54e-01
0 0 1.66e-01
0 0 1.84e-01
0 0 2.09e-01
0 0 2.45e-01
0 0 2.92e-01
0 0 3.45e-01
0 0 3.87e-01
0 0 4.04e-01
0 0 4.01e-01
0 0 3.90e-01
0 0 3.77e-01
0 0 3.67e-01
0 0 3.60e-01
0 0 3.54e-01
0 0 3.51e-01
0 0 3.49e-01
0 0 3.47e-01
0 0 3.46e-01
0 0 3.46e-01
5 6 4.75e-01
0 0 4.76e-01
0 0 4.78e-01
0 0 4.81e-01
0 0 4.85e-01
0 0 4.92e-01
0 0 5.02e-01
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0 0 5.54e-01
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0 0 6.15e-01
0 0 6.46e-01
0 0 6.69e-01
0 0 6.86e-01
0 0 6.97e-01
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0 0 7.10e-01
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5 7 1.43e+00
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5 8 2.01e-01
0 0 2.00e-01
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0 0 2.49e-01
0 0 2.52e-01
0 0 2.54e-01
0 0 2.55e-01
0 0 2.56e-01
0 0 2.56e-01
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0 0 2.57e-01
5 9 7.33e-02
0 0 7.59e-02
0 0 8.01e-02
0 0 8.65e-02
0 0 9.62e-02
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5 10 2.78e-01
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0 0 2.90e-01
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0 0 1.49e-01
0 0 9.95e-02
0 0 6.51e-02
0 0 4.20e-02
0 0 0
1 2 2.290e-06
1 3 5.530e+01
1 4 1.710e+00
1 5 0.000e+00
1 6 2.410e+08
1 7 0.000e+00
1 8 7.990e+08
1 9 2.630e+09
1 10 6.580e+08
2 3 6.550e+01
2 4 5.240e+00
2 5 4.320e+01
2 6 4.790e+07
2 7 2.890e+08
2 8 1.590e+09
2 9 1.330e+09
2 10 3.300e+09
3 4 0.000e+00
3 5 0.000e+00
3 6 0.000e+00
3 7 0.000e+00
3 8 0.000e+00
3 9 0.000e+00
3 10 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 0.000e+00
4 8 0.000e+00
4 9 0.000e+00
4 10 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 0.000e+00
5 10 0.000e+00
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
9 10 0.000e+00
1 2 0.0
2 4 63.4
3 2 43003.3
4 4 43025.3
5 6 43053.6
6 4 74932.6
7 6 74930.1
8 2 96493.7
9 2 110624.2
10 4 110665.6
������������������������������������������������������������������������������NEAT-master/Atomic-data/ciii.dat��������������������������������������������������������������������0000664�0000000�0000000�00000052173�12714613141�0016640�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 26
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%theoretical energy level: levels 1 to 10: Berrington et al., ADNDT, 33, 195, 1985
%theoretical energy level: levels 11 to 20: Berrington et al., J.Phys.B, 1989, 22, 665
%produced as part of the Arcetri/Cambridge/NRL atomic data base collaboration 'CHIANTI'
%
% Enrico Landi 1996
%filename: c_3.wgfa
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61
%theoretical energy level (levels 1 to 10): Berrington et al., ADNDT, 33, 195, 1985
%theoretical energy level (levels 11 to 20): Berrington et al., J.Phys.B, 1989, 22, 665
%A-values: Tachiev G., & Froese Fischer C. 1999, J.Phys.B, 32, 5805
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - 5-Aug-2003
%filename: c_3.splups
%effective collision strengths for n=2-n=2 transitions : Berrington et al., 1985, ADNDT, 33, 195
%effective collision strengths for n=2-n=3 transitions : Berrington et al., 1989, J.Phys.B, 22, 665
%comment: effective collision strengths were provided in the temperature range
4.1 < Log T < 5.7 (2-2 transitions) and 4.0 < Log T < 5.8 (2-3 transitions)
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
%Enrico Landi 1996
10 23
1 2s2 1S0
2 2s.2p 3P0
3 2s.2p 3P1
4 2s.2p 3P2
5 2s.2p 1P1
6 2p2 3P0
7 2p2 3P1
8 2p2 3P2
9 2p2 1D2
10 2p2 1S0
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 1.18e-01
0 0 1.18e-01
0 0 1.18e-01
0 0 1.18e-01
0 0 1.18e-01
0 0 1.18e-01
0 0 1.18e-01
0 0 1.17e-01
0 0 1.17e-01
0 0 1.17e-01
0 0 1.17e-01
0 0 1.16e-01
0 0 1.15e-01
0 0 1.12e-01
0 0 1.06e-01
0 0 9.66e-02
0 0 8.37e-02
0 0 7.00e-02
0 0 5.81e-02
0 0 4.90e-02
0 0 4.25e-02
0 0 3.80e-02
0 0 3.50e-02
1 3 3.69e-01
0 0 3.69e-01
0 0 3.68e-01
0 0 3.68e-01
0 0 3.68e-01
0 0 3.67e-01
0 0 3.67e-01
0 0 3.66e-01
0 0 3.64e-01
0 0 3.61e-01
0 0 3.57e-01
0 0 3.51e-01
0 0 3.44e-01
0 0 3.34e-01
0 0 3.19e-01
0 0 2.91e-01
0 0 2.51e-01
0 0 2.09e-01
0 0 1.74e-01
0 0 1.46e-01
0 0 1.27e-01
0 0 1.14e-01
0 0 1.05e-01
1 4 5.90e-01
0 0 5.90e-01
0 0 5.90e-01
0 0 5.90e-01
0 0 5.90e-01
0 0 5.90e-01
0 0 5.89e-01
0 0 5.88e-01
0 0 5.87e-01
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0 0 5.82e-01
0 0 5.78e-01
0 0 5.72e-01
0 0 5.61e-01
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0 0 4.85e-01
0 0 4.18e-01
0 0 3.49e-01
0 0 2.89e-01
0 0 2.43e-01
0 0 2.11e-01
0 0 1.89e-01
0 0 1.75e-01
1 5 3.80e+00
0 0 3.80e+00
0 0 3.81e+00
0 0 3.81e+00
0 0 3.81e+00
0 0 3.82e+00
0 0 3.83e+00
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0 0 6.57e+00
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0 0 8.86e+00
0 0 1.03e+01
0 0 1.19e+01
1 6 2.07e-03
0 0 2.07e-03
0 0 2.07e-03
0 0 2.06e-03
0 0 2.06e-03
0 0 2.05e-03
0 0 2.04e-03
0 0 2.02e-03
0 0 1.99e-03
0 0 1.95e-03
0 0 1.88e-03
0 0 1.79e-03
0 0 1.69e-03
0 0 1.58e-03
0 0 1.49e-03
0 0 1.40e-03
0 0 1.31e-03
0 0 1.18e-03
0 0 1.05e-03
0 0 9.25e-04
0 0 8.34e-04
0 0 7.70e-04
0 0 7.28e-04
1 7 6.20e-03
0 0 6.20e-03
0 0 6.19e-03
0 0 6.19e-03
0 0 6.17e-03
0 0 6.15e-03
0 0 6.11e-03
0 0 6.05e-03
0 0 5.97e-03
0 0 5.83e-03
0 0 5.64e-03
0 0 5.39e-03
0 0 5.07e-03
0 0 4.75e-03
0 0 4.46e-03
0 0 4.20e-03
0 0 3.92e-03
0 0 3.54e-03
0 0 3.12e-03
0 0 2.76e-03
0 0 2.49e-03
0 0 2.30e-03
0 0 2.17e-03
1 8 1.04e-02
0 0 1.04e-02
0 0 1.03e-02
0 0 1.03e-02
0 0 1.03e-02
0 0 1.03e-02
0 0 1.02e-02
0 0 1.01e-02
0 0 9.96e-03
0 0 9.73e-03
0 0 9.41e-03
0 0 8.98e-03
0 0 8.45e-03
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0 0 2.21e+00
0 0 2.20e+00
0 0 2.20e+00
0 0 2.20e+00
0 0 2.19e+00
0 0 2.17e+00
0 0 2.15e+00
0 0 2.12e+00
0 0 2.08e+00
0 0 2.02e+00
0 0 1.93e+00
0 0 1.80e+00
0 0 1.62e+00
0 0 1.42e+00
0 0 1.23e+00
0 0 1.07e+00
0 0 9.46e-01
0 0 8.62e-01
0 0 8.05e-01
8 10 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.02e-01
0 0 2.01e-01
0 0 1.97e-01
0 0 1.89e-01
0 0 1.74e-01
0 0 1.53e-01
0 0 1.30e-01
0 0 1.08e-01
0 0 8.99e-02
0 0 7.64e-02
0 0 6.70e-02
0 0 6.06e-02
9 10 6.34e-01
0 0 6.34e-01
0 0 6.34e-01
0 0 6.34e-01
0 0 6.35e-01
0 0 6.35e-01
0 0 6.36e-01
0 0 6.37e-01
0 0 6.39e-01
0 0 6.42e-01
0 0 6.46e-01
0 0 6.52e-01
0 0 6.59e-01
0 0 6.66e-01
0 0 6.70e-01
0 0 6.77e-01
0 0 6.92e-01
0 0 7.18e-01
0 0 7.48e-01
0 0 7.78e-01
0 0 8.01e-01
0 0 8.17e-01
0 0 8.28e-01
0 0 0
1 2 0.000e+00
1 3 1.040e+02
1 4 5.216e-03
1 5 1.769e+09
1 6 0.000e+00
1 7 0.000e+00
1 8 0.000e+00
1 9 0.000e+00
1 10 0.000e+00
2 3 0.000e+00
2 4 0.000e+00
2 5 0.000e+00
2 6 0.000e+00
2 7 4.411e+08
2 8 0.000e+00
2 9 0.000e+00
2 10 0.000e+00
3 4 2.450e-06
3 5 0.000e+00
3 6 1.321e+09
3 7 3.305e+08
3 8 3.311e+08
3 9 4.965e+03
3 10 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 5.498e+08
4 8 9.913e+08
4 9 3.169e+04
4 10 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 1.390e+08
5 10 2.099e+09
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
9 10 0.000e+00
1 1 0.0
2 1 52367.1
3 3 52390.8
4 5 52447.1
5 3 102352.0
6 1 137425.7
7 3 137454.4
8 5 137502.0
9 5 145876.1
10 1 182519.9
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/civ.dat���������������������������������������������������������������������0000664�0000000�0000000�00000024233�12714613141�0016500�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 30
** Atomic data from version 7 of the CHIANTI database **
%energy levels: Fuhr, J.R., Kelleher, D.E., Martin, W.C., Musgrove, A., Sugar, J., Wiese, W.L.,
Dalton, G.R., Dragoset, R.A., Mohr, P.J., Olsen, K., Reader, J., Saloman, E.B., Sansonetti, C.J.,
Wiersma, G., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data.
% Theoretical energy levels: Badnell, N.R., Pindzola, M.S., 2000, J.Phys.B, 33, 1013
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi Jun 2001
%filename: c_4.wgfa
%observed energy levels: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0,
March 1999, NIST Physical Reference Data.
%oscillator strengths: Martin, I., Karwowski, J., Diercksen, G.H.F., Barrientos, C., 1993, A&AS, 100, 595.
%oscillator strengths: W.L. Wiese, M.W. Smith, B.M. Glennon, Atomic Transition Probabilities,
Vol I, NSRDS-NBS 4, 1966.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E.Landi Jun 2001
%filename: c_4.splups
%oscillator strengths: Martin, I., Karwowski, J., Diercksen, G.H.F., Barrientos, C., 1993, A&AS, 100, 595
%oscillator strengths: W.L. Wiese, M.W. Smith, B.M. Glennon, Atomic Transition Probabilities,
Vol I, NSRDS-NBS 4, 1966
%collision strengths: Badnell, N.R., Pindzola, M.S., 2000, J.Phys.B, 33, 1013
%comment: the original effective collision strengths are provided in LS coupling. These
have been transformed into intermediate coupling effective collision strengths
according to the statistical weights
%comment: the original data are given in the temperature range 4.2 < Log T < 6.5.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi Jun 2001
15 23
1 1s2.2s 2S1/2
2 1s2.2p 2P1/2
3 1s2.2p 2P3/2
4 1s2.3s 2S1/2
5 1s2.3p 2P1/2
6 1s2.3p 2P3/2
7 1s2.3d 2D3/2
8 1s2.3d 2D5/2
9 1s2.4s 2S1/2
10 1s2.4p 2P1/2
11 1s2.4p 2P3/2
12 1s2.4d 2D3/2
13 1s2.4d 2D5/2
14 1s2.4f 2F5/2
15 1s2.4f 2F7/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 2.83e+00
0 0 2.83e+00
0 0 2.83e+00
0 0 2.83e+00
0 0 2.83e+00
0 0 2.83e+00
0 0 2.84e+00
0 0 2.84e+00
0 0 2.84e+00
0 0 2.84e+00
0 0 2.85e+00
0 0 2.87e+00
0 0 2.91e+00
0 0 2.99e+00
0 0 3.10e+00
0 0 3.20e+00
0 0 3.39e+00
0 0 3.65e+00
0 0 3.95e+00
0 0 4.33e+00
0 0 4.79e+00
0 0 5.32e+00
0 0 5.88e+00
1 3 5.60e+00
0 0 5.60e+00
0 0 5.60e+00
0 0 5.60e+00
0 0 5.61e+00
0 0 5.61e+00
0 0 5.61e+00
0 0 5.62e+00
0 0 5.63e+00
0 0 5.65e+00
0 0 5.68e+00
0 0 5.73e+00
0 0 5.82e+00
0 0 5.96e+00
0 0 6.17e+00
0 0 6.43e+00
0 0 6.79e+00
0 0 7.30e+00
0 0 7.91e+00
0 0 8.66e+00
0 0 9.57e+00
0 0 1.06e+01
0 0 1.18e+01
1 4 6.55e-01
0 0 6.55e-01
0 0 6.54e-01
0 0 6.53e-01
0 0 6.52e-01
0 0 6.49e-01
0 0 6.46e-01
0 0 6.40e-01
0 0 6.32e-01
0 0 6.18e-01
0 0 5.97e-01
0 0 5.67e-01
0 0 5.23e-01
0 0 4.67e-01
0 0 4.21e-01
0 0 3.95e-01
0 0 3.69e-01
0 0 3.54e-01
0 0 3.56e-01
0 0 3.58e-01
0 0 3.64e-01
0 0 3.77e-01
0 0 3.90e-01
1 5 1.26e-01
0 0 1.26e-01
0 0 1.26e-01
0 0 1.26e-01
0 0 1.25e-01
0 0 1.25e-01
0 0 1.24e-01
0 0 1.23e-01
0 0 1.22e-01
0 0 1.19e-01
0 0 1.16e-01
0 0 1.10e-01
0 0 1.03e-01
0 0 9.44e-02
0 0 8.77e-02
0 0 8.41e-02
0 0 7.98e-02
0 0 7.90e-02
0 0 8.46e-02
0 0 9.56e-02
0 0 1.15e-01
0 0 1.43e-01
0 0 1.81e-01
1 6 2.49e-01
0 0 2.49e-01
0 0 2.49e-01
0 0 2.48e-01
0 0 2.48e-01
0 0 2.47e-01
0 0 2.46e-01
0 0 2.44e-01
0 0 2.41e-01
0 0 2.37e-01
0 0 2.30e-01
0 0 2.20e-01
0 0 2.06e-01
0 0 1.90e-01
0 0 1.76e-01
0 0 1.68e-01
0 0 1.59e-01
0 0 1.58e-01
0 0 1.69e-01
0 0 1.91e-01
0 0 2.29e-01
0 0 2.86e-01
0 0 3.62e-01
1 7 1.81e-01
0 0 1.81e-01
0 0 1.81e-01
0 0 1.81e-01
0 0 1.81e-01
0 0 1.81e-01
0 0 1.82e-01
0 0 1.82e-01
0 0 1.82e-01
0 0 1.82e-01
0 0 1.83e-01
0 0 1.84e-01
0 0 1.85e-01
0 0 1.87e-01
0 0 1.89e-01
0 0 1.92e-01
0 0 1.97e-01
0 0 2.07e-01
0 0 2.25e-01
0 0 2.50e-01
0 0 2.81e-01
0 0 3.18e-01
0 0 3.51e-01
1 8 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.73e-01
0 0 2.73e-01
0 0 2.73e-01
0 0 2.74e-01
0 0 2.75e-01
0 0 2.77e-01
0 0 2.80e-01
0 0 2.83e-01
0 0 2.88e-01
0 0 2.95e-01
0 0 3.08e-01
0 0 3.44e-01
0 0 3.84e-01
0 0 4.16e-01
0 0 4.75e-01
0 0 5.28e-01
1 9 1.21e-01
0 0 1.21e-01
0 0 1.21e-01
0 0 1.21e-01
0 0 1.21e-01
0 0 1.20e-01
0 0 1.19e-01
0 0 1.18e-01
0 0 1.16e-01
0 0 1.13e-01
0 0 1.08e-01
0 0 1.01e-01
0 0 9.16e-02
0 0 8.02e-02
0 0 7.18e-02
0 0 6.88e-02
0 0 6.43e-02
0 0 6.18e-02
0 0 6.46e-02
0 0 6.56e-02
0 0 6.59e-02
0 0 6.91e-02
0 0 7.22e-02
1 10 3.46e-02
0 0 3.46e-02
0 0 3.46e-02
0 0 3.46e-02
0 0 3.45e-02
0 0 3.45e-02
0 0 3.44e-02
0 0 3.43e-02
0 0 3.40e-02
0 0 3.37e-02
0 0 3.32e-02
0 0 3.24e-02
0 0 3.13e-02
0 0 2.97e-02
0 0 2.79e-02
0 0 2.60e-02
0 0 2.48e-02
0 0 2.45e-02
0 0 2.51e-02
0 0 2.73e-02
0 0 3.16e-02
0 0 3.78e-02
0 0 4.62e-02
1 11 6.92e-02
0 0 6.92e-02
0 0 6.92e-02
0 0 6.92e-02
0 0 6.91e-02
0 0 6.90e-02
0 0 6.88e-02
0 0 6.85e-02
0 0 6.81e-02
0 0 6.74e-02
0 0 6.64e-02
0 0 6.48e-02
0 0 6.26e-02
0 0 5.95e-02
0 0 5.57e-02
0 0 5.20e-02
0 0 4.97e-02
0 0 4.90e-02
0 0 5.02e-02
0 0 5.46e-02
0 0 6.32e-02
0 0 7.57e-02
0 0 9.25e-02
1 12 3.45e-02
0 0 3.45e-02
0 0 3.45e-02
0 0 3.45e-02
0 0 3.46e-02
0 0 3.46e-02
0 0 3.47e-02
0 0 3.47e-02
0 0 3.49e-02
0 0 3.51e-02
0 0 3.55e-02
0 0 3.60e-02
0 0 3.68e-02
0 0 3.77e-02
0 0 3.76e-02
0 0 3.55e-02
0 0 3.66e-02
0 0 3.81e-02
0 0 4.05e-02
0 0 4.44e-02
0 0 4.95e-02
0 0 5.61e-02
0 0 6.22e-02
1 13 5.17e-02
0 0 5.18e-02
0 0 5.18e-02
0 0 5.18e-02
0 0 5.18e-02
0 0 5.19e-02
0 0 5.20e-02
0 0 5.21e-02
0 0 5.23e-02
0 0 5.27e-02
0 0 5.32e-02
0 0 5.40e-02
0 0 5.51e-02
0 0 5.66e-02
0 0 5.65e-02
0 0 5.32e-02
0 0 5.49e-02
0 0 5.71e-02
0 0 6.08e-02
0 0 6.66e-02
0 0 7.43e-02
0 0 8.41e-02
0 0 9.33e-02
1 14 3.16e-02
0 0 3.16e-02
0 0 3.16e-02
0 0 3.16e-02
0 0 3.16e-02
0 0 3.16e-02
0 0 3.16e-02
0 0 3.16e-02
0 0 3.16e-02
0 0 3.15e-02
0 0 3.15e-02
0 0 3.15e-02
0 0 3.16e-02
0 0 3.12e-02
0 0 2.96e-02
0 0 2.75e-02
0 0 2.63e-02
0 0 2.56e-02
0 0 2.52e-02
0 0 2.53e-02
0 0 2.57e-02
0 0 2.61e-02
0 0 2.64e-02
1 15 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.21e-02
0 0 4.16e-02
0 0 3.95e-02
0 0 3.66e-02
0 0 3.50e-02
0 0 3.42e-02
0 0 3.35e-02
0 0 3.37e-02
0 0 3.43e-02
0 0 3.48e-02
0 0 3.52e-02
0 0 0
1 2 2.630e+08
1 3 2.650e+08
1 4 0.000e+00
1 5 4.550e+09
1 6 4.570e+09
1 7 0.000e+00
1 8 0.000e+00
1 9 0.000e+00
1 10 2.210e+09
1 11 2.210e+09
1 12 0.000e+00
1 13 0.000e+00
1 14 0.000e+00
1 15 0.000e+00
2 3 0.000e+00
2 4 1.430e+09
2 5 0.000e+00
2 6 0.000e+00
2 7 1.480e+10
2 8 0.000e+00
2 9 5.850e+08
2 10 0.000e+00
2 11 0.000e+00
2 12 4.850e+09
2 13 0.000e+00
2 14 0.000e+00
2 15 0.000e+00
3 4 2.850e+09
3 5 0.000e+00
3 6 0.000e+00
3 7 2.960e+09
3 8 1.770e+10
3 9 1.170e+09
3 10 0.000e+00
3 11 0.000e+00
3 12 9.690e+08
3 13 5.820e+09
3 14 0.000e+00
3 15 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 0.000e+00
4 8 0.000e+00
4 9 0.000e+00
4 10 0.000e+00
4 11 0.000e+00
4 12 0.000e+00
4 13 0.000e+00
4 14 0.000e+00
4 15 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 0.000e+00
5 10 0.000e+00
5 11 0.000e+00
5 12 0.000e+00
5 13 0.000e+00
5 14 0.000e+00
5 15 0.000e+00
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
6 11 0.000e+00
6 12 0.000e+00
6 13 0.000e+00
6 14 0.000e+00
6 15 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
7 11 0.000e+00
7 12 0.000e+00
7 13 0.000e+00
7 14 3.310e+09
7 15 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
8 11 0.000e+00
8 12 0.000e+00
8 13 0.000e+00
8 14 0.000e+00
8 15 3.550e+09
9 10 0.000e+00
9 11 0.000e+00
9 12 0.000e+00
9 13 0.000e+00
9 14 0.000e+00
9 15 0.000e+00
10 11 0.000e+00
10 12 0.000e+00
10 13 0.000e+00
10 14 0.000e+00
10 15 0.000e+00
11 12 0.000e+00
11 13 0.000e+00
11 14 0.000e+00
11 15 0.000e+00
12 13 0.000e+00
12 14 0.000e+00
12 15 0.000e+00
13 14 0.000e+00
13 15 0.000e+00
14 15 0.000e+00
1 2 0.0
2 2 64484.0
3 4 64591.7
4 2 302849.0
5 2 320050.1
6 4 320081.7
7 4 324879.8
8 6 324890.3
9 2 401348.1
10 2 408311.1
11 4 408324.2
12 4 410336.1
13 6 410340.1
14 6 410434.2
15 8 410434.2
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/clii.dat��������������������������������������������������������������������0000664�0000000�0000000�00000014523�12714613141�0016640�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 37
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%theoretical energy levels: Wilson, N.J., Bell, K.L. 2002, MNRAS 331, 389
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - 20-May-02
%filename: cl_2.wgfa
%observed energy levels: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%A-values: From SSTRUCT calculation. See comments below.
%comments: The A-values were derived using the code SSTRUCT, with a model of the
Cl II ion that contained the following 14 configurations:
3s2.3p4
3s.3p5
3s2.3p3.3d
3s2.3p3.4l (l=s,p,d,f)
3s2.3p3.5l (l=s,p,d,f,g)
3s2.3p3.6l (l=s,p)
Note that SSTRUCT is not best suited to ions with low charges, and
the derived A-values may not be good. However, there are no other values
in the literature.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - 11-Jun-2002
%filename: cl_2.splups
%theoretical energy levels: Wilson, N.J., Bell, K.L. 2002, MNRAS 331, 389
%effective collision strengths: Wilson, N.J., Bell, K.L. 2002, MNRAS 331, 389 and MNRAS 338, 544
%comment: Wilson & Bell gave theoretical energies only for LS-resolved levels.
For the 3P level splitting observed energies were used.
%comment: An erratum was published in MNRAS 338, 544, revising the upsilons for
transition 4-5. This has been corrected.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - 23-Jan-03
5 23
1 3s2.3p4 3P2
2 3s2.3p4 3P1
3 3s2.3p4 3P0
4 3s2.3p4 1D2
5 3s2.3p4 1S0
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 5.13e+00
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0 0 6.92e-01
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1 5 5.56e-01
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0 0 5.49e-01
0 0 5.36e-01
0 0 5.14e-01
0 0 4.81e-01
0 0 4.28e-01
0 0 3.61e-01
0 0 2.97e-01
0 0 2.46e-01
0 0 2.10e-01
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0 0 8.53e-01
0 0 7.03e-01
0 0 5.94e-01
0 0 5.19e-01
0 0 4.69e-01
0 0 4.37e-01
2 4 2.86e+00
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0 0 8.30e-01
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2 5 3.34e-01
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0 0 3.21e-01
0 0 3.07e-01
0 0 2.87e-01
0 0 2.56e-01
0 0 2.15e-01
0 0 1.77e-01
0 0 1.46e-01
0 0 1.23e-01
0 0 1.08e-01
0 0 9.78e-02
3 4 9.52e-01
0 0 9.52e-01
0 0 9.51e-01
0 0 9.51e-01
0 0 9.50e-01
0 0 9.49e-01
0 0 9.48e-01
0 0 9.45e-01
0 0 9.42e-01
0 0 9.36e-01
0 0 9.27e-01
0 0 9.12e-01
0 0 8.89e-01
0 0 8.52e-01
0 0 7.97e-01
0 0 7.24e-01
0 0 6.30e-01
0 0 5.25e-01
0 0 4.29e-01
0 0 3.54e-01
0 0 3.01e-01
0 0 2.65e-01
0 0 2.41e-01
3 5 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.10e-01
0 0 1.07e-01
0 0 1.02e-01
0 0 9.52e-02
0 0 8.41e-02
0 0 7.12e-02
0 0 5.98e-02
0 0 5.11e-02
0 0 4.51e-02
0 0 4.10e-02
0 0 3.84e-02
4 5 1.51e+00
0 0 1.51e+00
0 0 1.51e+00
0 0 1.51e+00
0 0 1.51e+00
0 0 1.51e+00
0 0 1.50e+00
0 0 1.50e+00
0 0 1.49e+00
0 0 1.49e+00
0 0 1.47e+00
0 0 1.46e+00
0 0 1.43e+00
0 0 1.40e+00
0 0 1.38e+00
0 0 1.37e+00
0 0 1.36e+00
0 0 1.36e+00
0 0 1.35e+00
0 0 1.35e+00
0 0 1.35e+00
0 0 1.35e+00
0 0 1.35e+00
0 0 0
1 2 7.566e-03
1 3 6.053e-07
1 4 1.038e-01
1 5 1.976e-02
2 3 1.462e-03
2 4 2.872e-02
2 5 1.297e+00
3 4 1.134e-05
3 5 0.000e+00
4 5 2.416e+00
1 5 0.0
2 3 696.0
3 1 996.5
4 5 11653.6
5 1 27878.0
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/cliii.dat�������������������������������������������������������������������0000664�0000000�0000000�00000006132�12714613141�0017006�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
CLIII: TR. PROBS - ZEIPPEN & MENDOZA (MNRAS 1982).
Collision strengths: Butler & Zeippen (A&A,208,337,1989).
5 10 0
4S(0)
2D(3/2)
2D(5/2)
2P(1/2)
2P(3/2)
2000.
4000.
6000.
8000.
10000.
12000.
14000.
16000.
18000.
20000.
0
1 2 1.149 2000.
0 0 1.260 4000.
0 0 1.323 6000.
0 0 1.350 8000.
0 0 1.359 10000.
0 0 1.361 12000.
0 0 1.359 14000.
0 0 1.356 16000.
0 0 1.354 18000.
0 0 1.352 20000.
1 3 1.724 2000.
0 0 1.892 4000.
0 0 1.989 6000.
0 0 2.031 8000.
0 0 2.046 10000.
0 0 2.048 12000.
0 0 2.046 14000.
0 0 2.042 16000.
0 0 2.038 18000.
0 0 2.035 20000.
2 3 4.073 2000.
0 0 4.404 4000.
0 0 4.498 6000.
0 0 4.519 8000.
0 0 4.519 10000.
0 0 4.515 12000.
0 0 4.509 14000.
0 0 4.502 16000.
0 0 4.493 18000.
0 0 4.483 20000.
1 4 0.413 2000.
0 0 0.381 4000.
0 0 0.388 6000.
0 0 0.403 8000.
0 0 0.418 10000.
0 0 0.430 12000.
0 0 0.440 14000.
0 0 0.448 16000.
0 0 0.445 18000.
0 0 0.461 20000.
2 4 1.337 2000.
0 0 1.397 4000.
0 0 1.506 6000.
0 0 1.594 8000.
0 0 1.653 10000.
0 0 1.688 12000.
0 0 1.708 14000.
0 0 1.716 16000.
0 0 1.718 18000.
0 0 1.716 20000.
3 4 1.418 2000.
0 0 1.414 4000.
0 0 1.473 6000.
0 0 1.527 8000.
0 0 1.563 10000.
0 0 1.584 12000.
0 0 1.596 14000.
0 0 1.602 16000.
0 0 1.604 18000.
0 0 1.604 20000.
1 5 0.826 2000.
0 0 0.762 4000.
0 0 0.775 6000.
0 0 0.807 8000.
0 0 0.837 10000.
0 0 0.861 12000.
0 0 0.880 14000.
0 0 0.896 16000.
0 0 0.909 18000.
0 0 0.920 20000.
2 5 1.956 2000.
0 0 1.962 4000.
0 0 2.055 6000.
0 0 2.137 8000.
0 0 2.192 10000.
0 0 2.224 12000.
0 0 2.242 14000.
0 0 2.251 16000.
0 0 2.253 18000.
0 0 2.252 20000.
3 5 3.522 2000.
0 0 3.625 4000.
0 0 3.898 6000.
0 0 4.069 8000.
0 0 4.203 10000.
0 0 4.282 12000.
0 0 4.323 14000.
0 0 4.339 16000.
0 0 4.337 18000.
0 0 4.324 20000.
4 5 1.756 2000.
0 0 1.728 4000.
0 0 1.729 6000.
0 0 1.739 8000.
0 0 1.755 10000.
0 0 1.774 12000.
0 0 1.795 14000.
0 0 1.816 16000.
0 0 1.837 18000.
0 0 1.858 20000.
0 0 0
1 2 4.83E-3
1 3 7.04E-4
1 4 0.305
1 5 0.754
2 3 3.22E-6
2 4 0.303
2 5 0.323
3 4 0.100
3 5 0.316
4 5 7.65E-6
1 4 0.0
2 4 18053.
3 6 18120.
4 2 29812.
5 4 29907.
��������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/cliv.dat��������������������������������������������������������������������0000664�0000000�0000000�00000013406�12714613141�0016654�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 20
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Version 3.0.3 of the NIST online database. http://physics.nist.gov/PhysRefData/ASD/index.html
%theoretical energies: No theoretical energies available.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 20-Jun-2006
%filename: cl_4.wgfa
%observed energy levels: Version 3.0.3 of the NIST online database. http://physics.nist.gov/PhysRefData/ASD/index.html
%A-values: Mendoza, C. & Zeippen, C.J., 1982, MNRAS, 199, 1025
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 20-Jun-2006
%filename: cl_4.splups
%Theoretical energies: No theoretical energies available - observed energies from .elvlc file used instead.
%Upsilons: Galavis, M.E., Mendoza, C., Zeippen, C.J. 1995, A&ASS 111, 347
%comment: The fits reproduce the original data to within 0.20% over the temperature range 3.0 <= logT <= 5.0.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 20-Jun-2006
5 23
1 3s2.3p2 3P0
2 3s2.3p2 3P1
3 3s2.3p2 3P2
4 3s2.3p2 1D2
5 3s2.3p2 1S0
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 2.69e+00
0 0 2.69e+00
0 0 2.69e+00
0 0 2.69e+00
0 0 2.70e+00
0 0 2.69e+00
0 0 2.67e+00
0 0 2.58e+00
0 0 2.38e+00
0 0 2.10e+00
0 0 1.83e+00
0 0 1.65e+00
0 0 1.59e+00
0 0 1.63e+00
0 0 1.66e+00
0 0 1.60e+00
0 0 1.49e+00
0 0 1.40e+00
0 0 1.33e+00
0 0 1.28e+00
0 0 1.25e+00
0 0 1.23e+00
0 0 1.22e+00
1 3 2.00e+00
0 0 2.00e+00
0 0 2.00e+00
0 0 2.01e+00
0 0 2.02e+00
0 0 2.04e+00
0 0 2.06e+00
0 0 2.07e+00
0 0 2.05e+00
0 0 1.93e+00
0 0 1.75e+00
0 0 1.59e+00
0 0 1.49e+00
0 0 1.44e+00
0 0 1.39e+00
0 0 1.31e+00
0 0 1.22e+00
0 0 1.15e+00
0 0 1.11e+00
0 0 1.08e+00
0 0 1.06e+00
0 0 1.04e+00
0 0 1.04e+00
1 4 1.10e+00
0 0 1.10e+00
0 0 1.09e+00
0 0 1.08e+00
0 0 1.06e+00
0 0 1.03e+00
0 0 9.86e-01
0 0 9.19e-01
0 0 8.36e-01
0 0 7.62e-01
0 0 7.15e-01
0 0 7.04e-01
0 0 7.21e-01
0 0 7.36e-01
0 0 7.16e-01
0 0 6.52e-01
0 0 5.77e-01
0 0 5.17e-01
0 0 4.75e-01
0 0 4.47e-01
0 0 4.28e-01
0 0 4.16e-01
0 0 4.09e-01
1 5 1.96e-01
0 0 1.96e-01
0 0 1.95e-01
0 0 1.95e-01
0 0 1.95e-01
0 0 1.94e-01
0 0 1.93e-01
0 0 1.91e-01
0 0 1.91e-01
0 0 1.98e-01
0 0 2.14e-01
0 0 2.32e-01
0 0 2.40e-01
0 0 2.30e-01
0 0 2.04e-01
0 0 1.70e-01
0 0 1.40e-01
0 0 1.17e-01
0 0 1.02e-01
0 0 9.18e-02
0 0 8.52e-02
0 0 8.10e-02
0 0 7.83e-02
2 3 7.87e+00
0 0 7.88e+00
0 0 7.89e+00
0 0 7.91e+00
0 0 7.93e+00
0 0 7.95e+00
0 0 7.97e+00
0 0 7.89e+00
0 0 7.58e+00
0 0 6.96e+00
0 0 6.23e+00
0 0 5.64e+00
0 0 5.34e+00
0 0 5.27e+00
0 0 5.20e+00
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0 0 4.46e+00
0 0 3.99e+00
0 0 3.63e+00
0 0 3.38e+00
0 0 3.21e+00
0 0 3.10e+00
0 0 3.04e+00
2 4 3.32e+00
0 0 3.30e+00
0 0 3.28e+00
0 0 3.24e+00
0 0 3.18e+00
0 0 3.09e+00
0 0 2.96e+00
0 0 2.76e+00
0 0 2.51e+00
0 0 2.29e+00
0 0 2.15e+00
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0 0 2.21e+00
0 0 2.15e+00
0 0 1.96e+00
0 0 1.73e+00
0 0 1.55e+00
0 0 1.43e+00
0 0 1.34e+00
0 0 1.29e+00
0 0 1.25e+00
0 0 1.23e+00
2 5 5.87e-01
0 0 5.87e-01
0 0 5.86e-01
0 0 5.85e-01
0 0 5.84e-01
0 0 5.81e-01
0 0 5.77e-01
0 0 5.73e-01
0 0 5.74e-01
0 0 5.93e-01
0 0 6.41e-01
0 0 6.97e-01
0 0 7.20e-01
0 0 6.89e-01
0 0 6.12e-01
0 0 5.11e-01
0 0 4.20e-01
0 0 3.53e-01
0 0 3.06e-01
0 0 2.76e-01
0 0 2.56e-01
0 0 2.43e-01
0 0 2.35e-01
3 4 5.52e+00
0 0 5.50e+00
0 0 5.46e+00
0 0 5.40e+00
0 0 5.30e+00
0 0 5.15e+00
0 0 4.93e+00
0 0 4.60e+00
0 0 4.18e+00
0 0 3.81e+00
0 0 3.58e+00
0 0 3.52e+00
0 0 3.60e+00
0 0 3.68e+00
0 0 3.58e+00
0 0 3.26e+00
0 0 2.89e+00
0 0 2.59e+00
0 0 2.37e+00
0 0 2.23e+00
0 0 2.14e+00
0 0 2.08e+00
0 0 2.04e+00
3 5 9.79e-01
0 0 9.78e-01
0 0 9.77e-01
0 0 9.75e-01
0 0 9.73e-01
0 0 9.68e-01
0 0 9.62e-01
0 0 9.55e-01
0 0 9.56e-01
0 0 9.89e-01
0 0 1.07e+00
0 0 1.16e+00
0 0 1.20e+00
0 0 1.15e+00
0 0 1.02e+00
0 0 8.52e-01
0 0 7.00e-01
0 0 5.87e-01
0 0 5.10e-01
0 0 4.59e-01
0 0 4.26e-01
0 0 4.05e-01
0 0 3.92e-01
4 5 6.61e-01
0 0 6.64e-01
0 0 6.68e-01
0 0 6.74e-01
0 0 6.83e-01
0 0 6.97e-01
0 0 7.17e-01
0 0 7.43e-01
0 0 8.03e-01
0 0 9.60e-01
0 0 1.24e+00
0 0 1.58e+00
0 0 1.87e+00
0 0 2.04e+00
0 0 2.09e+00
0 0 2.01e+00
0 0 1.89e+00
0 0 1.78e+00
0 0 1.71e+00
0 0 1.66e+00
0 0 1.63e+00
0 0 1.61e+00
0 0 1.59e+00
0 0 0
1 2 2.140e-03
1 3 2.700e-07
1 4 1.540e-05
1 5 0.000e+00
2 3 8.250e-03
2 4 7.234e-02
2 5 2.470e+00
3 4 1.786e-01
3 5 2.620e-02
4 5 2.800e+00
1 1 0.0
2 3 492.0
3 5 1341.9
4 5 13767.6
5 1 32547.8
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/feiii.dat�������������������������������������������������������������������0000664�0000000�0000000�00000116524�12714613141�0017011�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 1
null
25 8 0
3d6 5de4
3d6 5de3
3d6 5de2
3d6 5de1
3d6 5de0
3d6 3p2
3d6 3p1
3d6 3p0
3d6 3h6
3d6 3h5
3d6 3h4
3d6 3f4
3d6 3f3
3d6 3f2
3d6 3g5
3d6 3g4
3d6 3g3
3d6 1i6
3d6 3de3
3d6 3de2
3d6 3de1
3d6 1g4
3d6 1s0
3d6 1de2
3d6 1f3
1000
3000
5000
10000
15000
20000
30000
40000
0
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0 0 0.7330
0 0 0.6830
19 25 0.8310
0 0 0.7510
0 0 0.7260
0 0 0.7120
0 0 0.6990
0 0 0.6850
0 0 0.6580
0 0 0.6350
20 25 0.5660
0 0 0.5230
0 0 0.5110
0 0 0.5050
0 0 0.4970
0 0 0.4880
0 0 0.4690
0 0 0.4530
21 25 0.3440
0 0 0.3170
0 0 0.3090
0 0 0.3040
0 0 0.2990
0 0 0.2940
0 0 0.2820
0 0 0.2720
22 25 1.4400
0 0 1.5200
0 0 1.4900
0 0 1.4300
0 0 1.3500
0 0 1.2700
0 0 1.1300
0 0 1.0200
23 25 0.1410
0 0 0.1260
0 0 0.1250
0 0 0.1370
0 0 0.1440
0 0 0.1460
0 0 0.1430
0 0 0.1390
24 25 1.4500
0 0 1.4000
0 0 1.3400
0 0 1.2500
0 0 1.2000
0 0 1.1500
0 0 1.0600
0 0 0.9850
0 0 0
1 2 2.87-3
1 3 2.81-9
1 4 0.0
1 5 0.0
1 6 5.93-6
1 7 0.0
1 8 0.0
1 9 4.27-6
1 10 1.05-5
1 11 9.62-3
1 12 4.30-1
1 13 4.24-2
1 14 2.42-6
1 15 3.86-4
1 16 2.92-3
1 17 1.76-4
1 18 3.39-7
1 19 1.97-1
1 20 2.63-4
1 21 0.0
1 22 6.13-4
1 23 0.0
1 24 4.80-6
1 25 2.42-4
2 3 1.79-3
2 4 1.05-9
2 5 0.0
2 6 5.08-1
2 7 7.12-5
2 8 0.0
2 9 0.0
2 10 2.50-6
2 11 1.92-3
2 12 8.23-2
2 13 2.32-1
2 14 2.56-2
2 15 2.56-5
2 16 1.01-3
2 17 1.26-3
2 18 0.0
2 19 5.60-2
2 20 2.59-2
2 21 6.48-5
2 22 1.22-4
2 23 0.0
2 24 1.33-4
2 25 7.17-4
3 4 6.82-4
3 5 0.0
3 6 5.99-5
3 7 6.32-1
3 8 4.20-4
3 9 0.0
3 10 0.0
3 11 1.32-7
3 12 1.37-5
3 13 8.13-2
3 14 4.41-2
3 15 0.0
3 16 2.44-5
3 17 5.77-4
3 18 0.0
3 19 4.12-2
3 20 9.52-2
3 21 1.15-3
3 22 2.78-7
3 23 4.76-4
3 24 1.45-3
3 25 2.64-4
4 5 0.0
4 6 4.91-2
4 7 1.60-4
4 8 8.13-1
4 9 0.0
4 10 0.0
4 11 0.0
4 12 0.0
4 13 1.87-5
4 14 4.41-2
4 15 0.0
4 16 0.0
4 17 1.36-5
4 18 0.0
4 19 4.84-5
4 20 8.30-2
4 21 1.24-1
4 22 0.0
4 23 4.76-4
4 24 8.60-4
4 25 1.86-6
5 6 2.53-5
5 7 1.10-1
5 8 0.0
5 9 0.0
5 10 0.0
5 11 0.0
5 12 0.0
5 13 0.0
5 14 1.96-5
5 15 0.0
5 16 0.0
5 17 0.0
5 18 0.0
5 19 0.0
5 20 8.29-5
5 21 1.10-1
5 22 0.0
5 23 0.0
5 24 1.47-7
5 25 0.0
6 7 4.77-2
6 8 0.0
6 9 0.0
6 10 0.0
6 11 2.95-10
6 12 2.94-7
6 13 1.53-6
6 14 8.19-6
6 15 0.0
6 16 3.64-8
6 17 4.01-7
6 18 0.0
6 19 3.49-2
6 20 4.03-2
6 21 1.20-2
6 22 2.34-6
6 23 2.40-4
6 24 7.91-2
6 25 2.30-4
7 8 7.54-3
7 9 0.0
7 10 0.0
7 11 0.0
7 12 0.0
7 13 5.53-9
7 14 1.22-6
7 15 0.0
7 16 0.0
7 17 3.92-9
7 18 0.0
7 19 1.40-4
7 20 2.95-5
7 21 4.28-2
7 22 0.0
7 23 1.38
7 24 2.83-2
7 25 1.52-4
8 9 0.0
8 10 0.0
8 11 0.0
8 12 0.0
8 13 0.0
8 14 3.84-10
8 15 0.0
8 16 0.0
8 17 0.0
8 18 0.0
8 19 0.0
8 20 9.56-5
8 21 1.17-2
8 22 0.0
8 23 0.0
8 24 4.50-5
8 25 0.0
9 10 4.05-4
9 11 0.0
9 12 0.0
9 13 0.0
9 14 0.0
9 15 4.12-2
9 16 1.98-5
9 17 0.0
9 18 6.73-2
9 19 0.0
9 20 0.0
9 21 0.0
9 22 1.39-5
9 23 0.0
9 24 0.0
9 25 0.0
10 11 1.85-4
10 12 0.0
10 13 0.0
10 14 0.0
10 15 2.89-2
10 16 2.63-4
10 17 2.20-5
10 18 4.41-2
10 19 2.27-4
10 20 0.0
10 21 0.0
10 22 2.45-1
10 23 0.0
10 24 0.0
10 25 4.96-3
11 12 0.0
11 13 0.0
11 14 0.0
11 15 4.17-3
11 16 4.58-2
11 17 3.69-2
11 18 2.27-7
11 19 5.98-4
11 20 1.43-5
11 21 0.0
11 22 2.15-1
11 23 0.0
11 24 1.41-4
11 25 2.78-3
12 13 0.0
12 14 0.0
12 15 7.94-3
12 16 8.08-3
12 17 3.24-3
12 18 2.78-6
12 19 1.22-2
12 20 1.52-3
12 21 0.0
12 22 1.26-1
12 23 0.0
12 24 2.72-6
12 25 3.71-3
13 14 0.0
13 15 2.63-7
13 16 1.14-6
13 17 1.60-2
13 18 0.0
13 19 7.36-3
13 20 4.07-3
13 21 1.87-3
13 22 9.87-2
13 23 0.0
13 24 2.25-1
13 25 2.43-3
14 15 0.0
14 16 3.77-7
14 17 1.00-2
14 18 0.0
14 19 1.58-3
14 20 3.54-3
14 21 7.76-3
14 22 1.03-7
14 23 6.82-6
14 24 1.23-1
14 25 2.58-3
15 16 1.45-3
15 17 0.0
15 18 1.54-4
15 19 6.46-4
15 20 0.0
15 21 0.0
15 22 2.16-5
15 23 0.0
15 24 0.0
15 25 3.25-4
16 17 2.71-4
16 18 2.99-9
16 19 1.06-4
16 20 3.52-4
16 21 0.0
16 22 8.56-7
16 23 0.0
16 24 1.10-4
16 25 1.08-1
17 18 0.0
17 19 1.11-4
17 20 9.81-5
17 21 3.62-4
17 22 1.82-4
17 23 0.0
17 24 1.20-3
17 25 5.35-2
18 19 0.0
18 20 0.0
18 21 0.0
18 22 0.0
18 23 0.0
18 24 0.0
18 25 0.0
19 20 0.0
19 21 0.0
19 22 0.0
19 23 0.0
19 24 4.51-2
19 25 5.36-2
20 21 0.0
20 22 0.0
20 23 1.95-6
20 24 8.47-3
20 25 3.16-2
21 22 0.0
21 23 1.99-5
21 24 4.65-2
21 25 1.15-5
22 23 0.0
22 24 8.47-5
22 25 6.66-3
23 24 1.74-8
23 25 0.0
24 25 8.07-4
1 9 0.0
2 7 463.2
3 5 738.9
4 3 932.4
5 1 1027.3
6 5 19404.8
7 3 20688.4
8 1 21208.5
9 13 20051.1
10 11 20300.8
11 9 20481.9
12 9 21462.2
13 7 21699.9
14 5 21857.2
15 11 24558.8
16 9 24940.9
17 7 25124.4
18 13 30356.2
19 7 30857.8
20 5 30716.2
21 3 30725.8
22 9 30886.4
23 1 34812.4
24 5 35803.7
25 7 42896.9
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/kv.dat����������������������������������������������������������������������0000664�0000000�0000000�00000013516�12714613141�0016341�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 22
** Atomic data from version 7 of the CHIANTI database **
%observed energies: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%theoretical energies: Wilson, N. J., Bell, K. L. 2001, MNRAS 325, 159
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - 12 Jun 2002
%filename: k_5.wgfa
%observed energies: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%A-values: Mendoza, C., Zeippen, C.J. 1982, MNRAS 198, 127
%comment: corrected typo for 1-5 transition
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - 30-Mar-2010
%filename: k_5.splups
%theoretical energy levels: Wilson, N. J., Bell, K. L. 2001, MNRAS 325, 159
%effective collision strengths: Wilson, N. J., Bell, K. L. 2001, MNRAS 325, 159
%comment: Note that Wilson & Bell only give LS energy levels. The energies
for the fine structure splittings have been taken from experimental values.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R.Young - 12-Jun-02
5 23
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 8.15e-01
0 0 8.16e-01
0 0 8.19e-01
0 0 8.23e-01
0 0 8.30e-01
0 0 8.42e-01
0 0 8.66e-01
0 0 9.20e-01
0 0 1.03e+00
0 0 1.20e+00
0 0 1.37e+00
0 0 1.42e+00
0 0 1.37e+00
0 0 1.26e+00
0 0 1.15e+00
0 0 1.04e+00
0 0 9.18e-01
0 0 8.20e-01
0 0 7.50e-01
0 0 7.03e-01
0 0 6.72e-01
0 0 6.52e-01
0 0 6.39e-01
1 3 1.22e+00
0 0 1.22e+00
0 0 1.22e+00
0 0 1.23e+00
0 0 1.24e+00
0 0 1.26e+00
0 0 1.30e+00
0 0 1.38e+00
0 0 1.55e+00
0 0 1.81e+00
0 0 2.05e+00
0 0 2.13e+00
0 0 2.05e+00
0 0 1.89e+00
0 0 1.73e+00
0 0 1.56e+00
0 0 1.38e+00
0 0 1.23e+00
0 0 1.12e+00
0 0 1.05e+00
0 0 1.00e+00
0 0 9.72e-01
0 0 9.52e-01
1 4 2.17e+00
0 0 2.16e+00
0 0 2.14e+00
0 0 2.12e+00
0 0 2.09e+00
0 0 2.03e+00
0 0 1.95e+00
0 0 1.84e+00
0 0 1.67e+00
0 0 1.46e+00
0 0 1.22e+00
0 0 9.95e-01
0 0 8.06e-01
0 0 6.61e-01
0 0 5.50e-01
0 0 4.64e-01
0 0 3.99e-01
0 0 3.53e-01
0 0 3.22e-01
0 0 3.01e-01
0 0 2.87e-01
0 0 2.78e-01
0 0 2.73e-01
1 5 4.34e+00
0 0 4.32e+00
0 0 4.29e+00
0 0 4.25e+00
0 0 4.18e+00
0 0 4.07e+00
0 0 3.91e+00
0 0 3.67e+00
0 0 3.34e+00
0 0 2.92e+00
0 0 2.44e+00
0 0 1.99e+00
0 0 1.61e+00
0 0 1.32e+00
0 0 1.10e+00
0 0 9.28e-01
0 0 8.00e-01
0 0 7.09e-01
0 0 6.48e-01
0 0 6.07e-01
0 0 5.81e-01
0 0 5.64e-01
0 0 5.53e-01
2 3 7.27e+00
0 0 7.29e+00
0 0 7.32e+00
0 0 7.35e+00
0 0 7.41e+00
0 0 7.50e+00
0 0 7.64e+00
0 0 7.82e+00
0 0 8.04e+00
0 0 8.23e+00
0 0 8.24e+00
0 0 7.96e+00
0 0 7.44e+00
0 0 6.88e+00
0 0 6.51e+00
0 0 6.33e+00
0 0 6.26e+00
0 0 6.23e+00
0 0 6.22e+00
0 0 6.21e+00
0 0 6.20e+00
0 0 6.20e+00
0 0 6.20e+00
2 4 2.64e+00
0 0 2.63e+00
0 0 2.62e+00
0 0 2.59e+00
0 0 2.55e+00
0 0 2.50e+00
0 0 2.41e+00
0 0 2.29e+00
0 0 2.14e+00
0 0 1.98e+00
0 0 1.89e+00
0 0 1.85e+00
0 0 1.78e+00
0 0 1.74e+00
0 0 1.79e+00
0 0 1.92e+00
0 0 2.06e+00
0 0 2.16e+00
0 0 2.24e+00
0 0 2.29e+00
0 0 2.32e+00
0 0 2.34e+00
0 0 2.36e+00
2 5 5.44e+00
0 0 5.41e+00
0 0 5.37e+00
0 0 5.30e+00
0 0 5.20e+00
0 0 5.04e+00
0 0 4.81e+00
0 0 4.48e+00
0 0 4.08e+00
0 0 3.66e+00
0 0 3.35e+00
0 0 3.14e+00
0 0 2.91e+00
0 0 2.72e+00
0 0 2.65e+00
0 0 2.68e+00
0 0 2.72e+00
0 0 2.76e+00
0 0 2.79e+00
0 0 2.81e+00
0 0 2.83e+00
0 0 2.83e+00
0 0 2.84e+00
3 4 4.10e+00
0 0 4.07e+00
0 0 4.04e+00
0 0 3.99e+00
0 0 3.91e+00
0 0 3.79e+00
0 0 3.61e+00
0 0 3.36e+00
0 0 3.04e+00
0 0 2.72e+00
0 0 2.48e+00
0 0 2.31e+00
0 0 2.13e+00
0 0 1.98e+00
0 0 1.91e+00
0 0 1.91e+00
0 0 1.93e+00
0 0 1.94e+00
0 0 1.96e+00
0 0 1.97e+00
0 0 1.97e+00
0 0 1.98e+00
0 0 1.98e+00
3 5 8.01e+00
0 0 7.97e+00
0 0 7.92e+00
0 0 7.83e+00
0 0 7.70e+00
0 0 7.51e+00
0 0 7.21e+00
0 0 6.80e+00
0 0 6.28e+00
0 0 5.75e+00
0 0 5.38e+00
0 0 5.16e+00
0 0 4.90e+00
0 0 4.70e+00
0 0 4.76e+00
0 0 4.99e+00
0 0 5.24e+00
0 0 5.44e+00
0 0 5.58e+00
0 0 5.68e+00
0 0 5.74e+00
0 0 5.78e+00
0 0 5.81e+00
4 5 1.47e+00
0 0 1.47e+00
0 0 1.45e+00
0 0 1.43e+00
0 0 1.40e+00
0 0 1.36e+00
0 0 1.29e+00
0 0 1.21e+00
0 0 1.12e+00
0 0 1.10e+00
0 0 1.24e+00
0 0 1.51e+00
0 0 1.79e+00
0 0 2.02e+00
0 0 2.19e+00
0 0 2.31e+00
0 0 2.39e+00
0 0 2.45e+00
0 0 2.48e+00
0 0 2.51e+00
0 0 2.52e+00
0 0 2.53e+00
0 0 2.54e+00
0 0 0
1 2 8.840e-02
1 3 4.590e-03
1 4 2.140e+00
1 5 5.190e+00
2 3 1.420e-04
2 4 1.250e+00
2 5 1.860e+00
3 4 1.410e-01
3 5 1.210e+00
4 5 2.960e-04
1 4 0.0
2 4 24012.5
3 6 24249.6
4 2 39758.1
5 4 40080.2
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/neii.dat��������������������������������������������������������������������0000664�0000000�0000000�00000004067�12714613141�0016646�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 24
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Kelly, R. L., 1987, J.Phys.Chem.Ref.Data 16, Suppl. 1.
%theoretical energy levels: Bhatia, private communications
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P.Dere 1994
%filename: ne_2.wgfa
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Standard Reference Database 61, NIST Database for Atomic Spectroscopy, Version 1.0
%transition probabilities (1-2): Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Standard Reference Database 61, NIST Database for Atomic Spectroscopy, Version 1.0
%transition probabilities: Blackford, H.M.S., Hibbert, A., 1994, ADNDT, 58, 101.
%comment: A(1-3) of Blackford and Hibbert seems to be incorrect
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P.Dere 1995
%file: ne_2.splups
%oscillator strengths: Blackford, H.M.S., Hibbert, A., 1994, ADNDT, 58, 101
%effective collision strengths: Saraph, H.E., Tully, J.A., 1994, A&AS, 107, 29
%comment effective collision strengths were provided in the temperature range 3.0 < Log T < 5.0
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere - 1995
2 23
1 2s2.2p5 2P3/2
2 2s2.2p5 2P1/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.72e-01
0 0 2.73e-01
0 0 2.73e-01
0 0 2.75e-01
0 0 2.78e-01
0 0 2.84e-01
0 0 2.92e-01
0 0 3.01e-01
0 0 3.20e-01
0 0 3.48e-01
0 0 3.76e-01
0 0 3.98e-01
0 0 4.15e-01
0 0 4.26e-01
0 0 4.33e-01
0 0 4.38e-01
0 0 4.41e-01
0 0 4.43e-01
0 0 0
1 2 8.590e-03
1 4 0.0
2 2 780.3
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/neiii.dat�������������������������������������������������������������������0000664�0000000�0000000�00000035647�12714613141�0017027�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 28
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Fuhr, J.R., et al., 1999, "NIST Atomic Spectra Database" ver. 2.0
March 1999. NIST Physical Reference Data
%theoretical energy levels: Bhatia & Landi, 2005, ADNDT, 89, 139
comment: the NIST energy of level 2s2.2p3(2D).3p 3P2 has been associated to level 2s2.2p3(2D)3p 1D2
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi - Sept 2003
%filename: ne_3.wgfa
%observed energy levels: Fuhr, J.R., et al., 1999, "NIST Atomic Spectra Database" ver. 2.0
March 1999. NIST Physical Reference Data
%theoretical energy levels: Bhatia & Landi, 2005, ADNDT, 89, 139
%A-values (transitions 2-5, 4-5): Daw A., Parkinson W.H., Smith P.L., Calamai A.G., 2000, ApJ, 533, 179
%A values and oscillator strengths: Bhatia & Landi, 2005, ADNDT, 89, 139
%comment: The A-values from Daw et al. are experimentally determined and have
accuracies of +/- 9% (2-5) and +/- 7% (4-5)
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi - Feb 2004
%filename: ne_3.splups
%oscillator strengths: Landi & Bhatia 2005, ADNDT, 89, 139
%effective collision strengths within the ground configuration: McLaughlin B.M., Bell K.L., 2000, J.Phys.B, 33, 597
%Collision strengths: Landi & Bhatia 2005, ADNDT, 89, 139
%comment: effective collision strengths are provided in the temperature range 3.0 < Log T < 6.0
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi - Nov 2003
9 23
1 2s2.2p4 3P2
2 2s2.2p4 3P1
3 2s2.2p4 3P0
4 2s2.2p4 1D2
5 2s2.2p4 1S0
6 2s.2p5 3P2
7 2s.2p5 3P1
8 2s.2p5 3P0
9 2s2.2p3(4S).3s 5S2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
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0 0 1.00e+00
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8 9 3.796e-03
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3 1 920.5
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5 1 55750.6
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8 1 205204.0
9 5 309924.0
�����������������������������������������������������������������������������������������NEAT-master/Atomic-data/neiv.dat��������������������������������������������������������������������0000664�0000000�0000000�00000075540�12714613141�0016667�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 30
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Kramida, A. E., Bastin, T., Biemont, E., Dumont, P.-D. & Garnir, H.-P.
Eur. Phys. J. D, 7, 525, 1999
%theoretical energy levels: C.A. Ramsbottom (private communication)
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young, 20-Nov-2009
%filename: ne_4.wgfa
%observed energy levels: Kramida, A. E., Bastin, T., Biemont, E., Dumont, P.-D. & Garnir, H.-P.
1999, Eur. Phys. J. D, 7, 525
%A-values (levels 1 to 5): Merkelis, G., Martinson, I., Kisielius, R. & Vilkas, M.J. 1999, Phys. Scripta, 59, 122
%A-values: from a SSTRUCT model
%comment: the following configurations were input to SSTRUCT:
2s2.2p3, 2s.2p4, 2p5,
2s2.2p2.3s, 2s2.2p2.3p, 2s2.2p2.3d
2s.2p3.3s, 2s.2p3.3p, 2s.2p3.3d
2s2.2p2.4s, 2s2.2p2.4p, 2s2.2p2.4d, 2s2.2p2.4f
2s.2p3.4s, 2s.2p3.4p, 2s.2p3.4d, 2s.2p3.4f
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 20-Nov-2009
%filename: ne_4.splups
%theoretical energy levels: C.A. Ramsbottom (private communication)
%oscillator strengths: SUPERSTRUCTURE calculation (see ne_4.wgfa)
%Effective collision strength: Ramsbottom, Bell, Keenan, 1998, MNRAS, 293, 233
%comment: effective collision strength were provided in the temperature range 3.6 < Log T < 6.1
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi and P.R.Young 20-Nov-2009
13 23
1 2s2.2p3 4S3/2
2 2s2.2p3 2D3/2
3 2s2.2p3 2D5/2
4 2s2.2p3 2P1/2
5 2s2.2p3 2P3/2
6 2s.2p4 4P1/2
7 2s.2p4 4P3/2
8 2s.2p4 4P5/2
9 2s.2p4 2D3/2
10 2s.2p4 2D5/2
11 2s.2p4 2S1/2
12 2s.2p4 2P1/2
13 2s.2p4 2P3/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
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0 0 4.51e-02
0 0 3.76e-02
0 0 3.17e-02
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8 13 1.88e-01
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0 0 1.88e-01
0 0 1.88e-01
0 0 1.88e-01
0 0 1.88e-01
0 0 1.88e-01
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0 0 1.89e-01
0 0 1.89e-01
0 0 1.89e-01
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0 0 1.87e-01
0 0 1.79e-01
0 0 1.64e-01
0 0 1.45e-01
0 0 1.25e-01
0 0 1.05e-01
0 0 8.58e-02
0 0 7.03e-02
0 0 5.89e-02
0 0 0
1 2 4.972e-03
1 3 5.430e-04
1 4 4.900e-01
1 5 1.220e+00
1 6 2.135e+09
1 7 2.122e+09
1 8 2.100e+09
1 9 0.000e+00
1 10 0.000e+00
1 11 5.287e+05
1 12 2.252e+05
1 13 7.546e+05
2 3 0.000e+00
2 4 3.640e-01
2 5 4.112e-01
2 6 5.029e+03
2 7 9.269e+03
2 8 7.133e+03
2 9 4.434e+09
2 10 2.767e+08
2 11 4.328e+07
2 12 1.901e+10
2 13 2.156e+09
3 4 1.040e-01
3 5 3.720e-01
3 6 0.000e+00
3 7 2.929e+03
3 8 4.774e+04
3 9 4.606e+08
3 10 4.508e+09
3 11 0.000e+00
3 12 0.000e+00
3 13 1.757e+10
4 5 0.000e+00
4 6 1.601e+04
4 7 0.000e+00
4 8 0.000e+00
4 9 5.146e+08
4 10 0.000e+00
4 11 3.727e+09
4 12 2.844e+09
4 13 7.539e+08
5 6 2.759e+03
5 7 5.128e+04
5 8 3.784e+04
5 9 6.404e+07
5 10 6.541e+08
5 11 7.093e+09
5 12 2.100e+09
5 13 3.487e+09
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
6 11 0.000e+00
6 12 0.000e+00
6 13 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
7 11 0.000e+00
7 12 0.000e+00
7 13 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
8 11 0.000e+00
8 12 0.000e+00
8 13 0.000e+00
9 10 0.000e+00
9 11 0.000e+00
9 12 0.000e+00
9 13 0.000e+00
10 11 0.000e+00
10 12 0.000e+00
10 13 0.000e+00
11 12 0.000e+00
11 13 0.000e+00
12 13 0.000e+00
1 4 0.0
2 4 41281.5
3 6 41236.9
4 2 62437.0
5 4 62443.3
6 2 184800.0
7 4 184476.0
8 6 183862.0
9 4 254104.0
10 6 254082.0
11 2 299630.0
12 2 320742.0
13 4 320026.0
����������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/nev.dat���������������������������������������������������������������������0000664�0000000�0000000�00000100662�12714613141�0016510�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 29
** Atomic data from version 7 of the CHIANTI database **
%experimental energy levels (n=2): Edlen B, 1985, Physica scripta, 31, 345
%experimental energy levels (n=3): Fuhr, J.R., Kelleher, D.E., Martin, W.C., Musgrove, A., Sugar, J., Wiese, W.L.,
Dalton, G.R., Dragoset, R.A., Mohr, P.J., Olsen, K., Reader, J., Saloman, E.B., Sansonetti, C.J.,
Wiersma, G., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data.
%theoretical energy levels: Griffin, D.C., Badnell, N.R., 2000, J.Phys.B, 33, 4389
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi Jun 2001
%filename: ne_5.wgfa
%Experimental energy levels (n=2): Edlen B, 1985, Physica scripta, 31, 345
%experimental energy levels (n=3): Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0,
March 1999, NIST Physical Reference Data.
%Theoretical energy levels: Badnell, N.R., Griffin, D.C., 2000, J.Phys.B, 33, 4389
%A-values: Badnell, N.R., Griffin, D.C., 2000, J.Phys.B, 33, 4389
%A-values (ground configuration): Galavis, M.E., Mendoza, C., Zeippen, C.J., 1997, A&AS, 123, 159
%A-values (2-4 and 3-4 transitions): Storey P.J., Zeippen C.J., MNRAS, 312, 813, 2000
%comment: the 1-2 and 1-4 A-values have been corrected to the Galavis et al. values (5-Jun-2006)
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi and Peter Young - Jun 5, 2006
%filename: ne_5.splups
%Oscillator strengths: Badnell, N.R., Griffin, D.C., 2000, J.Phys.B, 33, 4389
%Effective collision strengths: Badnell, N.R., Griffin, D.C., 2000, J.Phys.B, 33, 4389
%comment: effective collision strengths were provided in the temperature range 3.0 < Log T < 6.0
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi Jun 2001
15 23
1 2s2.2p2 3P0
2 2s2.2p2 3P1
3 2s2.2p2 3P2
4 2s2.2p2 1D2
5 2s2.2p2 1S0
6 2s.2p3 5S2
7 2s.2p3 3D3
8 2s.2p3 3D2
9 2s.2p3 3D1
10 2s.2p3 3P2
11 2s.2p3 3P1
12 2s.2p3 3P0
13 2s.2p3 1D2
14 2s.2p3 3S1
15 2s.2p3 1P1
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
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6 7 6.96e-01
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6 8 4.91e-01
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0 0 3.85e-01
0 0 3.76e-01
0 0 3.48e-01
0 0 3.05e-01
0 0 2.67e-01
0 0 2.39e-01
0 0 2.21e-01
6 9 3.00e-01
0 0 3.00e-01
0 0 3.00e-01
0 0 3.00e-01
0 0 3.00e-01
0 0 3.01e-01
0 0 3.01e-01
0 0 3.02e-01
0 0 3.02e-01
0 0 3.01e-01
0 0 2.94e-01
0 0 2.83e-01
0 0 2.82e-01
0 0 2.73e-01
0 0 2.67e-01
0 0 2.55e-01
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0 0 2.26e-01
0 0 2.09e-01
0 0 1.83e-01
0 0 1.60e-01
0 0 1.44e-01
0 0 1.33e-01
6 10 2.24e-01
0 0 2.25e-01
0 0 2.26e-01
0 0 2.28e-01
0 0 2.31e-01
0 0 2.36e-01
0 0 2.43e-01
0 0 2.54e-01
0 0 2.71e-01
0 0 2.91e-01
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0 0 2.62e-01
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0 0 2.40e-01
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0 0 1.99e-01
0 0 1.68e-01
0 0 1.44e-01
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6 11 1.34e-01
0 0 1.35e-01
0 0 1.36e-01
0 0 1.37e-01
0 0 1.39e-01
0 0 1.42e-01
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0 0 1.74e-01
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0 0 1.78e-01
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0 0 1.19e-01
0 0 1.01e-01
0 0 8.75e-02
0 0 7.81e-02
6 12 4.74e-02
0 0 4.75e-02
0 0 4.77e-02
0 0 4.81e-02
0 0 4.85e-02
0 0 4.93e-02
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0 0 5.49e-02
0 0 5.84e-02
0 0 6.18e-02
0 0 6.26e-02
0 0 6.06e-02
0 0 5.85e-02
0 0 5.50e-02
0 0 5.23e-02
0 0 4.97e-02
0 0 4.80e-02
0 0 4.52e-02
0 0 3.95e-02
0 0 3.35e-02
0 0 2.89e-02
0 0 2.56e-02
6 13 2.47e-06
0 0 2.63e-06
0 0 2.88e-06
0 0 3.29e-06
0 0 3.97e-06
0 0 5.17e-06
0 0 7.58e-06
0 0 1.32e-05
0 0 2.82e-05
0 0 6.37e-05
0 0 9.45e-05
0 0 8.69e-05
0 0 2.70e-04
0 0 7.64e-04
0 0 1.24e-03
0 0 1.77e-03
0 0 2.15e-03
0 0 2.01e-03
0 0 1.65e-03
0 0 1.32e-03
0 0 1.08e-03
0 0 9.20e-04
0 0 8.14e-04
6 14 7.30e-01
0 0 7.24e-01
0 0 7.15e-01
0 0 7.01e-01
0 0 6.78e-01
0 0 6.43e-01
0 0 5.90e-01
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0 0 4.04e-01
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6 15 3.94e-05
0 0 4.05e-05
0 0 4.23e-05
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0 0 4.97e-05
0 0 5.68e-05
0 0 6.83e-05
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0 0 1.54e-03
0 0 1.23e-03
0 0 9.65e-04
0 0 7.68e-04
0 0 6.35e-04
0 0 5.47e-04
0 0 0
1 2 1.266e-03
1 3 0.000e+00
1 4 1.936e-05
1 5 0.000e+00
1 6 0.000e+00
1 7 0.000e+00
1 8 0.000e+00
1 9 7.110e+08
1 10 0.000e+00
1 11 1.150e+09
1 12 0.000e+00
1 13 0.000e+00
1 14 2.480e+09
1 15 7.270e+04
2 3 4.585e-03
2 4 1.222e-01
2 5 3.993e+00
2 6 2.230e+03
2 7 0.000e+00
2 8 9.520e+08
2 9 4.970e+08
2 10 8.310e+08
2 11 9.240e+08
2 12 3.520e+09
2 13 1.140e+05
2 14 7.440e+09
2 15 4.540e+06
3 4 3.504e-01
3 5 6.289e-03
3 6 6.380e+03
3 7 1.210e+09
3 8 2.760e+08
3 9 2.880e+07
3 10 2.660e+09
3 11 1.430e+09
3 12 0.000e+00
3 13 2.170e+06
3 14 1.250e+10
3 15 6.620e+05
4 5 2.834e+00
4 6 3.100e-01
4 7 1.830e+05
4 8 4.200e+04
4 9 2.910e+04
4 10 4.780e+04
4 11 2.500e+05
4 12 0.000e+00
4 13 1.000e+10
4 14 1.020e+06
4 15 1.470e+10
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 1.970e+04
5 10 0.000e+00
5 11 1.090e+05
5 12 0.000e+00
5 13 0.000e+00
5 14 3.100e+05
5 15 3.070e+09
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
6 11 0.000e+00
6 12 0.000e+00
6 13 0.000e+00
6 14 0.000e+00
6 15 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
7 11 0.000e+00
7 12 0.000e+00
7 13 0.000e+00
7 14 0.000e+00
7 15 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
8 11 0.000e+00
8 12 0.000e+00
8 13 0.000e+00
8 14 0.000e+00
8 15 0.000e+00
9 10 0.000e+00
9 11 0.000e+00
9 12 0.000e+00
9 13 0.000e+00
9 14 0.000e+00
9 15 0.000e+00
10 11 0.000e+00
10 12 0.000e+00
10 13 0.000e+00
10 14 0.000e+00
10 15 0.000e+00
11 12 0.000e+00
11 13 0.000e+00
11 14 0.000e+00
11 15 0.000e+00
12 13 0.000e+00
12 14 0.000e+00
12 15 0.000e+00
13 14 0.000e+00
13 15 0.000e+00
14 15 0.000e+00
1 1 0.0
2 3 413.0
3 5 1111.0
4 5 30291.0
5 1 63915.0
6 5 88402.0
7 7 175834.0
8 5 175902.0
9 3 175926.0
10 5 208152.0
11 3 208157.0
12 1 208188.0
13 5 270555.0
14 3 279372.0
15 3 303812.0
������������������������������������������������������������������������������NEAT-master/Atomic-data/ni.dat����������������������������������������������������������������������0000664�0000000�0000000�00000060413�12714613141�0016325�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 29
** Atomic data from version 7 of the CHIANTI database **
%energy levels: Fuhr, J.R., Kelleher, D.E., Martin, W.C., Musgrove, A., Sugar, J., Wiese, W.L.,
Dalton, G.R., Dragoset, R.A., Mohr, P.J., Olsen, K., Reader, J., Saloman, E.B., Sansonetti, C.J.,
Wiersma, G., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data.
%Theoretical energy levels: Hibbert, A., Biemont, E., Godefroid, M., Vaeck, N., 1991, A&ASS, 88, 505
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E.Landi - Jul 2001
%filename: n_1.wgfa
%observed energy levels: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999,
NIST Physical Reference Data.
%Theoretical energy levels: Hibbert, A., Biemont, E., Godefroid, M., Vaeck, N., 1991, A&ASS, 88, 505
%Radiative data for transitions within the ground configurations: Fuhr, J.R., et al.,
"NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data.
%Radiative data all other transitions: Hibbert, A., Biemont, E., Godefroid, M., Vaeck, N., 1991, A&AS, 88, 505
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi Jul 2001
%filename: n_1.splups
%oscillator strengths: Hibbert, A., Biemont, E., Godefroid, M., Vaeck, N., 1991, A&AS, 88, 505
%effective collision strengths: Tayal, S.S., 2000, ADNDT, 76, 191
%Comment: the effective collision strengths of transitions 1-23 and 1-24 were found be to incorrect
% (Tayal S.S., 2001, private communications) and more accurate values have been kindly provided
% by the author, and they replace the published values.
%Comment: the effective collision strengths were fitted in the temperature range 3.5 < Log T < 5.75
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi - Sep 2011
13 23
1 2s2.2p3 4S3/2
2 2s2.2p3 2D3/2
3 2s2.2p3 2D5/2
4 2s2.2p3 2P1/2
5 2s2.2p3 2P3/2
6 2s2.2p2.3s 4P1/2
7 2s2.2p2.3s 4P3/2
8 2s2.2p2.3s 4P5/2
9 2s2.2p2.3s 2P1/2
10 2s2.2p2.3s 2P3/2
11 2s.2p4 4P1/2
12 2s.2p4 4P3/2
13 2s.2p4 4P5/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 7.35e-04
0 0 7.07e-04
0 0 6.62e-04
0 0 5.94e-04
0 0 4.90e-04
0 0 3.44e-04
0 0 1.79e-04
0 0 1.53e-04
0 0 9.17e-04
0 0 4.71e-03
0 0 1.87e-02
0 0 6.48e-02
0 0 1.69e-01
0 0 3.04e-01
0 0 4.49e-01
0 0 5.50e-01
0 0 6.30e-01
0 0 6.70e-01
0 0 6.31e-01
0 0 5.65e-01
0 0 5.09e-01
0 0 4.68e-01
0 0 4.41e-01
1 3 3.40e-03
0 0 3.32e-03
0 0 3.19e-03
0 0 2.98e-03
0 0 2.66e-03
0 0 2.18e-03
0 0 1.51e-03
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0 0 6.67e-01
1 4 9.98e-04
0 0 1.06e-03
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1 6 3.41e-03
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0 0 3.87e-02
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1 11 4.50e-03
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3 9 0.000e+00
3 10 1.221e+08
3 11 0.000e+00
3 12 0.000e+00
3 13 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 0.000e+00
4 8 0.000e+00
4 9 9.690e+07
4 10 2.458e+07
4 11 0.000e+00
4 12 0.000e+00
4 13 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 4.676e+07
5 10 1.221e+08
5 11 0.000e+00
5 12 0.000e+00
5 13 0.000e+00
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
6 11 0.000e+00
6 12 0.000e+00
6 13 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
7 11 0.000e+00
7 12 0.000e+00
7 13 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
8 11 0.000e+00
8 12 0.000e+00
8 13 0.000e+00
9 10 0.000e+00
9 11 0.000e+00
9 12 0.000e+00
9 13 0.000e+00
10 11 0.000e+00
10 12 0.000e+00
10 13 0.000e+00
11 12 0.000e+00
11 13 0.000e+00
12 13 0.000e+00
1 4 0.0
2 4 19233.2
3 6 19224.5
4 2 28838.9
5 4 28839.3
6 2 83284.1
7 4 83317.8
8 6 83364.6
9 2 86137.4
10 4 86220.5
11 2 88170.6
12 4 88151.2
13 6 88107.3
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/nii.dat���������������������������������������������������������������������0000664�0000000�0000000�00000131621�12714613141�0016476�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 24
** Atomic data from version 7 of the CHIANTI database **
%energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%theoretical energy levels: Stafford et al., MNRAS, 1994, 268, 816
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E.Landi 1995
%filename: n_2.wgfa
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%A-values: Bell, Hibbert, Stafford, Ph.Scr., 1995, 52, 240
%A-values (2-4 and 3-4 transitions): Storey PJ, Zeippen CJ, MNRAS 312, 813, 2000
%oscillator strengths: P.R.Young (DAMTP, Un. of Cambridge, UK), unpublished SUPERSTRUCTURE calculations, 1996
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi, 2000
%filename: n_2.splups
%oscillator strengths: P.R.Young (DAMTP, Un. of Cambridge, UK), unpublished SUPERSTRUCTURE calculations, 1996
%effective collision strengths: Stafford et al., 1994, MNRAS, 268, 816
%comment: effective collision strengths were provided in the temperature range 3.7 < Log T < 5.1
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E.Landi 1995
15 23
1 2s2.2p2 3P0
2 2s2.2p2 3P1
3 2s2.2p2 3P2
4 2s2.2p2 1D2
5 2s2.2p2 1S0
6 2s.2p3 5S2
7 2s.2p3 3D1
8 2s.2p3 3D2
9 2s.2p3 3D3
10 2s.2p3 3P0
11 2s.2p3 3P1
12 2s.2p3 3P2
13 2s.2p3 1D2
14 2s2.2p.3s 3P0
15 2s2.2p.3s 3P1
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
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0 0 2.63e-02
0 0 2.55e-02
13 15 5.13e-01
0 0 5.12e-01
0 0 5.12e-01
0 0 5.11e-01
0 0 5.09e-01
0 0 5.06e-01
0 0 5.02e-01
0 0 4.96e-01
0 0 4.85e-01
0 0 4.67e-01
0 0 4.34e-01
0 0 3.82e-01
0 0 3.18e-01
0 0 2.56e-01
0 0 2.03e-01
0 0 1.62e-01
0 0 1.32e-01
0 0 1.12e-01
0 0 9.80e-02
0 0 8.88e-02
0 0 8.28e-02
0 0 7.90e-02
0 0 7.65e-02
14 15 3.04e+00
0 0 3.05e+00
0 0 3.05e+00
0 0 3.06e+00
0 0 3.08e+00
0 0 3.11e+00
0 0 3.15e+00
0 0 3.21e+00
0 0 3.29e+00
0 0 3.37e+00
0 0 3.40e+00
0 0 3.32e+00
0 0 3.12e+00
0 0 2.86e+00
0 0 2.58e+00
0 0 2.35e+00
0 0 2.16e+00
0 0 2.02e+00
0 0 1.93e+00
0 0 1.87e+00
0 0 1.83e+00
0 0 1.80e+00
0 0 1.78e+00
0 0 0
1 2 2.080e-06
1 3 0.000e+00
1 4 1.928e-06
1 5 0.000e+00
1 6 0.000e+00
1 7 2.151e+08
1 8 0.000e+00
1 9 0.000e+00
1 10 0.000e+00
1 11 4.324e+08
1 12 0.000e+00
1 13 0.000e+00
1 14 0.000e+00
1 15 3.423e+08
2 3 7.460e-06
2 4 9.819e-04
2 5 4.588e-02
2 6 7.171e+01
2 7 1.587e+08
2 8 2.898e+08
2 9 0.000e+00
2 10 1.302e+09
2 11 3.285e+08
2 12 3.215e+08
2 13 0.000e+00
2 14 1.081e+09
2 15 2.551e+08
3 4 3.015e-03
3 5 1.435e-04
3 6 1.771e+02
3 7 1.025e+07
3 8 9.356e+07
3 9 3.821e+08
3 10 0.000e+00
3 11 5.395e+08
3 12 9.766e+08
3 13 4.824e+04
3 14 0.000e+00
3 15 4.359e+08
4 5 9.234e-01
4 6 0.000e+00
4 7 0.000e+00
4 8 0.000e+00
4 9 5.315e+03
4 10 0.000e+00
4 11 0.000e+00
4 12 0.000e+00
4 13 3.102e+09
4 14 0.000e+00
4 15 1.922e+08
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 0.000e+00
5 10 0.000e+00
5 11 0.000e+00
5 12 0.000e+00
5 13 0.000e+00
5 14 0.000e+00
5 15 1.392e+06
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
6 11 0.000e+00
6 12 0.000e+00
6 13 0.000e+00
6 14 0.000e+00
6 15 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
7 11 0.000e+00
7 12 0.000e+00
7 13 0.000e+00
7 14 0.000e+00
7 15 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
8 11 0.000e+00
8 12 0.000e+00
8 13 0.000e+00
8 14 0.000e+00
8 15 0.000e+00
9 10 0.000e+00
9 11 0.000e+00
9 12 0.000e+00
9 13 0.000e+00
9 14 0.000e+00
9 15 0.000e+00
10 11 0.000e+00
10 12 0.000e+00
10 13 0.000e+00
10 14 0.000e+00
10 15 0.000e+00
11 12 0.000e+00
11 13 0.000e+00
11 14 0.000e+00
11 15 0.000e+00
12 13 0.000e+00
12 14 0.000e+00
12 15 0.000e+00
13 14 0.000e+00
13 15 0.000e+00
14 15 0.000e+00
1 1 0.0
2 3 48.7
3 5 130.8
4 5 15316.2
5 1 32688.8
6 5 46784.6
7 3 92251.8
8 5 92250.3
9 7 92237.2
10 1 109223.5
11 3 109216.6
12 5 109217.6
13 5 144187.9
14 1 148908.6
15 3 148940.2
���������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/niii.dat��������������������������������������������������������������������0000664�0000000�0000000�00000043367�12714613141�0016660�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 47
** Atomic data from version 7 of the CHIANTI database **
%energy levels (n=2): Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%energy levels (n=3): Kelly,R.L., 1987, J.Phys.Chem.Ref.Data 16, Suppl. 1
%Theoretical energy levels: Zhang,H.L., Graziani,M., Pradhan,A.K., 1994, A&A, 283, 319
%theoretical energy levels (N III): Stafford,R.P., Bell,K.L., Hibbert,A., 1992, J. Phys. B, 25, 5449
%comment: energy levels renumbered
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E.Landi and P.R.Young - 8-Dec-2003
%filename: n_3.wgfa
%energy levels (n=2): Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%energy levels (n=3): Kelly,R.L., 1987, J.Phys.Chem.Ref.Data 16, Suppl. 1
%A-values (ground transition): Nussbaumer H., Storey, 1979, A&A, 71, L5
%Allowed transitions for decays from 2s.2p2, 2s2.3s and 2s2.3d to the ground 2s2.2p configuration:
Correge, G., Hibbert, A., 2002, J.Phys.B, 35, 1211
%Allowed transitions for all other transitions: Tachiev, G., & Froese Fischer, C., 2000, J.Phys.B, 33, 2419
%comment: The table below compares A-values from the previous CHIANTI model (A_1),
with the new model (A_2), where differences are greater than 30%. Significant
differences are seen for the intercombination lines, and for some of the n=3
levels.
Also, two new (weak) transitions are present in the new model (8-12, 5-13).
i j wvl A_1 A_2 %diff
1 3 1748.652 2.52e+002 3.49e+002 38.61
1 4 1746.820 4.47e+000 8.90e+000 99.02
2 3 1753.989 2.54e+002 3.63e+002 42.76
2 4 1752.145 4.36e+001 6.17e+001 41.49
2 5 1749.662 1.76e+002 2.72e+002 54.32
9 18 1001.752 7.21e+005 2.82e+005 -60.87
9 17 1002.112 2.64e+006 9.52e+005 -63.94
10 17 1003.218 1.40e+006 5.22e+005 -62.71
10 18 1002.857 3.41e+006 1.25e+006 -63.37
14 19 2714.711 1.41e+006 6.26e+005 -55.61
15 19 2715.227 2.82e+005 1.25e+005 -55.82
15 20 2714.814 1.70e+006 7.52e+005 -55.75
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R.Young - 12-Dec-03
%filename: n_3.splups
%oscillator strengths: Stafford, R.P., Hibbert, A., Bell, K.L., 1993, MNRAS, 260, L11
%effective collision strengths: Stafford, R.P., Bell, K.L., Hibbert, A., 1994, MNRAS, 266, 715
%comment: effective collision strengths were provided in the temperature range 4.0 < Log T < 5.2
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere 1994
10 23
1 2s2.2p 2P1/2
2 2s2.2p 2P3/2
3 2s.2p2 4P1/2
4 2s.2p2 4P3/2
5 2s.2p2 4P5/2
6 2s.2p2 2D3/2
7 2s.2p2 2D5/2
8 2s.2p2 2S1/2
9 2s.2p2 2P1/2
10 2s.2p2 2P3/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 1.46e+00
0 0 1.46e+00
0 0 1.46e+00
0 0 1.46e+00
0 0 1.46e+00
0 0 1.47e+00
0 0 1.47e+00
0 0 1.47e+00
0 0 1.48e+00
0 0 1.49e+00
0 0 1.50e+00
0 0 1.52e+00
0 0 1.54e+00
0 0 1.55e+00
0 0 1.57e+00
0 0 1.62e+00
0 0 1.70e+00
0 0 1.78e+00
0 0 1.86e+00
0 0 1.92e+00
0 0 1.96e+00
0 0 1.99e+00
0 0 2.01e+00
1 3 1.83e-01
0 0 1.83e-01
0 0 1.83e-01
0 0 1.83e-01
0 0 1.83e-01
0 0 1.83e-01
0 0 1.83e-01
0 0 1.83e-01
0 0 1.83e-01
0 0 1.83e-01
0 0 1.82e-01
0 0 1.81e-01
0 0 1.80e-01
0 0 1.78e-01
0 0 1.73e-01
0 0 1.63e-01
0 0 1.49e-01
0 0 1.34e-01
0 0 1.22e-01
0 0 1.13e-01
0 0 1.07e-01
0 0 1.03e-01
0 0 1.01e-01
1 4 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.73e-01
0 0 2.70e-01
0 0 2.64e-01
0 0 2.49e-01
0 0 2.26e-01
0 0 2.01e-01
0 0 1.82e-01
0 0 1.68e-01
0 0 1.59e-01
0 0 1.52e-01
0 0 1.48e-01
1 5 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.74e-01
0 0 2.73e-01
0 0 2.70e-01
0 0 2.64e-01
0 0 2.49e-01
0 0 2.26e-01
0 0 2.01e-01
0 0 1.82e-01
0 0 1.68e-01
0 0 1.59e-01
0 0 1.52e-01
0 0 1.48e-01
1 6 1.66e+00
0 0 1.66e+00
0 0 1.66e+00
0 0 1.66e+00
0 0 1.66e+00
0 0 1.66e+00
0 0 1.67e+00
0 0 1.67e+00
0 0 1.68e+00
0 0 1.69e+00
0 0 1.70e+00
0 0 1.72e+00
0 0 1.76e+00
0 0 1.81e+00
0 0 1.89e+00
0 0 1.97e+00
0 0 2.08e+00
0 0 2.23e+00
0 0 2.42e+00
0 0 2.67e+00
0 0 2.98e+00
0 0 3.33e+00
0 0 3.73e+00
1 7 5.25e-01
0 0 5.25e-01
0 0 5.25e-01
0 0 5.24e-01
0 0 5.24e-01
0 0 5.23e-01
0 0 5.21e-01
0 0 5.19e-01
0 0 5.15e-01
0 0 5.10e-01
0 0 5.02e-01
0 0 4.91e-01
0 0 4.77e-01
0 0 4.58e-01
0 0 4.31e-01
0 0 3.94e-01
0 0 3.51e-01
0 0 3.12e-01
0 0 2.81e-01
0 0 2.58e-01
0 0 2.42e-01
0 0 2.31e-01
0 0 2.24e-01
1 8 6.87e-01
0 0 6.87e-01
0 0 6.87e-01
0 0 6.87e-01
0 0 6.86e-01
0 0 6.86e-01
0 0 6.86e-01
0 0 6.85e-01
0 0 6.85e-01
0 0 6.84e-01
0 0 6.84e-01
0 0 6.84e-01
0 0 6.88e-01
0 0 6.97e-01
0 0 7.11e-01
0 0 7.29e-01
0 0 7.60e-01
0 0 8.16e-01
0 0 9.05e-01
0 0 1.03e+00
0 0 1.18e+00
0 0 1.36e+00
0 0 1.57e+00
1 9 1.75e+00
0 0 1.75e+00
0 0 1.75e+00
0 0 1.75e+00
0 0 1.75e+00
0 0 1.75e+00
0 0 1.75e+00
0 0 1.75e+00
0 0 1.75e+00
0 0 1.76e+00
0 0 1.76e+00
0 0 1.77e+00
0 0 1.79e+00
0 0 1.83e+00
0 0 1.89e+00
0 0 1.98e+00
0 0 2.10e+00
0 0 2.27e+00
0 0 2.52e+00
0 0 2.86e+00
0 0 3.28e+00
0 0 3.77e+00
0 0 4.34e+00
1 10 9.79e-01
0 0 9.79e-01
0 0 9.79e-01
0 0 9.80e-01
0 0 9.80e-01
0 0 9.80e-01
0 0 9.81e-01
0 0 9.82e-01
0 0 9.83e-01
0 0 9.86e-01
0 0 9.90e-01
0 0 9.96e-01
0 0 1.01e+00
0 0 1.03e+00
0 0 1.05e+00
0 0 1.08e+00
0 0 1.13e+00
0 0 1.21e+00
0 0 1.32e+00
0 0 1.48e+00
0 0 1.69e+00
0 0 1.94e+00
0 0 2.22e+00
2 3 1.04e-01
0 0 1.04e-01
0 0 1.05e-01
0 0 1.05e-01
0 0 1.06e-01
0 0 1.07e-01
0 0 1.08e-01
0 0 1.10e-01
0 0 1.13e-01
0 0 1.18e-01
0 0 1.24e-01
0 0 1.32e-01
0 0 1.39e-01
0 0 1.43e-01
0 0 1.41e-01
0 0 1.32e-01
0 0 1.20e-01
0 0 1.07e-01
0 0 9.68e-02
0 0 8.94e-02
0 0 8.44e-02
0 0 8.10e-02
0 0 7.89e-02
2 4 2.96e-01
0 0 2.96e-01
0 0 2.97e-01
0 0 2.98e-01
0 0 2.99e-01
0 0 3.01e-01
0 0 3.04e-01
0 0 3.08e-01
0 0 3.15e-01
0 0 3.24e-01
0 0 3.37e-01
0 0 3.52e-01
0 0 3.66e-01
0 0 3.72e-01
0 0 3.64e-01
0 0 3.42e-01
0 0 3.11e-01
0 0 2.81e-01
0 0 2.57e-01
0 0 2.40e-01
0 0 2.28e-01
0 0 2.20e-01
0 0 2.15e-01
2 5 6.63e-01
0 0 6.63e-01
0 0 6.64e-01
0 0 6.65e-01
0 0 6.67e-01
0 0 6.70e-01
0 0 6.75e-01
0 0 6.82e-01
0 0 6.92e-01
0 0 7.07e-01
0 0 7.26e-01
0 0 7.48e-01
0 0 7.67e-01
0 0 7.72e-01
0 0 7.51e-01
0 0 7.06e-01
0 0 6.47e-01
0 0 5.90e-01
0 0 5.45e-01
0 0 5.13e-01
0 0 4.90e-01
0 0 4.76e-01
0 0 4.66e-01
2 6 8.85e-01
0 0 8.86e-01
0 0 8.86e-01
0 0 8.86e-01
0 0 8.87e-01
0 0 8.89e-01
0 0 8.91e-01
0 0 8.94e-01
0 0 8.99e-01
0 0 9.05e-01
0 0 9.12e-01
0 0 9.17e-01
0 0 9.18e-01
0 0 9.13e-01
0 0 8.98e-01
0 0 8.70e-01
0 0 8.35e-01
0 0 8.11e-01
0 0 8.11e-01
0 0 8.35e-01
0 0 8.81e-01
0 0 9.43e-01
0 0 1.02e+00
2 7 3.19e+00
0 0 3.19e+00
0 0 3.20e+00
0 0 3.20e+00
0 0 3.21e+00
0 0 3.22e+00
0 0 3.23e+00
0 0 3.25e+00
0 0 3.29e+00
0 0 3.33e+00
0 0 3.39e+00
0 0 3.45e+00
0 0 3.52e+00
0 0 3.63e+00
0 0 3.76e+00
0 0 3.87e+00
0 0 3.98e+00
0 0 4.14e+00
0 0 4.42e+00
0 0 4.84e+00
0 0 5.37e+00
0 0 6.00e+00
0 0 6.71e+00
2 8 1.50e+00
0 0 1.50e+00
0 0 1.50e+00
0 0 1.50e+00
0 0 1.49e+00
0 0 1.49e+00
0 0 1.48e+00
0 0 1.47e+00
0 0 1.46e+00
0 0 1.44e+00
0 0 1.41e+00
0 0 1.39e+00
0 0 1.39e+00
0 0 1.40e+00
0 0 1.42e+00
0 0 1.46e+00
0 0 1.53e+00
0 0 1.65e+00
0 0 1.83e+00
0 0 2.06e+00
0 0 2.36e+00
0 0 2.71e+00
0 0 3.11e+00
2 9 9.86e-01
0 0 9.86e-01
0 0 9.86e-01
0 0 9.86e-01
0 0 9.86e-01
0 0 9.86e-01
0 0 9.86e-01
0 0 9.86e-01
0 0 9.87e-01
0 0 9.88e-01
0 0 9.90e-01
0 0 9.96e-01
0 0 1.01e+00
0 0 1.03e+00
0 0 1.05e+00
0 0 1.09e+00
0 0 1.14e+00
0 0 1.22e+00
0 0 1.34e+00
0 0 1.50e+00
0 0 1.71e+00
0 0 1.97e+00
0 0 2.25e+00
2 10 4.55e+00
0 0 4.55e+00
0 0 4.55e+00
0 0 4.55e+00
0 0 4.55e+00
0 0 4.54e+00
0 0 4.54e+00
0 0 4.54e+00
0 0 4.53e+00
0 0 4.53e+00
0 0 4.53e+00
0 0 4.54e+00
0 0 4.59e+00
0 0 4.69e+00
0 0 4.83e+00
0 0 5.03e+00
0 0 5.33e+00
0 0 5.77e+00
0 0 6.39e+00
0 0 7.23e+00
0 0 8.28e+00
0 0 9.54e+00
0 0 1.10e+01
3 4 8.07e-01
0 0 8.07e-01
0 0 8.08e-01
0 0 8.10e-01
0 0 8.13e-01
0 0 8.17e-01
0 0 8.23e-01
0 0 8.33e-01
0 0 8.47e-01
0 0 8.68e-01
0 0 8.97e-01
0 0 9.35e-01
0 0 9.76e-01
0 0 1.01e+00
0 0 1.03e+00
0 0 1.03e+00
0 0 1.01e+00
0 0 9.78e-01
0 0 9.53e-01
0 0 9.35e-01
0 0 9.22e-01
0 0 9.13e-01
0 0 9.08e-01
3 5 5.27e-01
0 0 5.28e-01
0 0 5.29e-01
0 0 5.31e-01
0 0 5.33e-01
0 0 5.37e-01
0 0 5.43e-01
0 0 5.52e-01
0 0 5.65e-01
0 0 5.85e-01
0 0 6.12e-01
0 0 6.47e-01
0 0 6.87e-01
0 0 7.25e-01
0 0 7.51e-01
0 0 7.61e-01
0 0 7.56e-01
0 0 7.45e-01
0 0 7.33e-01
0 0 7.24e-01
0 0 7.18e-01
0 0 7.14e-01
0 0 7.11e-01
3 6 4.54e-01
0 0 4.54e-01
0 0 4.54e-01
0 0 4.54e-01
0 0 4.54e-01
0 0 4.54e-01
0 0 4.55e-01
0 0 4.55e-01
0 0 4.56e-01
0 0 4.56e-01
0 0 4.57e-01
0 0 4.58e-01
0 0 4.57e-01
0 0 4.51e-01
0 0 4.40e-01
0 0 4.22e-01
0 0 4.01e-01
0 0 3.82e-01
0 0 3.66e-01
0 0 3.55e-01
0 0 3.48e-01
0 0 3.43e-01
0 0 3.39e-01
3 8 8.86e-02
0 0 8.86e-02
0 0 8.86e-02
0 0 8.86e-02
0 0 8.85e-02
0 0 8.85e-02
0 0 8.83e-02
0 0 8.82e-02
0 0 8.79e-02
0 0 8.76e-02
0 0 8.72e-02
0 0 8.68e-02
0 0 8.64e-02
0 0 8.57e-02
0 0 8.38e-02
0 0 8.05e-02
0 0 7.64e-02
0 0 7.24e-02
0 0 6.92e-02
0 0 6.68e-02
0 0 6.53e-02
0 0 6.42e-02
0 0 6.35e-02
3 9 1.22e-01
0 0 1.23e-01
0 0 1.23e-01
0 0 1.23e-01
0 0 1.23e-01
0 0 1.24e-01
0 0 1.25e-01
0 0 1.27e-01
0 0 1.30e-01
0 0 1.33e-01
0 0 1.37e-01
0 0 1.41e-01
0 0 1.40e-01
0 0 1.31e-01
0 0 1.17e-01
0 0 1.00e-01
0 0 8.29e-02
0 0 6.83e-02
0 0 5.71e-02
0 0 4.91e-02
0 0 4.36e-02
0 0 4.00e-02
0 0 3.76e-02
3 10 2.19e-01
0 0 2.18e-01
0 0 2.18e-01
0 0 2.18e-01
0 0 2.17e-01
0 0 2.15e-01
0 0 2.13e-01
0 0 2.10e-01
0 0 2.05e-01
0 0 1.97e-01
0 0 1.87e-01
0 0 1.74e-01
0 0 1.59e-01
0 0 1.42e-01
0 0 1.26e-01
0 0 1.10e-01
0 0 9.47e-02
0 0 8.22e-02
0 0 7.27e-02
0 0 6.59e-02
0 0 6.12e-02
0 0 5.81e-02
0 0 5.61e-02
4 5 1.53e+00
0 0 1.53e+00
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0 0 1.54e+00
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0 0 1.84e+00
0 0 1.93e+00
0 0 2.02e+00
0 0 2.08e+00
0 0 2.09e+00
0 0 2.04e+00
0 0 1.96e+00
0 0 1.88e+00
0 0 1.82e+00
0 0 1.78e+00
0 0 1.75e+00
0 0 1.73e+00
4 6 7.14e-01
0 0 7.14e-01
0 0 7.14e-01
0 0 7.14e-01
0 0 7.14e-01
0 0 7.15e-01
0 0 7.15e-01
0 0 7.16e-01
0 0 7.17e-01
0 0 7.18e-01
0 0 7.19e-01
0 0 7.20e-01
0 0 7.18e-01
0 0 7.11e-01
0 0 6.94e-01
0 0 6.66e-01
0 0 6.33e-01
0 0 6.03e-01
0 0 5.79e-01
0 0 5.63e-01
0 0 5.51e-01
0 0 5.44e-01
0 0 5.39e-01
4 7 7.48e-01
0 0 7.48e-01
0 0 7.48e-01
0 0 7.48e-01
0 0 7.48e-01
0 0 7.49e-01
0 0 7.49e-01
0 0 7.50e-01
0 0 7.50e-01
0 0 7.51e-01
0 0 7.53e-01
0 0 7.54e-01
0 0 7.53e-01
0 0 7.47e-01
0 0 7.31e-01
0 0 7.03e-01
0 0 6.69e-01
0 0 6.37e-01
0 0 6.11e-01
0 0 5.93e-01
0 0 5.81e-01
0 0 5.73e-01
0 0 5.68e-01
4 8 1.77e-01
0 0 1.77e-01
0 0 1.77e-01
0 0 1.77e-01
0 0 1.77e-01
0 0 1.77e-01
0 0 1.77e-01
0 0 1.76e-01
0 0 1.76e-01
0 0 1.75e-01
0 0 1.74e-01
0 0 1.74e-01
0 0 1.73e-01
0 0 1.71e-01
0 0 1.68e-01
0 0 1.61e-01
0 0 1.53e-01
0 0 1.45e-01
0 0 1.39e-01
0 0 1.34e-01
0 0 1.31e-01
0 0 1.29e-01
0 0 1.27e-01
4 9 2.35e-01
0 0 2.35e-01
0 0 2.35e-01
0 0 2.36e-01
0 0 2.36e-01
0 0 2.36e-01
0 0 2.37e-01
0 0 2.38e-01
0 0 2.39e-01
0 0 2.40e-01
0 0 2.40e-01
0 0 2.38e-01
0 0 2.31e-01
0 0 2.15e-01
0 0 1.91e-01
0 0 1.64e-01
0 0 1.38e-01
0 0 1.16e-01
0 0 9.93e-02
0 0 8.78e-02
0 0 8.01e-02
0 0 7.51e-02
0 0 7.18e-02
4 10 4.52e-01
0 0 4.52e-01
0 0 4.52e-01
0 0 4.51e-01
0 0 4.50e-01
0 0 4.48e-01
0 0 4.45e-01
0 0 4.41e-01
0 0 4.34e-01
0 0 4.24e-01
0 0 4.10e-01
0 0 3.91e-01
0 0 3.65e-01
0 0 3.33e-01
0 0 2.95e-01
0 0 2.56e-01
0 0 2.18e-01
0 0 1.87e-01
0 0 1.64e-01
0 0 1.48e-01
0 0 1.37e-01
0 0 1.30e-01
0 0 1.26e-01
5 6 5.87e-01
0 0 5.87e-01
0 0 5.87e-01
0 0 5.87e-01
0 0 5.87e-01
0 0 5.87e-01
0 0 5.87e-01
0 0 5.88e-01
0 0 5.88e-01
0 0 5.89e-01
0 0 5.90e-01
0 0 5.91e-01
0 0 5.91e-01
0 0 5.88e-01
0 0 5.76e-01
0 0 5.56e-01
0 0 5.28e-01
0 0 5.03e-01
0 0 4.83e-01
0 0 4.68e-01
0 0 4.58e-01
0 0 4.52e-01
0 0 4.48e-01
5 7 1.61e+00
0 0 1.61e+00
0 0 1.61e+00
0 0 1.61e+00
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0 0 1.61e+00
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0 0 1.62e+00
0 0 1.62e+00
0 0 1.60e+00
0 0 1.56e+00
0 0 1.50e+00
0 0 1.43e+00
0 0 1.36e+00
0 0 1.30e+00
0 0 1.27e+00
0 0 1.24e+00
0 0 1.22e+00
0 0 1.21e+00
5 8 2.66e-01
0 0 2.66e-01
0 0 2.66e-01
0 0 2.66e-01
0 0 2.66e-01
0 0 2.65e-01
0 0 2.65e-01
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0 0 2.64e-01
0 0 2.63e-01
0 0 2.61e-01
0 0 2.60e-01
0 0 2.59e-01
0 0 2.57e-01
0 0 2.51e-01
0 0 2.42e-01
0 0 2.29e-01
0 0 2.17e-01
0 0 2.08e-01
0 0 2.01e-01
0 0 1.96e-01
0 0 1.93e-01
0 0 1.91e-01
5 9 3.29e-01
0 0 3.28e-01
0 0 3.28e-01
0 0 3.27e-01
0 0 3.25e-01
0 0 3.22e-01
0 0 3.18e-01
0 0 3.12e-01
0 0 3.03e-01
0 0 2.90e-01
0 0 2.72e-01
0 0 2.50e-01
0 0 2.26e-01
0 0 2.02e-01
0 0 1.78e-01
0 0 1.55e-01
0 0 1.35e-01
0 0 1.18e-01
0 0 1.06e-01
0 0 9.78e-02
0 0 9.21e-02
0 0 8.83e-02
0 0 8.59e-02
5 10 7.02e-01
0 0 7.02e-01
0 0 7.02e-01
0 0 7.02e-01
0 0 7.02e-01
0 0 7.03e-01
0 0 7.04e-01
0 0 7.04e-01
0 0 7.06e-01
0 0 7.06e-01
0 0 7.04e-01
0 0 6.94e-01
0 0 6.68e-01
0 0 6.20e-01
0 0 5.52e-01
0 0 4.74e-01
0 0 3.98e-01
0 0 3.36e-01
0 0 2.89e-01
0 0 2.57e-01
0 0 2.35e-01
0 0 2.20e-01
0 0 2.11e-01
0 0 0
1 2 4.770e-05
1 3 3.493e+02
1 4 8.896e+00
1 5 0.000e+00
1 6 4.169e+08
1 7 0.000e+00
1 8 9.501e+08
1 9 3.743e+09
1 10 9.414e+08
2 3 3.626e+02
2 4 6.169e+01
2 5 2.716e+02
2 6 8.151e+07
2 7 4.955e+08
2 8 1.833e+09
2 9 1.905e+09
2 10 4.710e+09
3 4 0.000e+00
3 5 0.000e+00
3 6 0.000e+00
3 7 0.000e+00
3 8 0.000e+00
3 9 0.000e+00
3 10 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 0.000e+00
4 8 0.000e+00
4 9 0.000e+00
4 10 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 0.000e+00
5 10 0.000e+00
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
9 10 0.000e+00
1 2 0.0
2 4 174.4
3 2 57187.1
4 4 57246.8
5 6 57327.9
6 4 101030.6
7 6 101023.9
8 2 131004.3
9 2 145875.7
10 4 145985.8
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/niv.dat���������������������������������������������������������������������0000664�0000000�0000000�00000053235�12714613141�0016517�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 35
** Atomic data from version 7 of the CHIANTI database **
%energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%Theoretical energy levels: Ramsbottom, C.A., Berrington, K.A., Hibbert, A., Bell, K.L.,
Pyhs.Scripta, 1994, 50, 246
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi 1996
%filename: n_4.elvlc
%energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%A-values: Tachiev, G. & Froese Fischer, C., 1999, J.Phys.B, 32, 5805
%A-values (transition 1-9): Kingston, A.E., Hibbert, A., 2001, J.Phys.B, 34, 81
%A-values (transitions 5-13, 8-13, 4-14, 3-15, 4-15, 2-16, 3-16, 4-16): P.R. Young, 9-Jun-2006, calculation with SSTRUCT.
%comment: The Tachiev & Froese Fischer calculation did not cover all transtions
for N IV, and so they have been supplemented with data from Kingston & Hibbert
and P.R. Young.
The SSTRUCT calculation used a 17 configuration model of the ion, and
term energy corrections were applied. Observed energies were used in the
calculation of the A-values.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - 12-Jun-2006
%filename: n_4.splups
%oscillator strengths: SUPERSTRUCTURE calculations by P.R.Young
%effective collision strengths: Ramsbottom, C.A., Berrington, K.A., Hibbert, A., Bell, K.L., Pyhs.Scripta, 1994, 50, 246
%comment: The transitions between levels 1-4 and levels 2-10 have been re-fit
using 9 point splines to better reproduce the low temperature behaviour.
These fits are accurate to < 1.22 % over the range 3.1 < log T < 5.6
All remaining fits are valid over the range 4.0 < Log T < 6.0.
% Comment: updated with 9 point spline fits (PRY 12-Jun 2006)
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young and Enrico Landi - 12-Jun-2006
10 23
1 2s2 1S0
2 2s.2p 3P0
3 2s.2p 3P1
4 2s.2p 3P2
5 2s.2p 1P1
6 2p2 3P0
7 2p2 3P1
8 2p2 3P2
9 2p2 1D2
10 2p2 1S0
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
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0 0 4.11e-01
0 0 4.04e-01
0 0 3.92e-01
0 0 3.74e-01
0 0 3.47e-01
0 0 3.08e-01
0 0 2.56e-01
0 0 2.01e-01
0 0 1.59e-01
0 0 1.29e-01
0 0 1.08e-01
0 0 9.25e-02
0 0 7.96e-02
0 0 6.89e-02
0 0 6.21e-02
0 0 5.59e-02
0 0 4.99e-02
0 0 4.52e-02
0 0 4.20e-02
0 0 3.98e-02
0 0 3.84e-02
0 0 3.75e-02
1 3 1.24e+00
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1 4 2.07e+00
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0 0 1.07e-03
0 0 1.00e-03
0 0 9.60e-04
1 7 6.43e-03
0 0 6.40e-03
0 0 6.35e-03
0 0 6.28e-03
0 0 6.17e-03
0 0 5.99e-03
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1 9 2.18e-01
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2 3 2.21e+00
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0 0 1.33e-01
0 0 1.14e-01
0 0 9.18e-02
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0 0 4.87e-02
2 6 2.97e-02
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2 8 5.71e-02
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6 8 3.31e-01
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7 10 9.90e-02
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0 0 5.05e-01
0 0 5.09e-01
0 0 5.11e-01
0 0 0
1 2 0.000e+00
1 3 5.795e+02
1 4 1.158e-02
1 5 2.322e+09
1 6 0.000e+00
1 7 0.000e+00
1 8 0.000e+00
1 9 2.600e+03
1 10 0.000e+00
2 3 0.000e+00
2 4 0.000e+00
2 5 0.000e+00
2 6 0.000e+00
2 7 5.906e+08
2 8 0.000e+00
2 9 0.000e+00
2 10 0.000e+00
3 4 4.075e-05
3 5 0.000e+00
3 6 1.765e+09
3 7 4.422e+08
3 8 4.438e+08
3 9 1.422e+04
3 10 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 7.340e+08
4 8 1.326e+09
4 9 1.176e+05
4 10 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 2.343e+08
5 10 2.942e+09
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
9 10 0.000e+00
1 1 0.0
2 1 67209.2
3 3 67272.3
4 5 67416.3
5 3 130693.9
6 1 175535.4
7 3 175608.1
8 5 175732.9
9 5 188882.5
10 1 235369.3
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/nv.dat����������������������������������������������������������������������0000664�0000000�0000000�00000023767�12714613141�0016355�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 27
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Kelly, R. L., 1987, J. Phys. Chem. Ref. Data 16, Suppl. 1.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P.Dere 1995
%filename: n_5.wgfa
%observed energy levels: Kelly, R.L., 1987, J.Phys.Chem.Ref.Data 16, Suppl. 1.
%oscillator strengths: W.L. Wiese, M.W. Smith, B. M. Glennon, 'Atomic Transition Probabilities',
Vol I, Hydrogen Through Neon, NSRDS-NBS 4, 1966.
% oscillator strengths: Martin, I., Karwowski, J., Diercksen, G.H.F., Barrientos, C., 1993, A&AS, 100, 595.
%oscillator strengths: Wiese, W.L., Smith, M.W., Glennon, B.M., 1966, Atomic Transition Probabilities, NSRDS-NBS-4.
%note: Wiese's oscillator strengths are hydrogenic
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere Sep 1999
%filename: n_5.splups
%oscillator strengths: W.L. Wiese, M.W. Smith, B. M. Glennon, 'Atomic Transition Probabilities',
Vol I, Hydrogen Through Neon, NSRDS-NBS 4, 1966
%oscillator strengths: Martin, I., Karwowski, J., Diercksen, G.H.F., Barrientos, C., 1993, A&AS, 100, 595
%oscillator strengths: Wiese, W.L., Smith, M.W., Glennon, B.M., 1966, Atomic Transition Probabilities, NSRDS-NBS-4
%collision strengths: Gau, J. N., and Henry, J. W., 1977, Phys. Rev. A, 16, 986
%comment: modified to give correct high energy asymptotic value
%comment: collisions strengths to levels 9-15 (4l) obtained by interpolation
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere - 1995
15 23
1 1s2.2s 2S1/2
2 1s2.2p 2P1/2
3 1s2.2p 2P3/2
4 1s2.3s 2S1/2
5 1s2.3p 2P1/2
6 1s2.3p 2P3/2
7 1s2.3d 2D3/2
8 1s2.3d 2D5/2
9 1s2.4s 2S1/2
10 1s2.4p 2P1/2
11 1s2.4p 2P3/2
12 1s2.4d 2D3/2
13 1s2.4d 2D5/2
14 1s2.4f 2F5/2
15 1s2.4f 2F7/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 2.25e+00
0 0 2.25e+00
0 0 2.25e+00
0 0 2.25e+00
0 0 2.25e+00
0 0 2.25e+00
0 0 2.25e+00
0 0 2.25e+00
0 0 2.26e+00
0 0 2.26e+00
0 0 2.27e+00
0 0 2.29e+00
0 0 2.31e+00
0 0 2.35e+00
0 0 2.40e+00
0 0 2.48e+00
0 0 2.59e+00
0 0 2.73e+00
0 0 2.91e+00
0 0 3.13e+00
0 0 3.38e+00
0 0 3.66e+00
0 0 3.98e+00
1 3 4.50e+00
0 0 4.50e+00
0 0 4.50e+00
0 0 4.50e+00
0 0 4.50e+00
0 0 4.50e+00
0 0 4.51e+00
0 0 4.51e+00
0 0 4.52e+00
0 0 4.53e+00
0 0 4.55e+00
0 0 4.58e+00
0 0 4.62e+00
0 0 4.69e+00
0 0 4.80e+00
0 0 4.96e+00
0 0 5.17e+00
0 0 5.46e+00
0 0 5.82e+00
0 0 6.25e+00
0 0 6.75e+00
0 0 7.32e+00
0 0 7.95e+00
1 4 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.84e-01
0 0 2.85e-01
0 0 2.86e-01
0 0 2.87e-01
0 0 2.89e-01
0 0 2.91e-01
0 0 2.95e-01
0 0 3.00e-01
0 0 3.07e-01
0 0 3.14e-01
0 0 3.20e-01
0 0 3.26e-01
0 0 3.33e-01
1 5 5.59e-02
0 0 5.59e-02
0 0 5.59e-02
0 0 5.59e-02
0 0 5.59e-02
0 0 5.60e-02
0 0 5.60e-02
0 0 5.61e-02
0 0 5.62e-02
0 0 5.64e-02
0 0 5.68e-02
0 0 5.73e-02
0 0 5.81e-02
0 0 5.94e-02
0 0 6.15e-02
0 0 6.46e-02
0 0 6.95e-02
0 0 7.67e-02
0 0 8.75e-02
0 0 1.03e-01
0 0 1.24e-01
0 0 1.51e-01
0 0 1.84e-01
1 6 1.12e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.13e-01
0 0 1.13e-01
0 0 1.14e-01
0 0 1.15e-01
0 0 1.16e-01
0 0 1.19e-01
0 0 1.23e-01
0 0 1.29e-01
0 0 1.39e-01
0 0 1.53e-01
0 0 1.75e-01
0 0 2.06e-01
0 0 2.48e-01
0 0 3.02e-01
0 0 3.67e-01
1 7 1.73e-01
0 0 1.73e-01
0 0 1.73e-01
0 0 1.73e-01
0 0 1.73e-01
0 0 1.73e-01
0 0 1.73e-01
0 0 1.73e-01
0 0 1.73e-01
0 0 1.74e-01
0 0 1.74e-01
0 0 1.74e-01
0 0 1.75e-01
0 0 1.76e-01
0 0 1.78e-01
0 0 1.80e-01
0 0 1.84e-01
0 0 1.90e-01
0 0 1.99e-01
0 0 2.10e-01
0 0 2.25e-01
0 0 2.42e-01
0 0 2.59e-01
1 8 2.60e-01
0 0 2.60e-01
0 0 2.60e-01
0 0 2.60e-01
0 0 2.60e-01
0 0 2.60e-01
0 0 2.60e-01
0 0 2.60e-01
0 0 2.60e-01
0 0 2.60e-01
0 0 2.61e-01
0 0 2.61e-01
0 0 2.62e-01
0 0 2.64e-01
0 0 2.67e-01
0 0 2.71e-01
0 0 2.77e-01
0 0 2.85e-01
0 0 2.98e-01
0 0 3.16e-01
0 0 3.38e-01
0 0 3.63e-01
0 0 3.88e-01
1 9 6.87e-02
0 0 6.87e-02
0 0 6.87e-02
0 0 6.87e-02
0 0 6.86e-02
0 0 6.86e-02
0 0 6.85e-02
0 0 6.84e-02
0 0 6.82e-02
0 0 6.79e-02
0 0 6.74e-02
0 0 6.66e-02
0 0 6.55e-02
0 0 6.40e-02
0 0 6.19e-02
0 0 5.97e-02
0 0 5.81e-02
0 0 5.77e-02
0 0 5.78e-02
0 0 5.77e-02
0 0 5.79e-02
0 0 5.85e-02
0 0 5.92e-02
1 10 1.99e-02
0 0 1.99e-02
0 0 1.99e-02
0 0 1.99e-02
0 0 1.99e-02
0 0 1.99e-02
0 0 1.99e-02
0 0 1.99e-02
0 0 1.98e-02
0 0 1.98e-02
0 0 1.97e-02
0 0 1.96e-02
0 0 1.95e-02
0 0 1.93e-02
0 0 1.90e-02
0 0 1.87e-02
0 0 1.84e-02
0 0 1.85e-02
0 0 1.93e-02
0 0 2.14e-02
0 0 2.46e-02
0 0 2.93e-02
0 0 3.56e-02
1 11 4.11e-02
0 0 4.11e-02
0 0 4.11e-02
0 0 4.11e-02
0 0 4.11e-02
0 0 4.10e-02
0 0 4.10e-02
0 0 4.10e-02
0 0 4.09e-02
0 0 4.08e-02
0 0 4.06e-02
0 0 4.04e-02
0 0 4.00e-02
0 0 3.94e-02
0 0 3.86e-02
0 0 3.76e-02
0 0 3.66e-02
0 0 3.65e-02
0 0 3.83e-02
0 0 4.26e-02
0 0 4.94e-02
0 0 5.86e-02
0 0 7.11e-02
1 12 3.79e-02
0 0 3.79e-02
0 0 3.79e-02
0 0 3.79e-02
0 0 3.79e-02
0 0 3.79e-02
0 0 3.79e-02
0 0 3.79e-02
0 0 3.79e-02
0 0 3.79e-02
0 0 3.80e-02
0 0 3.81e-02
0 0 3.82e-02
0 0 3.84e-02
0 0 3.87e-02
0 0 3.91e-02
0 0 3.96e-02
0 0 4.04e-02
0 0 4.11e-02
0 0 4.16e-02
0 0 4.24e-02
0 0 4.40e-02
0 0 4.59e-02
1 13 5.68e-02
0 0 5.68e-02
0 0 5.68e-02
0 0 5.68e-02
0 0 5.68e-02
0 0 5.68e-02
0 0 5.68e-02
0 0 5.68e-02
0 0 5.68e-02
0 0 5.69e-02
0 0 5.70e-02
0 0 5.71e-02
0 0 5.73e-02
0 0 5.76e-02
0 0 5.80e-02
0 0 5.86e-02
0 0 5.94e-02
0 0 6.05e-02
0 0 6.16e-02
0 0 6.24e-02
0 0 6.36e-02
0 0 6.60e-02
0 0 6.89e-02
1 14 1.97e-02
0 0 1.97e-02
0 0 1.97e-02
0 0 1.97e-02
0 0 1.97e-02
0 0 1.97e-02
0 0 1.97e-02
0 0 1.97e-02
0 0 1.97e-02
0 0 1.96e-02
0 0 1.95e-02
0 0 1.94e-02
0 0 1.92e-02
0 0 1.90e-02
0 0 1.86e-02
0 0 1.80e-02
0 0 1.74e-02
0 0 1.67e-02
0 0 1.61e-02
0 0 1.57e-02
0 0 1.54e-02
0 0 1.53e-02
0 0 1.54e-02
1 15 2.64e-02
0 0 2.64e-02
0 0 2.64e-02
0 0 2.64e-02
0 0 2.64e-02
0 0 2.64e-02
0 0 2.64e-02
0 0 2.64e-02
0 0 2.63e-02
0 0 2.63e-02
0 0 2.61e-02
0 0 2.60e-02
0 0 2.57e-02
0 0 2.53e-02
0 0 2.48e-02
0 0 2.40e-02
0 0 2.31e-02
0 0 2.22e-02
0 0 2.15e-02
0 0 2.09e-02
0 0 2.04e-02
0 0 2.02e-02
0 0 2.03e-02
0 0 0
1 2 3.360e+08
1 3 3.380e+08
1 4 0.000e+00
1 5 1.190e+10
1 6 1.190e+10
1 7 0.000e+00
1 8 0.000e+00
1 9 0.000e+00
1 10 5.630e+09
1 11 5.630e+09
1 12 0.000e+00
1 13 0.000e+00
1 14 0.000e+00
1 15 0.000e+00
2 3 0.000e+00
2 4 3.020e+09
2 5 0.000e+00
2 6 0.000e+00
2 7 3.570e+10
2 8 0.000e+00
2 9 5.000e+08
2 10 0.000e+00
2 11 0.000e+00
2 12 1.160e+10
2 13 0.000e+00
2 14 0.000e+00
2 15 0.000e+00
3 4 6.060e+09
3 5 0.000e+00
3 6 0.000e+00
3 7 7.160e+09
3 8 4.290e+10
3 9 1.000e+09
3 10 0.000e+00
3 11 0.000e+00
3 12 2.330e+09
3 13 1.400e+10
3 14 0.000e+00
3 15 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 0.000e+00
4 8 0.000e+00
4 9 0.000e+00
4 10 0.000e+00
4 11 0.000e+00
4 12 0.000e+00
4 13 0.000e+00
4 14 0.000e+00
4 15 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 0.000e+00
5 10 0.000e+00
5 11 0.000e+00
5 12 0.000e+00
5 13 0.000e+00
5 14 0.000e+00
5 15 0.000e+00
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
6 11 0.000e+00
6 12 0.000e+00
6 13 0.000e+00
6 14 0.000e+00
6 15 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
7 11 0.000e+00
7 12 0.000e+00
7 13 0.000e+00
7 14 2.020e+09
7 15 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
8 11 0.000e+00
8 12 0.000e+00
8 13 0.000e+00
8 14 0.000e+00
8 15 1.440e+09
9 10 0.000e+00
9 11 0.000e+00
9 12 0.000e+00
9 13 0.000e+00
9 14 0.000e+00
9 15 0.000e+00
10 11 0.000e+00
10 12 0.000e+00
10 13 0.000e+00
10 14 0.000e+00
10 15 0.000e+00
11 12 0.000e+00
11 13 0.000e+00
11 14 0.000e+00
11 15 0.000e+00
12 13 0.000e+00
12 14 0.000e+00
12 15 0.000e+00
13 14 0.000e+00
13 15 0.000e+00
14 15 0.000e+00
1 2 0.0
2 2 80463.2
3 4 80721.9
4 2 456126.6
5 2 477765.7
6 4 477842.0
7 4 484404.3
8 6 484426.3
9 2 606348.8
10 2 615141.0
11 4 615173.8
12 4 617916.3
13 6 617925.5
14 6 618059.3
15 8 618064.1
���������NEAT-master/Atomic-data/oi.dat����������������������������������������������������������������������0000664�0000000�0000000�00000004171�12714613141�0016325�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
Upsilons from Berrington & Burke (1981) & Berrington (J.Phys.B.,21,1083,1988)
Aij's from Baluja & Zeippen (J.Phys.B.,21,1455,1988) MJB 6-6-1991
5 5 0
2p4 3P2
3P1
3P0
1D2
1S0
500
1000
5000
10000
20000
0
1 2 5.69E-3 500
0 0 9.72E-3 1000
0 0 4.52E-2 5000
0 0 0.106 10000
0 0 2.066-1 20000
1 3 2.51E-3 500
0 0 4.11E-3 1000
0 0 1.53E-2 5000
0 0 3.21E-2 10000
0 0 5.36E-2 20000
1 4 0.3222E-02 500.0
0 0 0.8389E-02 1000.0
0 0 0.6889E-01 5000.0
0 0 0.1478E+00 10000.0
0 0 0.2783E+00 20000.0
1 5 0.3611E-03 500.0
0 0 0.1022E-02 1000.0
0 0 0.8500E-02 5000.0
0 0 0.1800E-01 10000.0
0 0 0.3372E-01 20000.0
2 3 2.86E-4 500
0 0 6.36E-4 1000
0 0 9.12E-3 5000
0 0 2.83E-2 10000
0 0 6.93E-2 20000
2 4 0.1933E-02 500.0
0 0 0.5033E-02 1000.0
0 0 0.4133E-01 5000.0
0 0 0.8867E-01 10000.0
0 0 0.1670E+00 20000.0
2 5 0.2167E-03 500.0
0 0 0.6133E-03 1000.0
0 0 0.5100E-02 5000.0
0 0 0.1080E-01 10000.0
0 0 0.2023E-01 20000.0
3 4 0.6444E-03 500.0
0 0 0.1678E-02 1000.0
0 0 0.1378E-01 5000.0
0 0 0.2956E-01 10000.0
0 0 0.5567E-01 20000.0
3 5 0.7222E-04 500.0
0 0 0.2044E-03 1000.0
0 0 0.1700E-02 5000.0
0 0 0.3600E-02 10000.0
0 0 0.6744E-02 20000.0
4 5 2.1E-2 500
0 0 3.1E-2 1000
0 0 7.32E-2 5000
0 0 1.05E-1 10000
0 0 1.48E-1 20000
0 0 0
1 2 8.957E-5
1 3 1.203E-10
1 4 5.627E-3
1 5 2.732E-4
2 3 1.735E-5
2 4 1.818E-3
2 5 7.601E-2
3 4 8.922E-7
3 5 0.
4 5 1.215
1 5 0.
2 3 158.3
3 1 227
4 5 15867.9
5 1 33792.6
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/oii.dat���������������������������������������������������������������������0000664�0000000�0000000�00000012077�12714613141�0016502�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
Upsilons from Kisielius (MNRAS,2008,397,903)
Aij's from Zeippen (MNRAS,1982,198,111).
5 19 0
2p3 4S(3/2)
2p3 2D(5/2)
2p3 2D(3/2)
2p3 2P(3/2)
2p3 2P(1/2)
100
150
200
300
500
750
1000
1500
2000
3000
5000
7500
10000
15000
20000
30000
50000
75000
100000
0
1 2 0.796 100.
0 0 0.797 150.
0 0 0.798 200.
0 0 0.801 300.
0 0 0.808 500.
0 0 0.817 750.
0 0 0.823 1000.
0 0 0.830 1500.
0 0 0.832 2000.
0 0 0.832 3000.
0 0 0.831 5000.
0 0 0.833 7500.
0 0 0.834 10000.
0 0 0.839 15000.
0 0 0.844 20000.
0 0 0.856 30000.
0 0 0.881 50000.
0 0 0.905 75000.
0 0 0.919 100000.
1 3 0.531 100.
0 0 0.533 150.
0 0 0.533 200.
0 0 0.535 300.
0 0 0.540 500.
0 0 0.546 750.
0 0 0.550 1000.
0 0 0.554 1500.
0 0 0.555 2000.
0 0 0.554 3000.
0 0 0.553 5000.
0 0 0.553 7500.
0 0 0.554 10000.
0 0 0.557 15000.
0 0 0.561 20000.
0 0 0.569 30000.
0 0 0.585 50000.
0 0 0.601 75000.
0 0 0.611 100000.
1 4 0.244 100.
0 0 0.245 150.
0 0 0.245 200.
0 0 0.245 300.
0 0 0.245 500.
0 0 0.246 750.
0 0 0.246 1000.
0 0 0.247 1500.
0 0 0.247 2000.
0 0 0.249 3000.
0 0 0.251 5000.
0 0 0.253 7500.
0 0 0.256 10000.
0 0 0.260 15000.
0 0 0.265 20000.
0 0 0.274 30000.
0 0 0.290 50000.
0 0 0.304 75000.
0 0 0.312 100000.
1 5 0.126 100.
0 0 0.126 150.
0 0 0.126 200.
0 0 0.126 300.
0 0 0.127 500.
0 0 0.127 750.
0 0 0.127 1000.
0 0 0.127 1500.
0 0 0.128 2000.
0 0 0.128 3000.
0 0 0.129 5000.
0 0 0.131 7500.
0 0 0.132 10000.
0 0 0.134 15000.
0 0 0.136 20000.
0 0 0.141 30000.
0 0 0.149 50000.
0 0 0.155 75000.
0 0 0.159 100000.
2 3 1.095 100.
0 0 1.086 150.
0 0 1.078 200.
0 0 1.072 300.
0 0 1.097 500.
0 0 1.151 750.
0 0 1.194 1000.
0 0 1.239 1500.
0 0 1.254 2000.
0 0 1.256 3000.
0 0 1.241 5000.
0 0 1.221 7500.
0 0 1.203 10000.
0 0 1.183 15000.
0 0 1.179 20000.
0 0 1.193 30000.
0 0 1.229 50000.
0 0 1.257 75000.
0 0 1.270 100000.
2 4 0.791 100.
0 0 0.793 150.
0 0 0.793 200.
0 0 0.794 300.
0 0 0.796 500.
0 0 0.797 750.
0 0 0.799 1000.
0 0 0.801 1500.
0 0 0.804 2000.
0 0 0.809 3000.
0 0 0.820 5000.
0 0 0.834 7500.
0 0 0.851 10000.
0 0 0.891 15000.
0 0 0.930 20000.
0 0 0.997 30000.
0 0 1.084 50000.
0 0 1.144 75000.
0 0 1.178 100000.
2 5 0.315 100.
0 0 0.316 150.
0 0 0.316 200.
0 0 0.316 300.
0 0 0.317 500.
0 0 0.318 750.
0 0 0.318 1000.
0 0 0.319 1500.
0 0 0.320 2000.
0 0 0.322 3000.
0 0 0.326 5000.
0 0 0.332 7500.
0 0 0.339 10000.
0 0 0.356 15000.
0 0 0.371 20000.
0 0 0.396 30000.
0 0 0.427 50000.
0 0 0.447 75000.
0 0 0.458 100000.
3 4 0.439 100.
0 0 0.440 150.
0 0 0.440 200.
0 0 0.440 300.
0 0 0.441 500.
0 0 0.442 750.
0 0 0.443 1000.
0 0 0.444 1500.
0 0 0.445 2000.
0 0 0.448 3000.
0 0 0.454 5000.
0 0 0.462 7500.
0 0 0.472 10000.
0 0 0.494 15000.
0 0 0.516 20000.
0 0 0.551 30000.
0 0 0.595 50000.
0 0 0.624 75000.
0 0 0.639 100000.
3 5 0.308 100.
0 0 0.308 150.
0 0 0.309 200.
0 0 0.309 300.
0 0 0.310 500.
0 0 0.310 750.
0 0 0.311 1000.
0 0 0.312 1500.
0 0 0.313 2000.
0 0 0.315 3000.
0 0 0.319 5000.
0 0 0.324 7500.
0 0 0.331 10000.
0 0 0.345 15000.
0 0 0.360 20000.
0 0 0.386 30000.
0 0 0.421 50000.
0 0 0.445 75000.
0 0 0.459 100000.
4 5 0.273 100.
0 0 0.274 150.
0 0 0.274 200.
0 0 0.274 300.
0 0 0.274 500.
0 0 0.275 750.
0 0 0.275 1000.
0 0 0.276 1500.
0 0 0.276 2000.
0 0 0.277 3000.
0 0 0.279 5000.
0 0 0.282 7500.
0 0 0.285 10000.
0 0 0.294 15000.
0 0 0.305 20000.
0 0 0.327 30000.
0 0 0.361 50000.
0 0 0.388 75000.
0 0 0.405 100000.
0 0 0
1 2 3.82000E-05
1 3 1.65000E-04
1 4 5.64000E-02
1 5 2.32000E-02
2 3 1.20000E-07
2 4 1.17000E-01
2 5 6.15000E-02
3 4 6.14000E-02
3 5 1.02000E-01
4 5 2.08000E-11
1 4 0.0
2 6 26810.7
3 4 26830.2
4 4 40467.5
5 2 40468.6
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/oiii.dat��������������������������������������������������������������������0000664�0000000�0000000�00000122326�12714613141�0016652�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 31
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Ralchenko Y., Jou, F.C., Kelleher, D.E., Kramida, A.E.,
Musgrove, A., Reader, J., Wiese, W.L., Olsen, K., 2005, NIST Atomic Spectra Database, Version 3.0
%Theoretical energy levels configurations 2s2.2p2, 2s.2p3, 2p4: Aggarwal, K.M., ApJSS, 52, 387, 1983
%Theoretical energy levels other configurations: Bhatia, A.K., Kastner, S.O., 1993, ADNDT, 54,133
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi and P.R. Young - 10-Jun-2005
%filename: o_3.wgfa
%observed energy levels: Ralchenko Y., Jou, F.C., Kelleher, D.E., Kramida, A.E.,
Musgrove, A., Reader, J., Wiese, W.L., Olsen, K., 2005, NIST Atomic Spectra Database, Version 3.0
%oscillator strengths: Bhatia, A.K., Kastner, S.O., 1993, ADNDT, 54, 133
%A-values (2-4 and 3-4 transitions): Storey PJ, Zeippen CJ, MNRAS 312, 813, 2000
%A-values (other ground transitions): Tachiev, G., Froese Fischer, C., 2001, Canadian Journal of Physics, 79, 955
%comment: Updated wavelengths with new energies in .elvlc file (Jun 10, 2005)
%comment: Updated with Tachiev A-values, P.R. Young, Jul 14, 2006
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Enrico Landi and P.R. Young - Jul 14, 2006
%filename: o_3.splups
%oscillator strengths: Bhatia, A.K., Kastner, S.O., 1993, ADNDT, 54, 133
%effective collision strengths (trans. within 2s2.2p2 levels): Burke, V.M., Lennon, D.J., 1994, A&ASS, 103, 273
%effective collision strengths for most of the transitions between 2s2.2p2, 2s.2p3, 2p4 levels:
Aggarwal, K.M., ApJSS, 1983, 52, 387 and Aggarwal, K.M., A&A, 1985, 146, 149
%collision strengths all other transitions: Bhatia, A.K., Kastner, S.O., 1993, ADNDT, 54, 133
%comment: The data for the 2-3 transition were wrong, and have been corrected to the original Lennon & Burke values. Peter Young, 6-Jun-06.
%comment: effective collision strengths are accurate in the temperature range 3.7 < Log T < 5.0
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
%E.Landi and K.P.Dere 1996
15 23
1 2s2.2p2 3P0
2 2s2.2p2 3P1
3 2s2.2p2 3P2
4 2s2.2p2 1D2
5 2s2.2p2 1S0
6 2s.2p3 5S2
7 2s.2p3 3D2
8 2s.2p3 3D1
9 2s.2p3 3D3
10 2s.2p3 3P0
11 2s.2p3 3P1
12 2s.2p3 3P2
13 2s.2p3 1D2
14 2s.2p3 3S1
15 2s.2p3 1P1
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 4.85e-01
0 0 4.86e-01
0 0 4.87e-01
0 0 4.90e-01
0 0 4.93e-01
0 0 4.98e-01
0 0 5.05e-01
0 0 5.12e-01
0 0 5.20e-01
0 0 5.30e-01
0 0 5.43e-01
0 0 5.58e-01
0 0 5.71e-01
0 0 5.81e-01
0 0 5.89e-01
0 0 5.94e-01
0 0 5.98e-01
0 0 6.00e-01
0 0 6.02e-01
0 0 6.03e-01
0 0 6.04e-01
0 0 6.04e-01
0 0 6.04e-01
1 3 2.44e-01
0 0 2.45e-01
0 0 2.45e-01
0 0 2.45e-01
0 0 2.46e-01
0 0 2.47e-01
0 0 2.48e-01
0 0 2.51e-01
0 0 2.55e-01
0 0 2.61e-01
0 0 2.70e-01
0 0 2.82e-01
0 0 2.97e-01
0 0 3.11e-01
0 0 3.23e-01
0 0 3.32e-01
0 0 3.37e-01
0 0 3.41e-01
0 0 3.44e-01
0 0 3.45e-01
0 0 3.46e-01
0 0 3.47e-01
0 0 3.47e-01
1 4 2.56e-01
0 0 2.55e-01
0 0 2.54e-01
0 0 2.53e-01
0 0 2.50e-01
0 0 2.47e-01
0 0 2.43e-01
0 0 2.38e-01
0 0 2.35e-01
0 0 2.40e-01
0 0 2.53e-01
0 0 2.72e-01
0 0 2.89e-01
0 0 2.97e-01
0 0 2.98e-01
0 0 2.97e-01
0 0 2.95e-01
0 0 2.94e-01
0 0 2.93e-01
0 0 2.92e-01
0 0 2.92e-01
0 0 2.91e-01
0 0 2.91e-01
1 5 3.10e-02
0 0 3.09e-02
0 0 3.09e-02
0 0 3.08e-02
0 0 3.07e-02
0 0 3.06e-02
0 0 3.04e-02
0 0 3.01e-02
0 0 3.00e-02
0 0 3.05e-02
0 0 3.23e-02
0 0 3.52e-02
0 0 3.80e-02
0 0 3.96e-02
0 0 4.01e-02
0 0 3.98e-02
0 0 3.93e-02
0 0 3.89e-02
0 0 3.86e-02
0 0 3.84e-02
0 0 3.83e-02
0 0 3.82e-02
0 0 3.81e-02
1 6 1.04e-01
0 0 1.05e-01
0 0 1.05e-01
0 0 1.06e-01
0 0 1.07e-01
0 0 1.08e-01
0 0 1.10e-01
0 0 1.13e-01
0 0 1.18e-01
0 0 1.24e-01
0 0 1.33e-01
0 0 1.40e-01
0 0 1.42e-01
0 0 1.38e-01
0 0 1.29e-01
0 0 1.19e-01
0 0 1.10e-01
0 0 1.03e-01
0 0 9.86e-02
0 0 9.55e-02
0 0 9.36e-02
0 0 9.23e-02
0 0 9.15e-02
1 7 7.43e-02
0 0 7.46e-02
0 0 7.50e-02
0 0 7.58e-02
0 0 7.69e-02
0 0 7.86e-02
0 0 8.12e-02
0 0 8.50e-02
0 0 8.99e-02
0 0 9.53e-02
0 0 9.88e-02
0 0 9.77e-02
0 0 9.25e-02
0 0 8.57e-02
0 0 8.00e-02
0 0 7.63e-02
0 0 7.41e-02
0 0 7.29e-02
0 0 7.20e-02
0 0 7.15e-02
0 0 7.12e-02
0 0 7.10e-02
0 0 7.08e-02
1 8 6.10e-01
0 0 6.11e-01
0 0 6.12e-01
0 0 6.13e-01
0 0 6.14e-01
0 0 6.16e-01
0 0 6.20e-01
0 0 6.26e-01
0 0 6.34e-01
0 0 6.46e-01
0 0 6.60e-01
0 0 6.75e-01
0 0 6.87e-01
0 0 7.00e-01
0 0 7.19e-01
0 0 7.43e-01
0 0 7.73e-01
0 0 8.17e-01
0 0 8.84e-01
0 0 9.79e-01
0 0 1.10e+00
0 0 1.25e+00
0 0 1.41e+00
1 9 3.55e-02
0 0 3.65e-02
0 0 3.81e-02
0 0 4.05e-02
0 0 4.43e-02
0 0 5.02e-02
0 0 5.89e-02
0 0 7.13e-02
0 0 8.75e-02
0 0 1.05e-01
0 0 1.14e-01
0 0 1.10e-01
0 0 9.60e-02
0 0 7.90e-02
0 0 6.26e-02
0 0 4.86e-02
0 0 3.79e-02
0 0 3.02e-02
0 0 2.49e-02
0 0 2.13e-02
0 0 1.90e-02
0 0 1.75e-02
0 0 1.66e-02
1 10 1.23e-02
0 0 1.23e-02
0 0 1.23e-02
0 0 1.23e-02
0 0 1.24e-02
0 0 1.24e-02
0 0 1.25e-02
0 0 1.25e-02
0 0 1.27e-02
0 0 1.28e-02
0 0 1.30e-02
0 0 1.32e-02
0 0 1.32e-02
0 0 1.27e-02
0 0 1.22e-02
0 0 1.18e-02
0 0 1.11e-02
0 0 1.02e-02
0 0 9.24e-03
0 0 8.45e-03
0 0 7.87e-03
0 0 7.48e-03
0 0 7.22e-03
1 11 4.89e-01
0 0 4.89e-01
0 0 4.89e-01
0 0 4.89e-01
0 0 4.90e-01
0 0 4.90e-01
0 0 4.91e-01
0 0 4.93e-01
0 0 4.96e-01
0 0 5.00e-01
0 0 5.06e-01
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0 0 5.54e-01
0 0 5.87e-01
0 0 6.36e-01
0 0 6.97e-01
0 0 7.65e-01
0 0 8.38e-01
0 0 9.30e-01
0 0 1.05e+00
0 0 1.21e+00
0 0 1.39e+00
1 12 3.20e-02
0 0 3.20e-02
0 0 3.20e-02
0 0 3.19e-02
0 0 3.18e-02
0 0 3.17e-02
0 0 3.15e-02
0 0 3.12e-02
0 0 3.06e-02
0 0 2.99e-02
0 0 2.88e-02
0 0 2.73e-02
0 0 2.57e-02
0 0 2.44e-02
0 0 2.35e-02
0 0 2.23e-02
0 0 2.04e-02
0 0 1.81e-02
0 0 1.58e-02
0 0 1.40e-02
0 0 1.26e-02
0 0 1.16e-02
0 0 1.10e-02
1 13 8.25e-02
0 0 8.23e-02
0 0 8.21e-02
0 0 8.18e-02
0 0 8.14e-02
0 0 8.06e-02
0 0 7.95e-02
0 0 7.78e-02
0 0 7.53e-02
0 0 7.19e-02
0 0 6.75e-02
0 0 6.23e-02
0 0 5.70e-02
0 0 5.25e-02
0 0 4.88e-02
0 0 4.57e-02
0 0 4.31e-02
0 0 4.12e-02
0 0 3.99e-02
0 0 3.90e-02
0 0 3.84e-02
0 0 3.81e-02
0 0 3.78e-02
1 14 3.43e-01
0 0 3.43e-01
0 0 3.43e-01
0 0 3.44e-01
0 0 3.44e-01
0 0 3.44e-01
0 0 3.45e-01
0 0 3.47e-01
0 0 3.49e-01
0 0 3.52e-01
0 0 3.57e-01
0 0 3.65e-01
0 0 3.76e-01
0 0 3.92e-01
0 0 4.14e-01
0 0 4.49e-01
0 0 5.01e-01
0 0 5.66e-01
0 0 6.42e-01
0 0 7.30e-01
0 0 8.37e-01
0 0 9.65e-01
0 0 1.11e+00
1 15 1.88e-02
0 0 1.88e-02
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0 0 1.88e-02
0 0 1.88e-02
0 0 1.88e-02
0 0 1.87e-02
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0 0 1.86e-02
0 0 1.84e-02
0 0 1.83e-02
0 0 1.82e-02
0 0 1.80e-02
0 0 1.78e-02
0 0 1.73e-02
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0 0 1.60e-02
0 0 1.57e-02
0 0 1.55e-02
0 0 1.54e-02
0 0 1.53e-02
0 0 1.53e-02
2 3 1.16e+00
0 0 1.16e+00
0 0 1.16e+00
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2 4 7.69e-01
0 0 7.68e-01
0 0 7.64e-01
0 0 7.60e-01
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2 5 9.39e-02
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2 11 4.28e-01
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2 12 6.85e-01
0 0 6.85e-01
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0 0 9.93e-01
0 0 1.06e+00
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2 13 2.28e-01
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0 0 1.63e-01
0 0 1.41e-01
0 0 1.16e-01
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2 14 1.56e+00
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14 3 197087.7
15 3 210461.8
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/oiv.dat���������������������������������������������������������������������0000664�0000000�0000000�00000046604�12714613141�0016522�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 67
** Atomic data from version 7 of the CHIANTI database **
%energy levels (n=2): Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%energy levels (n=3): Kelly,R.L., 1987, J.Phys.Chem.Ref.Data 16, Suppl. 1.
%Theoretical energy levels: Zhang,H.L., Graziani,M., Pradhan,A.K., 1994, A&A, 283, 319.
%theoretical energy levels: Sampson and Zhang, 1995, unpublished calculations
%comment: energy levels renumbered
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E.Landi and P.R. Young - 8-Dec-2003
%filename: o_4.wgfa
%energy levels (n=2): Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%energy levels (n=3): Kelly,R.L., 1987, J.Phys.Chem.Ref.Data 16, Suppl. 1.
%Theoretical energy levels: Zhang,H.L., Graziani,M., Pradhan,A.K., 1994, A&A, 283, 319.
%theoretical energy levels: Sampson and Zhang, 1995, unpublished calculations
%A-values ground forbidden transition: Flower, D.R., Nussbaumer, H., 1975, A&A, 45, 145
%A-values allowed transitions 2s2.2p-2s.2p2, 2s2.2p-2s2.3s and 2s2.2p-2s2.3d: Correge,G., Hibbert,A., 2002, J.Phys.B, 35, 1211
%A-values allowed transitions 2s.2p2-2p3, 2s.2p2-3s2.3p, 2s2.3s-2s2.3p, 2s2.3p-3s2.3d, 2p3-3s2.3d,
2s.2p2-2s.2p.3s (4P levels in 3s, only): Tachiev, G., & Froese Fischer, C., 2000, J.Phys.B, 33, 2419
%A-values all other allowed transitions: Unpublished data of H.L. Zhang & D.H. Sampson, 1995
%comment: gf and A values for transitions 123-71 and 124-72 are estimates
%comment: The following table lists all those transitions for which the A-values
are more than 30% different from the previous CHIANTI file (pre-v5):
i j wvl A_1 A_2 %diff
1 16 279.631 1.91e+009 2.67e+009 39.44
1 31 238.360 2.17e+010 2.91e+010 33.78
2 16 279.934 3.85e+009 5.35e+009 38.81
2 31 238.580 4.35e+009 5.81e+009 33.58
2 50 238.570 2.56e+010 3.49e+010 35.97
13 50 608.290 2.61e+003 5.80e+00522146.07
12 31 608.459 5.02e+003 5.65e+00511163.96
3 74 272.177 1.01e+009 1.70e+009 67.82
8 73 442.880 1.72e+006 9.31e+007 5315.94
9 73 476.918 5.79e+006 2.92e+006 -49.56
3 88 272.077 2.52e+009 4.25e+009 68.43
8 87 442.710 1.76e+006 9.38e+007 5238.65
9 87 476.720 1.39e+006 4.68e+005 -66.35
4 74 272.274 5.06e+009 8.47e+009 67.43
6 73 379.924 7.63e+007 4.93e+008 546.18
10 73 477.466 2.83e+006 1.14e+006 -59.58
4 88 272.174 8.08e+008 1.36e+009 68.07
6 87 379.798 7.41e+006 4.92e+007 564.19
6 88 320.479 4.83e+004 7.41e+004 53.66
10 87 477.269 7.02e+006 3.21e+006 -54.23
4106 271.991 1.81e+009 3.07e+009 69.11
5 87 313.979 6.57e+002 9.92e+003 1408.60
5 88 272.310 2.74e+009 4.58e+009 67.30
7 87 379.778 6.75e+007 4.44e+008 556.84
5106 272.127 4.25e+009 7.15e+009 68.35
7106 320.211 2.71e+004 8.98e+004 230.81
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young and E. Landi - 12-Dec-2003
% filename: o_4.splups
%oscillator strengths: Dankwort, W., Trefftz, E., 1978, A&A, 65, 93
%oscillator strengths: Bhatia, A.K., Feldman, U., Seely, J.F., 1986, ADNDT, 35, 319
%oscillator strengths: Flower, D.R., Nussbaumer, H., 1975, A&A, 45, 145
%effective collision strengths (levels 1 - 15): Zhang, H.L., Graziani, M., Pradhan, A.K., 1994, A&A, 283, 319
%collision strengths (levels 16 and above): Sampson and Zhang, 1995, unpublished calculations
%comment: effective collision strengths are provided in the temperature range 3.0 < Log T < 5.65
%comment: transitions amongst levels 1-10 were re-fitted to better reproduce the low temperature behaviour (PRY 13-Jun-2006)
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere and P.R. Young - Mar 2006
10 23
1 2s2.2p 2P1/2
2 2s2.2p 2P3/2
3 2s.2p2 4P1/2
4 2s.2p2 4P3/2
5 2s.2p2 4P5/2
6 2s.2p2 2D3/2
7 2s.2p2 2D5/2
8 2s.2p2 2S1/2
9 2s.2p2 2P1/2
10 2s.2p2 2P3/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 1.66e+00
0 0 1.66e+00
0 0 1.67e+00
0 0 1.67e+00
0 0 1.69e+00
0 0 1.70e+00
0 0 1.73e+00
0 0 1.79e+00
0 0 1.91e+00
0 0 2.15e+00
0 0 2.43e+00
0 0 2.54e+00
0 0 2.60e+00
0 0 2.68e+00
0 0 2.69e+00
0 0 2.55e+00
0 0 2.25e+00
0 0 1.85e+00
0 0 1.48e+00
0 0 1.21e+00
0 0 1.02e+00
0 0 8.98e-01
0 0 8.19e-01
1 3 1.25e-01
0 0 1.25e-01
0 0 1.25e-01
0 0 1.25e-01
0 0 1.24e-01
0 0 1.23e-01
0 0 1.22e-01
0 0 1.20e-01
0 0 1.19e-01
0 0 1.23e-01
0 0 1.34e-01
0 0 1.44e-01
0 0 1.51e-01
0 0 1.54e-01
0 0 1.47e-01
0 0 1.36e-01
0 0 1.21e-01
0 0 1.03e-01
0 0 8.84e-02
0 0 7.84e-02
0 0 7.23e-02
0 0 6.85e-02
0 0 6.59e-02
1 4 1.87e-01
0 0 1.86e-01
0 0 1.86e-01
0 0 1.85e-01
0 0 1.85e-01
0 0 1.83e-01
0 0 1.81e-01
0 0 1.79e-01
0 0 1.78e-01
0 0 1.84e-01
0 0 2.01e-01
0 0 2.19e-01
0 0 2.35e-01
0 0 2.41e-01
0 0 2.31e-01
0 0 2.13e-01
0 0 1.87e-01
0 0 1.58e-01
0 0 1.35e-01
0 0 1.19e-01
0 0 1.09e-01
0 0 1.03e-01
0 0 9.87e-02
1 5 1.18e-01
0 0 1.18e-01
0 0 1.18e-01
0 0 1.17e-01
0 0 1.16e-01
0 0 1.15e-01
0 0 1.14e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.19e-01
0 0 1.37e-01
0 0 1.59e-01
0 0 1.79e-01
0 0 1.89e-01
0 0 1.82e-01
0 0 1.64e-01
0 0 1.41e-01
0 0 1.16e-01
0 0 9.49e-02
0 0 7.92e-02
0 0 6.85e-02
0 0 6.14e-02
0 0 5.68e-02
1 6 1.52e+00
0 0 1.52e+00
0 0 1.52e+00
0 0 1.53e+00
0 0 1.54e+00
0 0 1.55e+00
0 0 1.57e+00
0 0 1.60e+00
0 0 1.64e+00
0 0 1.71e+00
0 0 1.78e+00
0 0 1.81e+00
0 0 1.77e+00
0 0 1.72e+00
0 0 1.68e+00
0 0 1.65e+00
0 0 1.67e+00
0 0 1.74e+00
0 0 1.86e+00
0 0 2.01e+00
0 0 2.21e+00
0 0 2.45e+00
0 0 2.72e+00
1 7 1.79e-01
0 0 1.78e-01
0 0 1.78e-01
0 0 1.77e-01
0 0 1.76e-01
0 0 1.75e-01
0 0 1.78e-01
0 0 1.95e-01
0 0 2.55e-01
0 0 3.82e-01
0 0 5.21e-01
0 0 6.11e-01
0 0 6.28e-01
0 0 5.79e-01
0 0 4.96e-01
0 0 4.09e-01
0 0 3.27e-01
0 0 2.58e-01
0 0 2.07e-01
0 0 1.72e-01
0 0 1.49e-01
0 0 1.34e-01
0 0 1.25e-01
1 8 1.06e+00
0 0 1.06e+00
0 0 1.05e+00
0 0 1.04e+00
0 0 1.03e+00
0 0 1.01e+00
0 0 9.76e-01
0 0 9.28e-01
0 0 8.60e-01
0 0 7.77e-01
0 0 7.02e-01
0 0 6.52e-01
0 0 6.18e-01
0 0 6.01e-01
0 0 6.01e-01
0 0 6.10e-01
0 0 6.34e-01
0 0 6.83e-01
0 0 7.47e-01
0 0 8.22e-01
0 0 9.13e-01
0 0 1.02e+00
0 0 1.15e+00
1 9 1.55e+00
0 0 1.55e+00
0 0 1.55e+00
0 0 1.55e+00
0 0 1.55e+00
0 0 1.56e+00
0 0 1.56e+00
0 0 1.57e+00
0 0 1.59e+00
0 0 1.60e+00
0 0 1.61e+00
0 0 1.61e+00
0 0 1.62e+00
0 0 1.65e+00
0 0 1.67e+00
0 0 1.72e+00
0 0 1.80e+00
0 0 1.94e+00
0 0 2.12e+00
0 0 2.33e+00
0 0 2.58e+00
0 0 2.89e+00
0 0 3.24e+00
1 10 8.63e-01
0 0 8.63e-01
0 0 8.64e-01
0 0 8.64e-01
0 0 8.65e-01
0 0 8.67e-01
0 0 8.70e-01
0 0 8.73e-01
0 0 8.78e-01
0 0 8.84e-01
0 0 8.85e-01
0 0 8.81e-01
0 0 8.82e-01
0 0 8.86e-01
0 0 8.92e-01
0 0 9.07e-01
0 0 9.34e-01
0 0 9.82e-01
0 0 1.05e+00
0 0 1.15e+00
0 0 1.27e+00
0 0 1.42e+00
0 0 1.59e+00
2 3 8.96e-02
0 0 8.95e-02
0 0 8.92e-02
0 0 8.89e-02
0 0 8.83e-02
0 0 8.75e-02
0 0 8.63e-02
0 0 8.50e-02
0 0 8.49e-02
0 0 8.98e-02
0 0 1.03e-01
0 0 1.17e-01
0 0 1.31e-01
0 0 1.38e-01
0 0 1.33e-01
0 0 1.20e-01
0 0 1.03e-01
0 0 8.54e-02
0 0 7.07e-02
0 0 6.08e-02
0 0 5.47e-02
0 0 5.08e-02
0 0 4.83e-02
2 4 2.41e-01
0 0 2.41e-01
0 0 2.41e-01
0 0 2.40e-01
0 0 2.39e-01
0 0 2.37e-01
0 0 2.35e-01
0 0 2.33e-01
0 0 2.32e-01
0 0 2.42e-01
0 0 2.70e-01
0 0 3.04e-01
0 0 3.31e-01
0 0 3.44e-01
0 0 3.31e-01
0 0 3.01e-01
0 0 2.62e-01
0 0 2.19e-01
0 0 1.83e-01
0 0 1.57e-01
0 0 1.41e-01
0 0 1.30e-01
0 0 1.23e-01
2 5 5.23e-01
0 0 5.22e-01
0 0 5.21e-01
0 0 5.20e-01
0 0 5.18e-01
0 0 5.15e-01
0 0 5.10e-01
0 0 5.05e-01
0 0 5.03e-01
0 0 5.19e-01
0 0 5.69e-01
0 0 6.26e-01
0 0 6.68e-01
0 0 6.88e-01
0 0 6.60e-01
0 0 6.04e-01
0 0 5.31e-01
0 0 4.51e-01
0 0 3.81e-01
0 0 3.31e-01
0 0 3.00e-01
0 0 2.79e-01
0 0 2.66e-01
2 6 5.22e-01
0 0 5.22e-01
0 0 5.22e-01
0 0 5.21e-01
0 0 5.21e-01
0 0 5.22e-01
0 0 5.28e-01
0 0 5.52e-01
0 0 6.33e-01
0 0 8.02e-01
0 0 9.84e-01
0 0 1.09e+00
0 0 1.11e+00
0 0 1.04e+00
0 0 9.34e-01
0 0 8.22e-01
0 0 7.25e-01
0 0 6.61e-01
0 0 6.29e-01
0 0 6.26e-01
0 0 6.45e-01
0 0 6.80e-01
0 0 7.26e-01
2 7 2.88e+00
0 0 2.89e+00
0 0 2.89e+00
0 0 2.90e+00
0 0 2.91e+00
0 0 2.94e+00
0 0 2.97e+00
0 0 3.04e+00
0 0 3.15e+00
0 0 3.38e+00
0 0 3.66e+00
0 0 3.74e+00
0 0 3.68e+00
0 0 3.56e+00
0 0 3.40e+00
0 0 3.27e+00
0 0 3.23e+00
0 0 3.27e+00
0 0 3.41e+00
0 0 3.64e+00
0 0 3.97e+00
0 0 4.39e+00
0 0 4.87e+00
2 8 2.13e+00
0 0 2.12e+00
0 0 2.11e+00
0 0 2.09e+00
0 0 2.07e+00
0 0 2.02e+00
0 0 1.96e+00
0 0 1.86e+00
0 0 1.72e+00
0 0 1.55e+00
0 0 1.40e+00
0 0 1.30e+00
0 0 1.24e+00
0 0 1.20e+00
0 0 1.20e+00
0 0 1.22e+00
0 0 1.27e+00
0 0 1.37e+00
0 0 1.50e+00
0 0 1.64e+00
0 0 1.82e+00
0 0 2.02e+00
0 0 2.26e+00
2 9 8.64e-01
0 0 8.64e-01
0 0 8.64e-01
0 0 8.65e-01
0 0 8.66e-01
0 0 8.67e-01
0 0 8.70e-01
0 0 8.73e-01
0 0 8.78e-01
0 0 8.83e-01
0 0 8.85e-01
0 0 8.82e-01
0 0 8.82e-01
0 0 8.87e-01
0 0 8.94e-01
0 0 9.15e-01
0 0 9.53e-01
0 0 1.02e+00
0 0 1.11e+00
0 0 1.22e+00
0 0 1.35e+00
0 0 1.51e+00
0 0 1.70e+00
2 10 3.95e+00
0 0 3.95e+00
0 0 3.95e+00
0 0 3.96e+00
0 0 3.97e+00
0 0 3.98e+00
0 0 3.99e+00
0 0 4.02e+00
0 0 4.06e+00
0 0 4.10e+00
0 0 4.11e+00
0 0 4.10e+00
0 0 4.13e+00
0 0 4.17e+00
0 0 4.23e+00
0 0 4.34e+00
0 0 4.53e+00
0 0 4.83e+00
0 0 5.25e+00
0 0 5.76e+00
0 0 6.39e+00
0 0 7.16e+00
0 0 8.06e+00
3 4 1.05e+00
0 0 1.05e+00
0 0 1.05e+00
0 0 1.05e+00
0 0 1.04e+00
0 0 1.04e+00
0 0 1.04e+00
0 0 1.04e+00
0 0 1.04e+00
0 0 1.05e+00
0 0 1.09e+00
0 0 1.14e+00
0 0 1.19e+00
0 0 1.23e+00
0 0 1.23e+00
0 0 1.18e+00
0 0 1.09e+00
0 0 9.45e-01
0 0 7.89e-01
0 0 6.61e-01
0 0 5.69e-01
0 0 5.08e-01
0 0 4.68e-01
3 5 8.67e-01
0 0 8.64e-01
0 0 8.61e-01
0 0 8.55e-01
0 0 8.45e-01
0 0 8.31e-01
0 0 8.09e-01
0 0 7.78e-01
0 0 7.37e-01
0 0 6.98e-01
0 0 6.84e-01
0 0 7.11e-01
0 0 7.66e-01
0 0 8.17e-01
0 0 8.37e-01
0 0 8.11e-01
0 0 7.46e-01
0 0 6.52e-01
0 0 5.53e-01
0 0 4.73e-01
0 0 4.16e-01
0 0 3.78e-01
0 0 3.53e-01
3 6 3.53e-01
0 0 3.53e-01
0 0 3.53e-01
0 0 3.54e-01
0 0 3.55e-01
0 0 3.57e-01
0 0 3.60e-01
0 0 3.65e-01
0 0 3.74e-01
0 0 3.92e-01
0 0 4.18e-01
0 0 4.30e-01
0 0 4.27e-01
0 0 4.13e-01
0 0 3.89e-01
0 0 3.58e-01
0 0 3.21e-01
0 0 2.77e-01
0 0 2.33e-01
0 0 2.00e-01
0 0 1.77e-01
0 0 1.62e-01
0 0 1.52e-01
3 7 2.00e-01
0 0 2.00e-01
0 0 2.01e-01
0 0 2.01e-01
0 0 2.02e-01
0 0 2.04e-01
0 0 2.06e-01
0 0 2.10e-01
0 0 2.17e-01
0 0 2.28e-01
0 0 2.43e-01
0 0 2.53e-01
0 0 2.55e-01
0 0 2.53e-01
0 0 2.43e-01
0 0 2.26e-01
0 0 2.04e-01
0 0 1.76e-01
0 0 1.51e-01
0 0 1.31e-01
0 0 1.17e-01
0 0 1.08e-01
0 0 1.02e-01
3 8 7.97e-02
0 0 7.98e-02
0 0 7.99e-02
0 0 8.00e-02
0 0 8.01e-02
0 0 8.04e-02
0 0 8.08e-02
0 0 8.13e-02
0 0 8.20e-02
0 0 8.25e-02
0 0 8.20e-02
0 0 8.04e-02
0 0 7.83e-02
0 0 7.56e-02
0 0 7.22e-02
0 0 6.75e-02
0 0 6.13e-02
0 0 5.38e-02
0 0 4.58e-02
0 0 3.92e-02
0 0 3.43e-02
0 0 3.10e-02
0 0 2.89e-02
3 9 1.30e-01
0 0 1.29e-01
0 0 1.27e-01
0 0 1.24e-01
0 0 1.20e-01
0 0 1.14e-01
0 0 1.05e-01
0 0 9.70e-02
0 0 9.47e-02
0 0 1.00e-01
0 0 1.06e-01
0 0 1.12e-01
0 0 1.13e-01
0 0 1.07e-01
0 0 9.53e-02
0 0 8.02e-02
0 0 6.35e-02
0 0 4.89e-02
0 0 3.82e-02
0 0 3.09e-02
0 0 2.61e-02
0 0 2.30e-02
0 0 2.10e-02
3 10 1.08e-01
0 0 1.09e-01
0 0 1.11e-01
0 0 1.14e-01
0 0 1.18e-01
0 0 1.24e-01
0 0 1.33e-01
0 0 1.43e-01
0 0 1.52e-01
0 0 1.55e-01
0 0 1.56e-01
0 0 1.53e-01
0 0 1.45e-01
0 0 1.33e-01
0 0 1.17e-01
0 0 1.01e-01
0 0 8.38e-02
0 0 6.72e-02
0 0 5.46e-02
0 0 4.57e-02
0 0 3.99e-02
0 0 3.61e-02
0 0 3.36e-02
4 5 2.21e+00
0 0 2.20e+00
0 0 2.20e+00
0 0 2.19e+00
0 0 2.18e+00
0 0 2.17e+00
0 0 2.15e+00
0 0 2.11e+00
0 0 2.07e+00
0 0 2.03e+00
0 0 2.05e+00
0 0 2.14e+00
0 0 2.27e+00
0 0 2.37e+00
0 0 2.40e+00
0 0 2.32e+00
0 0 2.12e+00
0 0 1.86e+00
0 0 1.56e+00
0 0 1.30e+00
0 0 1.12e+00
0 0 9.92e-01
0 0 9.09e-01
4 6 5.47e-01
0 0 5.47e-01
0 0 5.48e-01
0 0 5.49e-01
0 0 5.51e-01
0 0 5.54e-01
0 0 5.59e-01
0 0 5.67e-01
0 0 5.82e-01
0 0 6.11e-01
0 0 6.51e-01
0 0 6.72e-01
0 0 6.69e-01
0 0 6.51e-01
0 0 6.15e-01
0 0 5.67e-01
0 0 5.09e-01
0 0 4.39e-01
0 0 3.71e-01
0 0 3.18e-01
0 0 2.82e-01
0 0 2.57e-01
0 0 2.42e-01
4 7 5.58e-01
0 0 5.58e-01
0 0 5.59e-01
0 0 5.61e-01
0 0 5.63e-01
0 0 5.67e-01
0 0 5.73e-01
0 0 5.82e-01
0 0 5.99e-01
0 0 6.29e-01
0 0 6.71e-01
0 0 6.94e-01
0 0 6.95e-01
0 0 6.82e-01
0 0 6.49e-01
0 0 6.01e-01
0 0 5.42e-01
0 0 4.67e-01
0 0 3.95e-01
0 0 3.39e-01
0 0 3.00e-01
0 0 2.74e-01
0 0 2.58e-01
4 8 1.59e-01
0 0 1.59e-01
0 0 1.59e-01
0 0 1.60e-01
0 0 1.60e-01
0 0 1.61e-01
0 0 1.61e-01
0 0 1.63e-01
0 0 1.64e-01
0 0 1.65e-01
0 0 1.64e-01
0 0 1.61e-01
0 0 1.57e-01
0 0 1.51e-01
0 0 1.44e-01
0 0 1.35e-01
0 0 1.23e-01
0 0 1.08e-01
0 0 9.18e-02
0 0 7.83e-02
0 0 6.85e-02
0 0 6.18e-02
0 0 5.75e-02
4 9 1.84e-01
0 0 1.84e-01
0 0 1.84e-01
0 0 1.83e-01
0 0 1.82e-01
0 0 1.80e-01
0 0 1.78e-01
0 0 1.75e-01
0 0 1.75e-01
0 0 1.81e-01
0 0 1.91e-01
0 0 1.95e-01
0 0 1.94e-01
0 0 1.83e-01
0 0 1.62e-01
0 0 1.36e-01
0 0 1.10e-01
0 0 8.60e-02
0 0 6.68e-02
0 0 5.31e-02
0 0 4.39e-02
0 0 3.79e-02
0 0 3.40e-02
4 10 2.78e-01
0 0 2.79e-01
0 0 2.80e-01
0 0 2.82e-01
0 0 2.85e-01
0 0 2.90e-01
0 0 2.97e-01
0 0 3.07e-01
0 0 3.19e-01
0 0 3.29e-01
0 0 3.33e-01
0 0 3.33e-01
0 0 3.23e-01
0 0 3.00e-01
0 0 2.66e-01
0 0 2.25e-01
0 0 1.85e-01
0 0 1.48e-01
0 0 1.17e-01
0 0 9.46e-02
0 0 7.93e-02
0 0 6.93e-02
0 0 6.28e-02
5 6 4.26e-01
0 0 4.27e-01
0 0 4.28e-01
0 0 4.29e-01
0 0 4.31e-01
0 0 4.34e-01
0 0 4.39e-01
0 0 4.48e-01
0 0 4.61e-01
0 0 4.85e-01
0 0 5.17e-01
0 0 5.37e-01
0 0 5.42e-01
0 0 5.35e-01
0 0 5.13e-01
0 0 4.77e-01
0 0 4.30e-01
0 0 3.72e-01
0 0 3.17e-01
0 0 2.74e-01
0 0 2.45e-01
0 0 2.25e-01
0 0 2.13e-01
5 7 1.23e+00
0 0 1.23e+00
0 0 1.23e+00
0 0 1.24e+00
0 0 1.24e+00
0 0 1.25e+00
0 0 1.26e+00
0 0 1.27e+00
0 0 1.31e+00
0 0 1.37e+00
0 0 1.46e+00
0 0 1.51e+00
0 0 1.50e+00
0 0 1.46e+00
0 0 1.38e+00
0 0 1.28e+00
0 0 1.15e+00
0 0 9.87e-01
0 0 8.34e-01
0 0 7.16e-01
0 0 6.35e-01
0 0 5.80e-01
0 0 5.45e-01
5 8 2.39e-01
0 0 2.39e-01
0 0 2.39e-01
0 0 2.40e-01
0 0 2.40e-01
0 0 2.41e-01
0 0 2.42e-01
0 0 2.44e-01
0 0 2.46e-01
0 0 2.47e-01
0 0 2.46e-01
0 0 2.41e-01
0 0 2.35e-01
0 0 2.27e-01
0 0 2.17e-01
0 0 2.03e-01
0 0 1.84e-01
0 0 1.62e-01
0 0 1.38e-01
0 0 1.18e-01
0 0 1.04e-01
0 0 9.40e-02
0 0 8.76e-02
5 9 1.62e-01
0 0 1.63e-01
0 0 1.65e-01
0 0 1.69e-01
0 0 1.74e-01
0 0 1.82e-01
0 0 1.94e-01
0 0 2.09e-01
0 0 2.24e-01
0 0 2.30e-01
0 0 2.26e-01
0 0 2.22e-01
0 0 2.09e-01
0 0 1.92e-01
0 0 1.69e-01
0 0 1.45e-01
0 0 1.21e-01
0 0 9.80e-02
0 0 7.88e-02
0 0 6.51e-02
0 0 5.58e-02
0 0 4.97e-02
0 0 4.58e-02
5 10 5.22e-01
0 0 5.22e-01
0 0 5.22e-01
0 0 5.21e-01
0 0 5.19e-01
0 0 5.18e-01
0 0 5.15e-01
0 0 5.14e-01
0 0 5.17e-01
0 0 5.35e-01
0 0 5.61e-01
0 0 5.71e-01
0 0 5.65e-01
0 0 5.32e-01
0 0 4.71e-01
0 0 3.97e-01
0 0 3.22e-01
0 0 2.52e-01
0 0 1.97e-01
0 0 1.58e-01
0 0 1.32e-01
0 0 1.15e-01
0 0 1.04e-01
0 0 0
1 2 5.310e-04
1 3 1.474e+03
1 4 3.747e+01
1 5 0.000e+00
1 6 5.978e+08
1 7 0.000e+00
1 8 1.251e+09
1 9 4.750e+09
1 10 1.202e+09
2 3 1.448e+03
2 4 2.895e+02
2 5 1.163e+03
2 6 1.148e+08
2 7 7.056e+08
2 8 2.324e+09
2 9 2.464e+09
2 10 6.019e+09
3 4 0.000e+00
3 5 0.000e+00
3 6 0.000e+00
3 7 0.000e+00
3 8 0.000e+00
3 9 0.000e+00
3 10 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 0.000e+00
4 8 0.000e+00
4 9 0.000e+00
4 10 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 0.000e+00
5 10 0.000e+00
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
9 10 0.000e+00
1 2 0.0
2 4 385.9
3 2 71439.8
4 4 71570.1
5 6 71755.5
6 4 126950.2
7 6 126936.3
8 2 164366.4
9 2 180480.8
10 4 180724.2
����������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/ov.dat����������������������������������������������������������������������0000664�0000000�0000000�00000037260�12714613141�0016347�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 35
** Atomic data from version 7 of the CHIANTI database **
%observed energies: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%theoretical energies: Berrington, K.A., private communication, 13-Mar-2003
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R.Young - 13-Mar-2003
%filename: o_5.wgfa
%observed energies: Fuhr, J.R., et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999, NIST Physical Reference Data
%A-values and oscillator strengths for all transitions involving levels > 20, and also transitions 3-9, 4-9,
5-13, 8-13, 4-14, 3-15, 4-15, 10-15, 12-15, 2-16, 3-16, 4-16 and 1-20: Hibbert, A., 1980, J.Phys.B, 13, 1721
$A-values and oscillator strengths for all other transitions: Tachiev, G., Froese Fischer, C., J.Phys.B, 32, 5805, 1999
%Comment: The gf values were not published by Hibbert and so they were derived from
the published A-values, making use of the calculated energies in Hibbert's Table 2.
Note that a number of E2 transitions are important for depopulating some
of the n=3 levels (Hibbert's Table 4).
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - 28-May-2003
%filename: o_5.splups
%theoretical energies: Berrington, K.A., private communication, 13-Mar-03
%gf-values: Berrington, K.A., private communication, 13-Mar-03
%upsilons: Berrington, K.A., private communication, 13-Mar-03
%comment: This data is from the same calculation as presented in
Kato et al. 1990, ADNDT, 44, 133 but contains more levels
and some errors in the original paper have been corrected.
%comment: the fits are accurate in the range 4.2 < log T < 6.3
%comment: The original data were tabulated over the logT range 3.5 to 6.5,
however for many transitions it was not possible to get a
good fit over the whole range. The fits are accurate to <2%
over the range 4.2 to 6.3. For many transitions, however,
the fits are accurate over a wider temperature range.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - 19-May-03
10 23
1 2s2 1S0
2 2s.2p 3P0
3 2s.2p 3P1
4 2s.2p 3P2
5 2s.2p 1P1
6 2p2 3P0
7 2p2 3P1
8 2p2 3P2
9 2p2 1D2
10 2p2 1S0
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 1.04e-01
0 0 1.04e-01
0 0 1.04e-01
0 0 1.04e-01
0 0 1.03e-01
0 0 1.03e-01
0 0 1.01e-01
0 0 9.96e-02
0 0 9.68e-02
0 0 9.26e-02
0 0 8.65e-02
0 0 7.85e-02
0 0 7.03e-02
0 0 6.44e-02
0 0 5.85e-02
0 0 5.15e-02
0 0 4.60e-02
0 0 4.10e-02
0 0 3.56e-02
0 0 3.04e-02
0 0 2.47e-02
0 0 1.91e-02
0 0 1.48e-02
1 3 3.22e-01
0 0 3.22e-01
0 0 3.21e-01
0 0 3.20e-01
0 0 3.18e-01
0 0 3.16e-01
0 0 3.12e-01
0 0 3.05e-01
0 0 2.95e-01
0 0 2.80e-01
0 0 2.58e-01
0 0 2.33e-01
0 0 2.10e-01
0 0 1.94e-01
0 0 1.74e-01
0 0 1.55e-01
0 0 1.38e-01
0 0 1.23e-01
0 0 1.07e-01
0 0 9.11e-02
0 0 7.39e-02
0 0 5.77e-02
0 0 4.39e-02
1 4 5.14e-01
0 0 5.14e-01
0 0 5.13e-01
0 0 5.11e-01
0 0 5.09e-01
0 0 5.05e-01
0 0 4.99e-01
0 0 4.90e-01
0 0 4.76e-01
0 0 4.55e-01
0 0 4.24e-01
0 0 3.85e-01
0 0 3.46e-01
0 0 3.18e-01
0 0 2.89e-01
0 0 2.56e-01
0 0 2.29e-01
0 0 2.04e-01
0 0 1.78e-01
0 0 1.52e-01
0 0 1.23e-01
0 0 9.54e-02
0 0 7.38e-02
1 5 2.79e+00
0 0 2.79e+00
0 0 2.79e+00
0 0 2.78e+00
0 0 2.78e+00
0 0 2.76e+00
0 0 2.74e+00
0 0 2.72e+00
0 0 2.68e+00
0 0 2.64e+00
0 0 2.64e+00
0 0 2.71e+00
0 0 2.80e+00
0 0 2.90e+00
0 0 2.99e+00
0 0 3.06e+00
0 0 3.14e+00
0 0 3.26e+00
0 0 3.44e+00
0 0 3.69e+00
0 0 4.02e+00
0 0 4.43e+00
0 0 4.92e+00
1 6 1.49e-03
0 0 1.49e-03
0 0 1.49e-03
0 0 1.49e-03
0 0 1.49e-03
0 0 1.48e-03
0 0 1.47e-03
0 0 1.46e-03
0 0 1.44e-03
0 0 1.41e-03
0 0 1.36e-03
0 0 1.30e-03
0 0 1.22e-03
0 0 1.16e-03
0 0 1.14e-03
0 0 1.20e-03
0 0 1.30e-03
0 0 1.38e-03
0 0 1.32e-03
0 0 1.15e-03
0 0 9.30e-04
0 0 7.03e-04
0 0 5.11e-04
1 7 4.54e-03
0 0 4.54e-03
0 0 4.53e-03
0 0 4.53e-03
0 0 4.51e-03
0 0 4.50e-03
0 0 4.47e-03
0 0 4.43e-03
0 0 4.36e-03
0 0 4.26e-03
0 0 4.11e-03
0 0 3.89e-03
0 0 3.64e-03
0 0 3.43e-03
0 0 3.38e-03
0 0 3.54e-03
0 0 3.86e-03
0 0 4.06e-03
0 0 3.89e-03
0 0 3.39e-03
0 0 2.74e-03
0 0 2.07e-03
0 0 1.51e-03
1 8 7.96e-03
0 0 7.96e-03
0 0 7.95e-03
0 0 7.93e-03
0 0 7.91e-03
0 0 7.87e-03
0 0 7.82e-03
0 0 7.73e-03
0 0 7.59e-03
0 0 7.38e-03
0 0 7.07e-03
0 0 6.63e-03
0 0 6.12e-03
0 0 5.72e-03
0 0 5.63e-03
0 0 5.88e-03
0 0 6.40e-03
0 0 6.75e-03
0 0 6.46e-03
0 0 5.63e-03
0 0 4.57e-03
0 0 3.45e-03
0 0 2.51e-03
1 9 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.11e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.12e-01
0 0 1.13e-01
0 0 1.14e-01
0 0 1.15e-01
0 0 1.16e-01
0 0 1.15e-01
0 0 1.11e-01
0 0 1.04e-01
0 0 9.77e-02
0 0 9.23e-02
0 0 8.84e-02
1 10 1.89e-02
0 0 1.89e-02
0 0 1.89e-02
0 0 1.89e-02
0 0 1.90e-02
0 0 1.91e-02
0 0 1.92e-02
0 0 1.93e-02
0 0 1.96e-02
0 0 2.00e-02
0 0 2.06e-02
0 0 2.12e-02
0 0 2.16e-02
0 0 2.19e-02
0 0 2.34e-02
0 0 2.64e-02
0 0 2.90e-02
0 0 2.98e-02
0 0 2.87e-02
0 0 2.69e-02
0 0 2.47e-02
0 0 2.25e-02
0 0 2.07e-02
2 3 4.92e-01
0 0 4.93e-01
0 0 4.95e-01
0 0 4.98e-01
0 0 5.03e-01
0 0 5.11e-01
0 0 5.23e-01
0 0 5.42e-01
0 0 5.71e-01
0 0 6.14e-01
0 0 6.74e-01
0 0 7.42e-01
0 0 7.82e-01
0 0 7.64e-01
0 0 7.25e-01
0 0 6.61e-01
0 0 5.80e-01
0 0 4.98e-01
0 0 4.13e-01
0 0 3.38e-01
0 0 2.65e-01
0 0 2.00e-01
0 0 1.52e-01
2 4 1.57e-01
0 0 1.61e-01
0 0 1.67e-01
0 0 1.75e-01
0 0 1.90e-01
0 0 2.12e-01
0 0 2.46e-01
0 0 2.99e-01
0 0 3.77e-01
0 0 4.89e-01
0 0 6.31e-01
0 0 7.76e-01
0 0 8.69e-01
0 0 8.71e-01
0 0 8.22e-01
0 0 7.31e-01
0 0 6.16e-01
0 0 5.09e-01
0 0 4.16e-01
0 0 3.34e-01
0 0 2.69e-01
0 0 2.24e-01
0 0 1.94e-01
2 5 2.22e-01
0 0 2.22e-01
0 0 2.22e-01
0 0 2.21e-01
0 0 2.21e-01
0 0 2.19e-01
0 0 2.17e-01
0 0 2.14e-01
0 0 2.09e-01
0 0 2.02e-01
0 0 1.91e-01
0 0 1.78e-01
0 0 1.65e-01
0 0 1.54e-01
0 0 1.40e-01
0 0 1.26e-01
0 0 1.15e-01
0 0 1.04e-01
0 0 9.12e-02
0 0 7.70e-02
0 0 6.08e-02
0 0 4.58e-02
0 0 3.44e-02
2 6 2.19e-02
0 0 2.19e-02
0 0 2.19e-02
0 0 2.19e-02
0 0 2.19e-02
0 0 2.18e-02
0 0 2.18e-02
0 0 2.17e-02
0 0 2.16e-02
0 0 2.14e-02
0 0 2.10e-02
0 0 2.06e-02
0 0 2.00e-02
0 0 1.93e-02
0 0 1.89e-02
0 0 1.86e-02
0 0 1.84e-02
0 0 1.80e-02
0 0 1.68e-02
0 0 1.48e-02
0 0 1.25e-02
0 0 1.01e-02
0 0 7.78e-03
2 7 1.55e+00
0 0 1.55e+00
0 0 1.55e+00
0 0 1.54e+00
0 0 1.54e+00
0 0 1.54e+00
0 0 1.54e+00
0 0 1.54e+00
0 0 1.54e+00
0 0 1.53e+00
0 0 1.52e+00
0 0 1.51e+00
0 0 1.50e+00
0 0 1.49e+00
0 0 1.50e+00
0 0 1.51e+00
0 0 1.55e+00
0 0 1.61e+00
0 0 1.70e+00
0 0 1.82e+00
0 0 1.98e+00
0 0 2.18e+00
0 0 2.41e+00
2 8 3.59e-02
0 0 3.59e-02
0 0 3.59e-02
0 0 3.59e-02
0 0 3.58e-02
0 0 3.58e-02
0 0 3.57e-02
0 0 3.56e-02
0 0 3.54e-02
0 0 3.52e-02
0 0 3.48e-02
0 0 3.41e-02
0 0 3.33e-02
0 0 3.21e-02
0 0 3.12e-02
0 0 3.17e-02
0 0 3.32e-02
0 0 3.42e-02
0 0 3.29e-02
0 0 2.93e-02
0 0 2.47e-02
0 0 1.95e-02
0 0 1.49e-02
2 9 4.90e-02
0 0 4.90e-02
0 0 4.90e-02
0 0 4.90e-02
0 0 4.90e-02
0 0 4.90e-02
0 0 4.89e-02
0 0 4.89e-02
0 0 4.88e-02
0 0 4.86e-02
0 0 4.84e-02
0 0 4.81e-02
0 0 4.78e-02
0 0 4.75e-02
0 0 4.81e-02
0 0 5.11e-02
0 0 5.55e-02
0 0 5.72e-02
0 0 5.45e-02
0 0 4.78e-02
0 0 3.97e-02
0 0 3.12e-02
0 0 2.35e-02
2 10 5.93e-03
0 0 5.93e-03
0 0 5.93e-03
0 0 5.94e-03
0 0 5.95e-03
0 0 5.96e-03
0 0 5.98e-03
0 0 6.02e-03
0 0 6.07e-03
0 0 6.15e-03
0 0 6.27e-03
0 0 6.43e-03
0 0 6.62e-03
0 0 6.84e-03
0 0 7.42e-03
0 0 8.53e-03
0 0 9.43e-03
0 0 9.59e-03
0 0 8.70e-03
0 0 7.33e-03
0 0 5.80e-03
0 0 4.32e-03
0 0 3.14e-03
3 4 1.02e+00
0 0 1.03e+00
0 0 1.04e+00
0 0 1.06e+00
0 0 1.10e+00
0 0 1.15e+00
0 0 1.23e+00
0 0 1.36e+00
0 0 1.56e+00
0 0 1.85e+00
0 0 2.24e+00
0 0 2.68e+00
0 0 2.94e+00
0 0 2.93e+00
0 0 2.81e+00
0 0 2.54e+00
0 0 2.20e+00
0 0 1.83e+00
0 0 1.50e+00
0 0 1.22e+00
0 0 9.69e-01
0 0 7.74e-01
0 0 6.37e-01
3 5 6.71e-01
0 0 6.71e-01
0 0 6.70e-01
0 0 6.68e-01
0 0 6.66e-01
0 0 6.61e-01
0 0 6.55e-01
0 0 6.45e-01
0 0 6.30e-01
0 0 6.07e-01
0 0 5.75e-01
0 0 5.35e-01
0 0 4.99e-01
0 0 4.68e-01
0 0 4.23e-01
0 0 3.80e-01
0 0 3.48e-01
0 0 3.14e-01
0 0 2.74e-01
0 0 2.31e-01
0 0 1.82e-01
0 0 1.37e-01
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3 6 1.55e+00
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0 0 2.00e+00
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3 7 1.26e+00
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0 0 1.26e+00
0 0 1.26e+00
0 0 1.26e+00
0 0 1.25e+00
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0 0 1.25e+00
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0 0 1.21e+00
0 0 1.22e+00
0 0 1.25e+00
0 0 1.29e+00
0 0 1.35e+00
0 0 1.44e+00
0 0 1.55e+00
0 0 1.70e+00
0 0 1.87e+00
3 8 1.99e+00
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0 0 1.99e+00
0 0 1.99e+00
0 0 1.99e+00
0 0 1.99e+00
0 0 1.99e+00
0 0 1.99e+00
0 0 1.98e+00
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0 0 1.93e+00
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0 0 1.96e+00
0 0 2.01e+00
0 0 2.08e+00
0 0 2.19e+00
0 0 2.34e+00
0 0 2.53e+00
0 0 2.77e+00
0 0 3.05e+00
3 9 1.48e-01
0 0 1.48e-01
0 0 1.48e-01
0 0 1.48e-01
0 0 1.48e-01
0 0 1.48e-01
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0 0 1.67e-01
0 0 1.73e-01
0 0 1.64e-01
0 0 1.44e-01
0 0 1.19e-01
0 0 9.40e-02
0 0 7.13e-02
3 10 1.79e-02
0 0 1.79e-02
0 0 1.79e-02
0 0 1.80e-02
0 0 1.80e-02
0 0 1.80e-02
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0 0 1.86e-02
0 0 1.89e-02
0 0 1.94e-02
0 0 2.00e-02
0 0 2.06e-02
0 0 2.24e-02
0 0 2.57e-02
0 0 2.85e-02
0 0 2.88e-02
0 0 2.63e-02
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0 0 1.30e-02
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4 5 1.11e+00
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0 0 5.83e-01
0 0 5.25e-01
0 0 4.57e-01
0 0 3.85e-01
0 0 3.03e-01
0 0 2.28e-01
0 0 1.72e-01
4 6 4.73e-02
0 0 4.73e-02
0 0 4.72e-02
0 0 4.71e-02
0 0 4.69e-02
0 0 4.67e-02
0 0 4.63e-02
0 0 4.57e-02
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0 0 3.82e-02
0 0 3.51e-02
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0 0 3.29e-02
0 0 3.37e-02
0 0 3.20e-02
0 0 2.87e-02
0 0 2.40e-02
0 0 1.88e-02
0 0 1.44e-02
4 7 2.05e+00
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0 0 2.05e+00
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0 0 2.05e+00
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0 0 2.50e-01
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0 0 2.49e-01
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4 10 2.86e-02
0 0 2.87e-02
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0 0 2.87e-02
0 0 2.88e-02
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0 0 2.91e-02
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0 0 4.41e-02
0 0 3.74e-02
0 0 2.93e-02
0 0 2.19e-02
0 0 1.62e-02
0 0 0
1 2 0.000e+00
1 3 2.288e+03
1 4 2.173e-02
1 5 2.873e+09
1 6 0.000e+00
1 7 0.000e+00
1 8 0.000e+00
1 9 0.000e+00
1 10 0.000e+00
2 3 0.000e+00
2 4 0.000e+00
2 5 0.000e+00
2 6 0.000e+00
2 7 7.409e+08
2 8 0.000e+00
2 9 0.000e+00
2 10 0.000e+00
3 4 3.913e-04
3 5 0.000e+00
3 6 2.208e+09
3 7 5.539e+08
3 8 5.574e+08
3 9 3.310e+04
3 10 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 9.167e+08
4 8 1.660e+09
4 9 3.220e+05
4 10 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 3.365e+08
5 10 3.832e+09
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
9 10 0.000e+00
1 1 0.0
2 1 81942.5
3 3 82078.6
4 5 82385.3
5 3 158797.7
6 1 213462.5
7 3 213618.2
8 5 213887.0
9 5 231721.4
10 1 287910.3
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/siII.dat��������������������������������������������������������������������0000664�0000000�0000000�00000063555�12714613141�0016566�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 28
** Atomic data from version 7 of the CHIANTI database **
%observed energies: v.3 of the NIST Atomic Database
%theoretical energies: Tayal, 2008, ApJS, 179, 534
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young, Jan-2009
%filename: si_2.wgfa
%observed energies: v.3 of the NIST Atomic Database
%theoretical energies: Tayal, 2008, ApJS, 179, 534
%A-values: Tayal, S.S., 2007, J.Phys.B, 40, 2551
%A-values: Nahar, S.N., 1998, ADNDT 68, 183
%A-values: Nussbaumer, H. 1977, A&A, 58, 291
%Comment: Both Nahar (1998) and Tayal (2007) give f-values so these have been converted to
A-values using the observed energies.
All data from Tayal (2007) have been used and these have been supplemented with
Nahar (1998) for all remaining allowed transitions, and Nussbaumer (1977) for the
ground transition.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young, Jan-2009
%filename: si_2.splups
%theoretical energies: Tayal, S.S., 2008, ApJS, 179, 534
%gf-values: Tayal, S.S., 2007, J.Phys.B, 40, 2551 and Nahar, S.N., 1998, ADNDT 68, 183
%Effective collision strengths: Tayal, S.S., 2008, ApJS, 179, 534
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young, Feb-2009
12 23
1 3s2.3p 2P1/2
2 3s2.3p 2P3/2
3 3s.3p2 4P1/2
4 3s.3p2 4P3/2
5 3s.3p2 4P5/2
6 3s.3p2 2D3/2
7 3s.3p2 2D5/2
8 3s2.4s 2S1/2
9 3s.3p2 2S1/2
10 3s2.3d 2D3/2
11 3s2.3d 2D5/2
12 3s2.4p 2P1/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 6.50e+00
0 0 6.50e+00
0 0 6.49e+00
0 0 6.48e+00
0 0 6.46e+00
0 0 6.42e+00
0 0 6.38e+00
0 0 6.31e+00
0 0 6.23e+00
0 0 6.15e+00
0 0 6.09e+00
0 0 6.02e+00
0 0 5.89e+00
0 0 5.58e+00
0 0 5.05e+00
0 0 4.36e+00
0 0 3.67e+00
0 0 3.09e+00
0 0 2.66e+00
0 0 2.36e+00
0 0 2.16e+00
0 0 2.03e+00
0 0 1.95e+00
1 3 5.98e-01
0 0 5.97e-01
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1 4 8.40e-01
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1 5 5.62e-01
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1 7 2.56e+00
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1 12 5.22e-01
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7 9 2.46e+00
0 0 2.45e+00
0 0 2.44e+00
0 0 2.43e+00
0 0 2.41e+00
0 0 2.38e+00
0 0 2.33e+00
0 0 2.26e+00
0 0 2.17e+00
0 0 2.08e+00
0 0 2.00e+00
0 0 1.95e+00
0 0 1.92e+00
0 0 1.93e+00
0 0 1.99e+00
0 0 2.12e+00
0 0 2.31e+00
0 0 2.51e+00
0 0 2.68e+00
0 0 2.79e+00
0 0 2.88e+00
0 0 2.93e+00
0 0 2.96e+00
7 10 2.65e+00
0 0 2.64e+00
0 0 2.63e+00
0 0 2.61e+00
0 0 2.58e+00
0 0 2.53e+00
0 0 2.46e+00
0 0 2.37e+00
0 0 2.25e+00
0 0 2.16e+00
0 0 2.08e+00
0 0 1.98e+00
0 0 1.84e+00
0 0 1.68e+00
0 0 1.51e+00
0 0 1.31e+00
0 0 1.11e+00
0 0 9.02e-01
0 0 7.29e-01
0 0 6.04e-01
0 0 5.19e-01
0 0 4.64e-01
0 0 4.28e-01
7 11 8.60e+00
0 0 8.57e+00
0 0 8.52e+00
0 0 8.44e+00
0 0 8.32e+00
0 0 8.13e+00
0 0 7.86e+00
0 0 7.50e+00
0 0 7.10e+00
0 0 6.78e+00
0 0 6.60e+00
0 0 6.49e+00
0 0 6.36e+00
0 0 6.18e+00
0 0 5.90e+00
0 0 5.52e+00
0 0 5.01e+00
0 0 4.45e+00
0 0 4.00e+00
0 0 3.67e+00
0 0 3.45e+00
0 0 3.31e+00
0 0 3.22e+00
7 12 4.65e-01
0 0 4.66e-01
0 0 4.67e-01
0 0 4.69e-01
0 0 4.71e-01
0 0 4.76e-01
0 0 4.82e-01
0 0 4.90e-01
0 0 5.00e-01
0 0 5.07e-01
0 0 5.08e-01
0 0 4.94e-01
0 0 4.65e-01
0 0 4.28e-01
0 0 3.91e-01
0 0 3.57e-01
0 0 3.24e-01
0 0 2.93e-01
0 0 2.69e-01
0 0 2.52e-01
0 0 2.41e-01
0 0 2.33e-01
0 0 2.29e-01
0 0 0
1 2 2.170e-04
1 3 3.956e+03
1 4 2.200e+01
1 5 0.000e+00
1 6 2.551e+06
1 7 0.000e+00
1 8 3.815e+08
1 9 3.611e+08
1 10 2.477e+09
1 11 0.000e+00
1 12 0.000e+00
2 3 3.315e+03
2 4 1.014e+03
2 5 1.827e+03
2 6 3.433e+05
2 7 2.654e+06
2 8 7.544e+08
2 9 6.296e+08
2 10 4.627e+08
2 11 2.919e+09
2 12 0.000e+00
3 4 0.000e+00
3 5 0.000e+00
3 6 0.000e+00
3 7 0.000e+00
3 8 0.000e+00
3 9 0.000e+00
3 10 0.000e+00
3 11 0.000e+00
3 12 0.000e+00
4 5 0.000e+00
4 6 0.000e+00
4 7 0.000e+00
4 8 0.000e+00
4 9 0.000e+00
4 10 0.000e+00
4 11 0.000e+00
4 12 0.000e+00
5 6 0.000e+00
5 7 0.000e+00
5 8 0.000e+00
5 9 0.000e+00
5 10 0.000e+00
5 11 0.000e+00
5 12 0.000e+00
6 7 0.000e+00
6 8 0.000e+00
6 9 0.000e+00
6 10 0.000e+00
6 11 0.000e+00
6 12 4.307e+07
7 8 0.000e+00
7 9 0.000e+00
7 10 0.000e+00
7 11 0.000e+00
7 12 0.000e+00
8 9 0.000e+00
8 10 0.000e+00
8 11 0.000e+00
8 12 6.191e+07
9 10 0.000e+00
9 11 0.000e+00
9 12 1.558e+04
10 11 0.000e+00
10 12 7.694e+04
11 12 0.000e+00
1 2 0.0
2 4 287.2
3 2 42824.3
4 4 42932.6
5 6 43107.9
6 4 55309.3
7 6 55325.2
8 2 65500.5
9 2 76665.4
10 4 79338.5
11 6 79355.0
12 2 81191.3
���������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/siIII.dat�������������������������������������������������������������������0000664�0000000�0000000�00000014027�12714613141�0016665�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 24
** Atomic data from version 7 of the CHIANTI database **
%energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%theoretical energy levels: Baluja,K.L.,Hibbert,A., J.Phis.B, 1980, 13, L327
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi 1995
%filename: si_3.wgfa
%energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61
%oscillator strengths: Dufton P.L., Hibbert A., Kingston A.E., Doschek G.A., 1983, ApJ, 274, 420
%oscillator strengths: P.R.Young (DAMTP, Un. of Cambridge, UK), SUPERSTRUCTURE calculations, 1996
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic database collaboration
%
% E. Landi 1996
%filename: si_3.splups
%oscillator strengths: Dufton P.L., Hibbert A., Kingston A.E., Doschek G.A., 1983, ApJ, 274, 420
%oscillator strengths: P.R.Young (DAMTP, Un. of Cambridge, UK), SUPERSTRUCTURE calculations, 1996
%effective collision strengths: Dufton, P.L., Kingston, A.E., 1989, MNRAS, 241, 209
%comment: effective collision strengths were provided in the temperature range 3.8 < Log T < 5.2
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% E. Landi 1995
5 23
1 3s2 1S0
2 3s.3p 3P0
3 3s.3p 3P1
4 3s.3p 3P2
5 3s.3p 1P1
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 1.01e+00
0 0 1.00e+00
0 0 9.97e-01
0 0 9.87e-01
0 0 9.71e-01
0 0 9.46e-01
0 0 9.08e-01
0 0 8.52e-01
0 0 7.72e-01
0 0 6.68e-01
0 0 5.53e-01
0 0 4.60e-01
0 0 3.88e-01
0 0 3.00e-01
0 0 1.98e-01
0 0 1.20e-01
0 0 7.40e-02
0 0 4.66e-02
0 0 2.97e-02
0 0 1.90e-02
0 0 1.21e-02
0 0 7.71e-03
0 0 4.89e-03
1 3 2.91e+00
0 0 2.90e+00
0 0 2.88e+00
0 0 2.86e+00
0 0 2.81e+00
0 0 2.74e+00
0 0 2.64e+00
0 0 2.49e+00
0 0 2.27e+00
0 0 1.98e+00
0 0 1.66e+00
0 0 1.39e+00
0 0 1.16e+00
0 0 8.94e-01
0 0 5.92e-01
0 0 3.63e-01
0 0 2.25e-01
0 0 1.42e-01
0 0 9.08e-02
0 0 5.80e-02
0 0 3.71e-02
0 0 2.36e-02
0 0 1.50e-02
1 4 5.03e+00
0 0 5.01e+00
0 0 4.98e+00
0 0 4.93e+00
0 0 4.85e+00
0 0 4.73e+00
0 0 4.54e+00
0 0 4.26e+00
0 0 3.86e+00
0 0 3.34e+00
0 0 2.77e+00
0 0 2.30e+00
0 0 1.94e+00
0 0 1.50e+00
0 0 9.91e-01
0 0 6.00e-01
0 0 3.68e-01
0 0 2.31e-01
0 0 1.47e-01
0 0 9.41e-02
0 0 6.00e-02
0 0 3.82e-02
0 0 2.42e-02
1 5 4.82e+00
0 0 4.83e+00
0 0 4.84e+00
0 0 4.85e+00
0 0 4.87e+00
0 0 4.90e+00
0 0 4.95e+00
0 0 5.03e+00
0 0 5.15e+00
0 0 5.33e+00
0 0 5.60e+00
0 0 5.98e+00
0 0 6.48e+00
0 0 7.11e+00
0 0 7.86e+00
0 0 8.71e+00
0 0 9.78e+00
0 0 1.13e+01
0 0 1.33e+01
0 0 1.58e+01
0 0 1.88e+01
0 0 2.22e+01
0 0 2.58e+01
2 3 1.72e+00
0 0 1.72e+00
0 0 1.72e+00
0 0 1.72e+00
0 0 1.73e+00
0 0 1.73e+00
0 0 1.74e+00
0 0 1.75e+00
0 0 1.77e+00
0 0 1.79e+00
0 0 1.81e+00
0 0 1.83e+00
0 0 1.83e+00
0 0 1.78e+00
0 0 1.67e+00
0 0 1.48e+00
0 0 1.25e+00
0 0 1.04e+00
0 0 8.80e-01
0 0 7.66e-01
0 0 6.89e-01
0 0 6.38e-01
0 0 6.06e-01
2 4 3.74e+00
0 0 3.74e+00
0 0 3.74e+00
0 0 3.74e+00
0 0 3.73e+00
0 0 3.73e+00
0 0 3.72e+00
0 0 3.72e+00
0 0 3.70e+00
0 0 3.67e+00
0 0 3.62e+00
0 0 3.52e+00
0 0 3.34e+00
0 0 3.11e+00
0 0 2.81e+00
0 0 2.46e+00
0 0 2.09e+00
0 0 1.79e+00
0 0 1.55e+00
0 0 1.39e+00
0 0 1.28e+00
0 0 1.21e+00
0 0 1.17e+00
2 5 9.74e-01
0 0 9.74e-01
0 0 9.73e-01
0 0 9.72e-01
0 0 9.71e-01
0 0 9.68e-01
0 0 9.65e-01
0 0 9.59e-01
0 0 9.51e-01
0 0 9.39e-01
0 0 9.22e-01
0 0 8.96e-01
0 0 8.56e-01
0 0 7.84e-01
0 0 6.78e-01
0 0 5.51e-01
0 0 4.26e-01
0 0 3.22e-01
0 0 2.45e-01
0 0 1.92e-01
0 0 1.56e-01
0 0 1.32e-01
0 0 1.17e-01
3 4 1.05e+01
0 0 1.05e+01
0 0 1.05e+01
0 0 1.05e+01
0 0 1.05e+01
0 0 1.05e+01
0 0 1.05e+01
0 0 1.05e+01
0 0 1.05e+01
0 0 1.04e+01
0 0 1.04e+01
0 0 1.02e+01
0 0 9.86e+00
0 0 9.24e+00
0 0 8.37e+00
0 0 7.35e+00
0 0 6.31e+00
0 0 5.40e+00
0 0 4.70e+00
0 0 4.19e+00
0 0 3.85e+00
0 0 3.63e+00
0 0 3.48e+00
3 5 2.93e+00
0 0 2.93e+00
0 0 2.92e+00
0 0 2.92e+00
0 0 2.92e+00
0 0 2.91e+00
0 0 2.90e+00
0 0 2.88e+00
0 0 2.86e+00
0 0 2.82e+00
0 0 2.77e+00
0 0 2.69e+00
0 0 2.56e+00
0 0 2.36e+00
0 0 2.04e+00
0 0 1.65e+00
0 0 1.27e+00
0 0 9.60e-01
0 0 7.39e-01
0 0 5.88e-01
0 0 4.89e-01
0 0 4.24e-01
0 0 3.82e-01
4 5 4.87e+00
0 0 4.87e+00
0 0 4.87e+00
0 0 4.86e+00
0 0 4.86e+00
0 0 4.84e+00
0 0 4.83e+00
0 0 4.80e+00
0 0 4.76e+00
0 0 4.70e+00
0 0 4.61e+00
0 0 4.48e+00
0 0 4.27e+00
0 0 3.93e+00
0 0 3.41e+00
0 0 2.75e+00
0 0 2.10e+00
0 0 1.58e+00
0 0 1.21e+00
0 0 9.50e-01
0 0 7.81e-01
0 0 6.71e-01
0 0 6.01e-01
0 0 0
1 2 0.000e+00
1 3 1.544e+04
1 4 1.290e-02
1 5 2.670e+09
2 3 0.000e+00
2 4 0.000e+00
2 5 0.000e+00
3 4 2.418e-04
3 5 0.000e+00
4 5 0.000e+00
1 1 0.0
2 1 52724.7
3 3 52853.3
4 5 53115.0
5 3 82884.4
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/siIV.dat��������������������������������������������������������������������0000664�0000000�0000000�00000005333�12714613141�0016571�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 27
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61.
%Theoretical energy levels: Sampson, D.H., Zhang, H.L., Fontes, C.J., 1990, ADNDT, 44, 209.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere, Jan. 1995
%filename: si_4.wgfa
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995,
NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61
%oscillator strengths: Sampson, D.H., Zhang, H.L., Fontes, C.J., 1990, ADNDT, 44, 209
%oscillator strengths: hydrogenic values for 4f-5g
%oscillator strengths: Wiese, W.L., Smith, M.W., Glennon, B.M.,
Atomic Transition Probabilities, Vol I, Hydrogen through Neon, NSRDS-NBS-4
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere - Jan 1995
%filename: si_4.splups
%oscillator strengths: Sampson, D.H., Zhang, H.L., Fontes, C.J., 1990, ADNDT, 44, 209
%oscillator strengths: Wiese, W.L., Smith, M.W., Glennon, B.M., Atomic Transition Probabilities,
Vol I, Hydrogen through Neon, NSRDS-NBS-4
%comment: hydrogenic values for 4f-5g
%collision strengths: Sampson, D.H., Zhang, H.L., Fontes, C.J., 1990, ADNDT, 44, 209
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% K.P. Dere - Jan 1995
3 23
1 3s 2S1/2
2 3p 2P1/2
3 3p 2P3/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 6.43e+00
0 0 6.43e+00
0 0 6.43e+00
0 0 6.43e+00
0 0 6.43e+00
0 0 6.44e+00
0 0 6.44e+00
0 0 6.45e+00
0 0 6.46e+00
0 0 6.48e+00
0 0 6.51e+00
0 0 6.56e+00
0 0 6.65e+00
0 0 6.78e+00
0 0 6.98e+00
0 0 7.27e+00
0 0 7.68e+00
0 0 8.20e+00
0 0 8.87e+00
0 0 9.72e+00
0 0 1.07e+01
0 0 1.19e+01
0 0 1.32e+01
1 3 1.28e+01
0 0 1.28e+01
0 0 1.28e+01
0 0 1.28e+01
0 0 1.28e+01
0 0 1.28e+01
0 0 1.28e+01
0 0 1.28e+01
0 0 1.29e+01
0 0 1.29e+01
0 0 1.30e+01
0 0 1.31e+01
0 0 1.32e+01
0 0 1.35e+01
0 0 1.39e+01
0 0 1.45e+01
0 0 1.53e+01
0 0 1.64e+01
0 0 1.77e+01
0 0 1.94e+01
0 0 2.14e+01
0 0 2.38e+01
0 0 2.64e+01
0 0 0
1 2 9.116e+08
1 3 9.301e+08
2 3 0.000e+00
1 2 0.0
2 2 71287.5
3 4 71748.6
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii.dat���������������������������������������������������������������������0000664�0000000�0000000�00000011766�12714613141�0016512�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: TZ10
%transition probabilities: PKW09
8 11
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
5000.35
6998.42
10000
14996.8
19998.6
25003.5
29991.6
39994.5
50003.5
69984.2
100000
0
1 2 2.660e+00
0 0 2.620e+00
0 0 2.560e+00
0 0 2.480e+00
0 0 2.410e+00
0 0 2.350e+00
0 0 2.300e+00
0 0 2.200e+00
0 0 2.100e+00
0 0 1.930e+00
0 0 1.710e+00
1 3 3.980e+00
0 0 3.910e+00
0 0 3.830e+00
0 0 3.710e+00
0 0 3.610e+00
0 0 3.520e+00
0 0 3.440e+00
0 0 3.300e+00
0 0 3.160e+00
0 0 2.900e+00
0 0 2.580e+00
1 4 6.860e-01
0 0 6.940e-01
0 0 7.040e-01
0 0 7.170e-01
0 0 7.270e-01
0 0 7.330e-01
0 0 7.360e-01
0 0 7.300e-01
0 0 7.150e-01
0 0 6.700e-01
0 0 5.970e-01
1 5 1.380e+00
0 0 1.390e+00
0 0 1.420e+00
0 0 1.440e+00
0 0 1.460e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.430e+00
0 0 1.340e+00
0 0 1.190e+00
1 6 2.250e+00
0 0 2.360e+00
0 0 2.540e+00
0 0 2.750e+00
0 0 2.840e+00
0 0 2.850e+00
0 0 2.820e+00
0 0 2.720e+00
0 0 2.600e+00
0 0 2.400e+00
0 0 2.160e+00
1 7 2.010e+00
0 0 2.090e+00
0 0 2.190e+00
0 0 2.300e+00
0 0 2.310e+00
0 0 2.290e+00
0 0 2.250e+00
0 0 2.150e+00
0 0 2.040e+00
0 0 1.860e+00
0 0 1.670e+00
1 8 9.170e-01
0 0 9.570e-01
0 0 1.020e+00
0 0 1.090e+00
0 0 1.110e+00
0 0 1.110e+00
0 0 1.100e+00
0 0 1.070e+00
0 0 1.020e+00
0 0 9.400e-01
0 0 8.430e-01
2 3 7.320e+00
0 0 7.130e+00
0 0 6.890e+00
0 0 6.580e+00
0 0 6.350e+00
0 0 6.170e+00
0 0 6.020e+00
0 0 5.760e+00
0 0 5.510e+00
0 0 5.060e+00
0 0 4.480e+00
2 4 1.480e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.480e+00
0 0 1.490e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.490e+00
0 0 1.450e+00
2 5 2.400e+00
0 0 2.400e+00
0 0 2.390e+00
0 0 2.390e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.360e+00
0 0 2.330e+00
0 0 2.250e+00
0 0 2.130e+00
2 6 4.400e-01
0 0 4.440e-01
0 0 4.530e-01
0 0 4.630e-01
0 0 4.640e-01
0 0 4.620e-01
0 0 4.570e-01
0 0 4.430e-01
0 0 4.280e-01
0 0 3.990e-01
0 0 3.600e-01
2 7 7.000e-01
0 0 7.060e-01
0 0 7.120e-01
0 0 7.080e-01
0 0 6.950e-01
0 0 6.780e-01
0 0 6.600e-01
0 0 6.260e-01
0 0 5.960e-01
0 0 5.480e-01
0 0 4.950e-01
2 8 4.510e-01
0 0 4.580e-01
0 0 4.650e-01
0 0 4.670e-01
0 0 4.610e-01
0 0 4.510e-01
0 0 4.400e-01
0 0 4.190e-01
0 0 3.990e-01
0 0 3.670e-01
0 0 3.320e-01
3 4 1.790e+00
0 0 1.780e+00
0 0 1.780e+00
0 0 1.770e+00
0 0 1.760e+00
0 0 1.760e+00
0 0 1.750e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.630e+00
0 0 1.530e+00
3 5 4.070e+00
0 0 4.070e+00
0 0 4.060e+00
0 0 4.060e+00
0 0 4.070e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.060e+00
0 0 3.970e+00
0 0 3.830e+00
3 6 1.540e+00
0 0 1.560e+00
0 0 1.580e+00
0 0 1.580e+00
0 0 1.550e+00
0 0 1.520e+00
0 0 1.480e+00
0 0 1.410e+00
0 0 1.350e+00
0 0 1.240e+00
0 0 1.130e+00
3 7 6.280e-01
0 0 6.400e-01
0 0 6.540e-01
0 0 6.600e-01
0 0 6.530e-01
0 0 6.410e-01
0 0 6.270e-01
0 0 5.980e-01
0 0 5.710e-01
0 0 5.250e-01
0 0 4.720e-01
3 8 1.690e-01
0 0 1.800e-01
0 0 1.930e-01
0 0 2.050e-01
0 0 2.090e-01
0 0 2.090e-01
0 0 2.070e-01
0 0 2.000e-01
0 0 1.930e-01
0 0 1.770e-01
0 0 1.570e-01
4 5 1.760e+00
0 0 1.780e+00
0 0 1.800e+00
0 0 1.820e+00
0 0 1.840e+00
0 0 1.850e+00
0 0 1.860e+00
0 0 1.840e+00
0 0 1.800e+00
0 0 1.700e+00
0 0 1.540e+00
4 6 2.330e-01
0 0 2.450e-01
0 0 2.600e-01
0 0 2.740e-01
0 0 2.790e-01
0 0 2.800e-01
0 0 2.780e-01
0 0 2.710e-01
0 0 2.630e-01
0 0 2.480e-01
0 0 2.280e-01
4 7 3.280e-01
0 0 3.390e-01
0 0 3.520e-01
0 0 3.630e-01
0 0 3.660e-01
0 0 3.650e-01
0 0 3.620e-01
0 0 3.540e-01
0 0 3.450e-01
0 0 3.280e-01
0 0 3.070e-01
4 8 2.100e-01
0 0 2.190e-01
0 0 2.300e-01
0 0 2.410e-01
0 0 2.450e-01
0 0 2.460e-01
0 0 2.450e-01
0 0 2.400e-01
0 0 2.350e-01
0 0 2.240e-01
0 0 2.100e-01
5 6 8.800e-01
0 0 9.050e-01
0 0 9.360e-01
0 0 9.650e-01
0 0 9.740e-01
0 0 9.730e-01
0 0 9.660e-01
0 0 9.470e-01
0 0 9.270e-01
0 0 8.870e-01
0 0 8.320e-01
5 7 4.700e-01
0 0 4.920e-01
0 0 5.160e-01
0 0 5.380e-01
0 0 5.450e-01
0 0 5.440e-01
0 0 5.390e-01
0 0 5.250e-01
0 0 5.100e-01
0 0 4.830e-01
0 0 4.480e-01
5 8 1.810e-01
0 0 1.960e-01
0 0 2.140e-01
0 0 2.310e-01
0 0 2.380e-01
0 0 2.400e-01
0 0 2.390e-01
0 0 2.340e-01
0 0 2.280e-01
0 0 2.140e-01
0 0 1.970e-01
6 7 5.690e+00
0 0 5.590e+00
0 0 5.440e+00
0 0 5.220e+00
0 0 5.030e+00
0 0 4.860e+00
0 0 4.710e+00
0 0 4.470e+00
0 0 4.270e+00
0 0 3.950e+00
0 0 3.610e+00
6 8 2.090e+00
0 0 2.050e+00
0 0 1.990e+00
0 0 1.890e+00
0 0 1.800e+00
0 0 1.710e+00
0 0 1.640e+00
0 0 1.510e+00
0 0 1.420e+00
0 0 1.290e+00
0 0 1.170e+00
0 0 0
1 2 6.8400003e-04
1 3 2.0189999e-04
1 4 7.7200003e-02
1 5 1.9200000e-01
1 6 5.1000000e+07
1 7 5.1200000e+07
1 8 5.1300000e+07
2 3 3.4600001e-07
2 4 1.4240000e-01
2 5 1.1480000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 6.8099998e-02
3 5 1.5670000e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 9.1400000e-07
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
����������NEAT-master/Atomic-data/sii_alternatives/�����������������������������������������������������������0000775�0000000�0000000�00000000000�12714613141�0020566�5����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/makefiles.sh�����������������������������������������������0000664�0000000�0000000�00000004012�12714613141�0023057�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������# 8 levels, number of Te points depends on file
for coll in RBS96 TZ10
do
for A in PKW09 TZ10-PKW09 VVF96-KHOC93 VVF96-M82a
do
tpoints=`head -n 2 s_ii_coll_${coll}.dat | tail -n 1 | awk ' { print NF-2 } '`
nlevels=8
echo "2" > sii_${coll}_${A}.dat
echo "%collision strengths: $coll" >> sii_${coll}_${A}.dat
echo "%transition probabilities: $A" >> sii_${coll}_${A}.dat
echo $nlevels $tpoints >> sii_${coll}_${A}.dat
echo " 1 3s2.3p3 4S3/2" >> sii_${coll}_${A}.dat
echo " 2 3s2.3p3 2D3/2" >> sii_${coll}_${A}.dat
echo " 3 3s2.3p3 2D5/2" >> sii_${coll}_${A}.dat
echo " 4 3s2.3p3 2P1/2" >> sii_${coll}_${A}.dat
echo " 5 3s2.3p3 2P3/2" >> sii_${coll}_${A}.dat
echo " 6 3s2.3p4 4P5/2" >> sii_${coll}_${A}.dat
echo " 7 3s2.3p4 4P3/2" >> sii_${coll}_${A}.dat
echo " 8 3s2.3p4 4P1/2" >> sii_${coll}_${A}.dat
head -n 2 s_ii_coll_${coll}.dat | tail -n 1 | awk ' { print substr($0,5,999) } ' | awk ' gsub(" ","\n") { print $0 } ' | awk ' { print 10**$1 } ' >> sii_${coll}_${A}.dat
echo "0" >> sii_${coll}_${A}.dat
#echo level numbers and collision strengths for each temperature
head -n 29 s_ii_coll_${coll}.dat | tail -n +3 | awk ' { print $1,$2,$3 } { for (i=4; i<=NF; i++) print "0 0 "$i } ' >> sii_${coll}_${A}.dat
echo "0 0 0" >> sii_${coll}_${A}.dat
#transition probabilities
for i in {2..8}; do
for j in `seq $i 8`; do
head -n 10 s_ii_atom_${A}.dat | tail -n +3 | awk -v i=$i -v j=$j ' NR==j { print i-1,j,$(i-1) } ' >> sii_${coll}_${A}.dat
done
done
#wavenumbers and statistical weights
echo " 1 4 0.0" >> sii_${coll}_${A}.dat
echo " 2 4 14852.9" >> sii_${coll}_${A}.dat
echo " 3 6 14884.7" >> sii_${coll}_${A}.dat
echo " 4 2 24524.8" >> sii_${coll}_${A}.dat
echo " 5 4 24571.5" >> sii_${coll}_${A}.dat
echo " 6 6 79395.4" >> sii_${coll}_${A}.dat
echo " 7 4 79756.8" >> sii_${coll}_${A}.dat
echo " 8 2 79962.6" >> sii_${coll}_${A}.dat
done
done
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/s_ii_atom_PKW09.dat����������������������������������������0000664�0000000�0000000�00000002060�12714613141�0024113�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������Aij
1/s 1/s 1/s 1/s 1/s 1/s 1/s 1/s
0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
6.8400003e-04 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
2.0189999e-04 3.4600001e-07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
7.7200003e-02 1.4240000e-01 6.8099998e-02 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
1.9200000e-01 1.1480000e-01 1.5670000e-01 9.1400000e-07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
5.1000000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
5.1200000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
5.1300000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
*** ATOM sulfur
*** SPECTRUM 2
*** SOURCE3 Podobedova, Kelleher, & Wiese 2009, JPCRD, Vol. 3
*** NOTE3 All A-values for levels 1-8
��������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/s_ii_atom_TZ10-PKW09.dat�����������������������������������0000664�0000000�0000000�00000002177�12714613141�0024620�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������Aij
1/s 1/s 1/s 1/s 1/s 1/s 1/s 1/s
0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
6.3199998e-04 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
2.1950000e-04 1.7100000e-07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
7.6399997e-02 1.4740001e-01 7.1599998e-02 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
1.9000000e-01 1.1650000e-01 1.6050000e-01 2.4299999e-07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
5.1000000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
5.1200000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
5.1300000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
*** ATOM sulfur
*** SPECTRUM 2
*** SOURCE3 Tayal & Zatsarinny 2010, ApJ 188, 32
*** NOTE3 A-values for levels 1-5
*** SOURCE4 Podobedova, Kelleher, & Wiese 2009, JPCRD, Vol. 3
*** NOTE4 A-values for levels 6-8
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/s_ii_atom_VVF96-KHOC93.dat���������������������������������0000664�0000000�0000000�00000002055�12714613141�0025023�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������Aij
1/s 1/s 1/s 1/s 1/s 1/s 1/s 1/s
0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
8.9000002e-04 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
2.7300001e-04 3.3500001e-07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
9.0599999e-02 1.4100000e-01 6.2700003e-02 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
2.2499999e-01 1.2100000e-01 1.5200000e-01 1.0300000e-06 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
4.3340000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
4.3940000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
4.4280000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
*** ATOM sulfur
*** SPECTRUM 2
*** SOURCE3 Keenan et al, 1993, Phys. Scr., 48, 129
*** NOTE3 All other A-values
*** GSCONFIG p3
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/s_ii_atom_VVF96-M82a.dat�����������������������������������0000664�0000000�0000000�00000002042�12714613141�0024626�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������Aij
1/s 1/s 1/s 1/s 1/s 1/s 1/s 1/s
0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
8.8200002e-04 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
2.6010000e-04 3.3500001e-07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
9.0599999e-02 1.6300000e-01 7.7900000e-02 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
2.2499999e-01 1.3300000e-01 1.7900001e-01 1.0300000e-06 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
4.3340000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
4.3940000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
4.4280000e+07 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00 0.0000000e+00
*** ATOM sulfur
*** SPECTRUM 2
*** SOURCE3 Mendoza 1982, MNRAS 198, 127
*** NOTE3 All other A-values
*** GSCONFIG p3
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/s_ii_coll_RBS96.dat����������������������������������������0000664�0000000�0000000�00000007313�12714613141�0024105�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������*** SII collision strengths data
0 0 3.500e+00 3.600e+00 3.700e+00 3.800e+00 3.900e+00 4.000e+00 4.100e+00 4.200e+00 4.400e+00 4.600e+00 4.800e+00 5.000e+00
1 2 3.180e+00 3.130e+00 3.060e+00 2.970e+00 2.870e+00 2.760e+00 2.650e+00 2.550e+00 2.360e+00 2.180e+00 1.960e+00 1.690e+00
1 3 4.770e+00 4.690e+00 4.580e+00 4.450e+00 4.300e+00 4.140e+00 3.980e+00 3.820e+00 3.540e+00 3.270e+00 2.940e+00 2.540e+00
1 4 1.230e+00 1.230e+00 1.230e+00 1.220e+00 1.200e+00 1.170e+00 1.140e+00 1.110e+00 1.040e+00 9.650e-01 8.590e-01 7.200e-01
1 5 2.460e+00 2.470e+00 2.460e+00 2.440e+00 2.400e+00 2.350e+00 2.290e+00 2.220e+00 2.090e+00 1.930e+00 1.720e+00 1.450e+00
1 6 4.230e+00 4.080e+00 3.910e+00 3.730e+00 3.550e+00 3.390e+00 3.230e+00 3.100e+00 2.870e+00 2.660e+00 2.450e+00 2.240e+00
1 7 2.820e+00 2.720e+00 2.610e+00 2.490e+00 2.370e+00 2.260e+00 2.150e+00 2.060e+00 1.910e+00 1.770e+00 1.620e+00 1.480e+00
1 8 1.410e+00 1.360e+00 1.300e+00 1.240e+00 1.180e+00 1.130e+00 1.080e+00 1.030e+00 9.570e-01 8.860e-01 8.140e-01 7.460e-01
2 3 7.990e+00 8.010e+00 7.980e+00 7.870e+00 7.690e+00 7.470e+00 7.220e+00 6.950e+00 6.420e+00 5.920e+00 5.390e+00 4.790e+00
2 4 2.140e+00 2.080e+00 2.010e+00 1.940e+00 1.870e+00 1.790e+00 1.720e+00 1.660e+00 1.570e+00 1.510e+00 1.460e+00 1.420e+00
2 5 3.380e+00 3.320e+00 3.250e+00 3.170e+00 3.080e+00 3.000e+00 2.910e+00 2.820e+00 2.680e+00 2.550e+00 2.400e+00 2.240e+00
2 6 3.890e-01 3.850e-01 3.820e-01 3.780e-01 3.750e-01 3.720e-01 3.680e-01 3.630e-01 3.490e-01 3.330e-01 3.150e-01 3.000e-01
2 7 7.960e-01 7.830e-01 7.690e-01 7.540e-01 7.380e-01 7.210e-01 7.020e-01 6.820e-01 6.380e-01 5.870e-01 5.300e-01 4.760e-01
2 8 5.590e-01 5.500e-01 5.390e-01 5.280e-01 5.150e-01 5.020e-01 4.880e-01 4.730e-01 4.410e-01 4.020e-01 3.600e-01 3.170e-01
3 4 2.460e+00 2.420e+00 2.370e+00 2.320e+00 2.260e+00 2.200e+00 2.140e+00 2.080e+00 1.970e+00 1.880e+00 1.760e+00 1.640e+00
3 5 5.820e+00 5.680e+00 5.520e+00 5.350e+00 5.170e+00 4.990e+00 4.810e+00 4.650e+00 4.400e+00 4.210e+00 4.030e+00 3.870e+00
3 6 1.790e+00 1.760e+00 1.730e+00 1.700e+00 1.660e+00 1.620e+00 1.580e+00 1.540e+00 1.440e+00 1.320e+00 1.190e+00 1.070e+00
3 7 6.580e-01 6.480e-01 6.390e-01 6.290e-01 6.190e-01 6.080e-01 5.960e-01 5.830e-01 5.520e-01 5.160e-01 4.750e-01 4.350e-01
3 8 1.680e-01 1.660e-01 1.650e-01 1.640e-01 1.630e-01 1.620e-01 1.610e-01 1.590e-01 1.550e-01 1.480e-01 1.420e-01 1.390e-01
4 5 3.070e+00 3.030e+00 2.980e+00 2.900e+00 2.810e+00 2.710e+00 2.610e+00 2.500e+00 2.310e+00 2.160e+00 2.010e+00 1.850e+00
4 6 2.970e-01 2.930e-01 2.890e-01 2.850e-01 2.810e-01 2.780e-01 2.750e-01 2.720e-01 2.670e-01 2.580e-01 2.450e-01 2.290e-01
4 7 4.120e-01 4.050e-01 3.980e-01 3.900e-01 3.820e-01 3.750e-01 3.670e-01 3.600e-01 3.450e-01 3.270e-01 3.030e-01 2.760e-01
4 8 2.700e-01 2.660e-01 2.610e-01 2.550e-01 2.500e-01 2.440e-01 2.390e-01 2.330e-01 2.220e-01 2.100e-01 1.950e-01 1.780e-01
5 6 1.170e+00 1.150e+00 1.130e+00 1.110e+00 1.090e+00 1.070e+00 1.050e+00 1.030e+00 9.860e-01 9.370e-01 8.720e-01 7.930e-01
5 7 5.680e-01 5.590e-01 5.500e-01 5.400e-01 5.310e-01 5.220e-01 5.140e-01 5.060e-01 4.900e-01 4.690e-01 4.400e-01 4.050e-01
5 8 2.200e-01 2.160e-01 2.130e-01 2.100e-01 2.070e-01 2.040e-01 2.020e-01 1.990e-01 1.950e-01 1.880e-01 1.790e-01 1.690e-01
6 7 7.570e+00 7.350e+00 7.100e+00 6.820e+00 6.530e+00 6.220e+00 5.920e+00 5.630e+00 5.130e+00 4.690e+00 4.300e+00 3.930e+00
6 8 3.600e+00 3.470e+00 3.330e+00 3.180e+00 3.010e+00 2.850e+00 2.680e+00 2.520e+00 2.230e+00 1.990e+00 1.800e+00 1.660e+00
7 8 2.740e+00 2.690e+00 2.630e+00 2.550e+00 2.470e+00 2.390e+00 2.310e+00 2.230e+00 2.110e+00 2.010e+00 1.900e+00 1.780e+00
*** T_UNIT log(K)
*** ATOM sulfur
*** SPECTRUM 2
*** SOURCE1 Ramsbottom, Bell & Stafford, 1996, ADNDT, 63, 57.
*** NOTE1 collision strengths
*** GSCONFIG p3
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/s_ii_coll_TZ10.dat�����������������������������������������0000664�0000000�0000000�00000006614�12714613141�0024001�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������*** SII collision strengths data
0 0 3.699e+00 3.845e+00 4.000e+00 4.176e+00 4.301e+00 4.398e+00 4.477e+00 4.602e+00 4.699e+00 4.845e+00 5.000e+00
1 2 2.660e+00 2.620e+00 2.560e+00 2.480e+00 2.410e+00 2.350e+00 2.300e+00 2.200e+00 2.100e+00 1.930e+00 1.710e+00
1 3 3.980e+00 3.910e+00 3.830e+00 3.710e+00 3.610e+00 3.520e+00 3.440e+00 3.300e+00 3.160e+00 2.900e+00 2.580e+00
1 4 6.860e-01 6.940e-01 7.040e-01 7.170e-01 7.270e-01 7.330e-01 7.360e-01 7.300e-01 7.150e-01 6.700e-01 5.970e-01
1 5 1.380e+00 1.390e+00 1.420e+00 1.440e+00 1.460e+00 1.470e+00 1.480e+00 1.470e+00 1.430e+00 1.340e+00 1.190e+00
1 6 2.250e+00 2.360e+00 2.540e+00 2.750e+00 2.840e+00 2.850e+00 2.820e+00 2.720e+00 2.600e+00 2.400e+00 2.160e+00
1 7 2.010e+00 2.090e+00 2.190e+00 2.300e+00 2.310e+00 2.290e+00 2.250e+00 2.150e+00 2.040e+00 1.860e+00 1.670e+00
1 8 9.170e-01 9.570e-01 1.020e+00 1.090e+00 1.110e+00 1.110e+00 1.100e+00 1.070e+00 1.020e+00 9.400e-01 8.430e-01
2 3 7.320e+00 7.130e+00 6.890e+00 6.580e+00 6.350e+00 6.170e+00 6.020e+00 5.760e+00 5.510e+00 5.060e+00 4.480e+00
2 4 1.480e+00 1.480e+00 1.470e+00 1.480e+00 1.480e+00 1.490e+00 1.500e+00 1.500e+00 1.500e+00 1.490e+00 1.450e+00
2 5 2.400e+00 2.400e+00 2.390e+00 2.390e+00 2.380e+00 2.380e+00 2.380e+00 2.360e+00 2.330e+00 2.250e+00 2.130e+00
2 6 4.400e-01 4.440e-01 4.530e-01 4.630e-01 4.640e-01 4.620e-01 4.570e-01 4.430e-01 4.280e-01 3.990e-01 3.600e-01
2 7 7.000e-01 7.060e-01 7.120e-01 7.080e-01 6.950e-01 6.780e-01 6.600e-01 6.260e-01 5.960e-01 5.480e-01 4.950e-01
2 8 4.510e-01 4.580e-01 4.650e-01 4.670e-01 4.610e-01 4.510e-01 4.400e-01 4.190e-01 3.990e-01 3.670e-01 3.320e-01
3 4 1.790e+00 1.780e+00 1.780e+00 1.770e+00 1.760e+00 1.760e+00 1.750e+00 1.730e+00 1.700e+00 1.630e+00 1.530e+00
3 5 4.070e+00 4.070e+00 4.060e+00 4.060e+00 4.070e+00 4.080e+00 4.080e+00 4.080e+00 4.060e+00 3.970e+00 3.830e+00
3 6 1.540e+00 1.560e+00 1.580e+00 1.580e+00 1.550e+00 1.520e+00 1.480e+00 1.410e+00 1.350e+00 1.240e+00 1.130e+00
3 7 6.280e-01 6.400e-01 6.540e-01 6.600e-01 6.530e-01 6.410e-01 6.270e-01 5.980e-01 5.710e-01 5.250e-01 4.720e-01
3 8 1.690e-01 1.800e-01 1.930e-01 2.050e-01 2.090e-01 2.090e-01 2.070e-01 2.000e-01 1.930e-01 1.770e-01 1.570e-01
4 5 1.760e+00 1.780e+00 1.800e+00 1.820e+00 1.840e+00 1.850e+00 1.860e+00 1.840e+00 1.800e+00 1.700e+00 1.540e+00
4 6 2.330e-01 2.450e-01 2.600e-01 2.740e-01 2.790e-01 2.800e-01 2.780e-01 2.710e-01 2.630e-01 2.480e-01 2.280e-01
4 7 3.280e-01 3.390e-01 3.520e-01 3.630e-01 3.660e-01 3.650e-01 3.620e-01 3.540e-01 3.450e-01 3.280e-01 3.070e-01
4 8 2.100e-01 2.190e-01 2.300e-01 2.410e-01 2.450e-01 2.460e-01 2.450e-01 2.400e-01 2.350e-01 2.240e-01 2.100e-01
5 6 8.800e-01 9.050e-01 9.360e-01 9.650e-01 9.740e-01 9.730e-01 9.660e-01 9.470e-01 9.270e-01 8.870e-01 8.320e-01
5 7 4.700e-01 4.920e-01 5.160e-01 5.380e-01 5.450e-01 5.440e-01 5.390e-01 5.250e-01 5.100e-01 4.830e-01 4.480e-01
5 8 1.810e-01 1.960e-01 2.140e-01 2.310e-01 2.380e-01 2.400e-01 2.390e-01 2.340e-01 2.280e-01 2.140e-01 1.970e-01
6 7 5.690e+00 5.590e+00 5.440e+00 5.220e+00 5.030e+00 4.860e+00 4.710e+00 4.470e+00 4.270e+00 3.950e+00 3.610e+00
6 8 2.090e+00 2.050e+00 1.990e+00 1.890e+00 1.800e+00 1.710e+00 1.640e+00 1.510e+00 1.420e+00 1.290e+00 1.170e+00
7 8 2.540e+00 2.620e+00 2.670e+00 2.670e+00 2.620e+00 2.560e+00 2.500e+00 2.380e+00 2.270e+00 2.100e+00 1.900e+00
*** T_UNIT log(K)
*** ATOM sulfur
*** SPECTRUM 2
*** SOURCE1 Tayal & Zatsarinny 2010, ApJ 188, 32
*** NOTE1 collision strengths
��������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/sii_RBS96_PKW09.dat����������������������������������������0000664�0000000�0000000�00000012571�12714613141�0023631�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: RBS96
%transition probabilities: PKW09
8 12
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
3162.28
3981.07
5011.87
6309.57
7943.28
10000
12589.3
15848.9
25118.9
39810.7
63095.7
100000
0
1 2 3.180e+00
0 0 3.130e+00
0 0 3.060e+00
0 0 2.970e+00
0 0 2.870e+00
0 0 2.760e+00
0 0 2.650e+00
0 0 2.550e+00
0 0 2.360e+00
0 0 2.180e+00
0 0 1.960e+00
0 0 1.690e+00
1 3 4.770e+00
0 0 4.690e+00
0 0 4.580e+00
0 0 4.450e+00
0 0 4.300e+00
0 0 4.140e+00
0 0 3.980e+00
0 0 3.820e+00
0 0 3.540e+00
0 0 3.270e+00
0 0 2.940e+00
0 0 2.540e+00
1 4 1.230e+00
0 0 1.230e+00
0 0 1.230e+00
0 0 1.220e+00
0 0 1.200e+00
0 0 1.170e+00
0 0 1.140e+00
0 0 1.110e+00
0 0 1.040e+00
0 0 9.650e-01
0 0 8.590e-01
0 0 7.200e-01
1 5 2.460e+00
0 0 2.470e+00
0 0 2.460e+00
0 0 2.440e+00
0 0 2.400e+00
0 0 2.350e+00
0 0 2.290e+00
0 0 2.220e+00
0 0 2.090e+00
0 0 1.930e+00
0 0 1.720e+00
0 0 1.450e+00
1 6 4.230e+00
0 0 4.080e+00
0 0 3.910e+00
0 0 3.730e+00
0 0 3.550e+00
0 0 3.390e+00
0 0 3.230e+00
0 0 3.100e+00
0 0 2.870e+00
0 0 2.660e+00
0 0 2.450e+00
0 0 2.240e+00
1 7 2.820e+00
0 0 2.720e+00
0 0 2.610e+00
0 0 2.490e+00
0 0 2.370e+00
0 0 2.260e+00
0 0 2.150e+00
0 0 2.060e+00
0 0 1.910e+00
0 0 1.770e+00
0 0 1.620e+00
0 0 1.480e+00
1 8 1.410e+00
0 0 1.360e+00
0 0 1.300e+00
0 0 1.240e+00
0 0 1.180e+00
0 0 1.130e+00
0 0 1.080e+00
0 0 1.030e+00
0 0 9.570e-01
0 0 8.860e-01
0 0 8.140e-01
0 0 7.460e-01
2 3 7.990e+00
0 0 8.010e+00
0 0 7.980e+00
0 0 7.870e+00
0 0 7.690e+00
0 0 7.470e+00
0 0 7.220e+00
0 0 6.950e+00
0 0 6.420e+00
0 0 5.920e+00
0 0 5.390e+00
0 0 4.790e+00
2 4 2.140e+00
0 0 2.080e+00
0 0 2.010e+00
0 0 1.940e+00
0 0 1.870e+00
0 0 1.790e+00
0 0 1.720e+00
0 0 1.660e+00
0 0 1.570e+00
0 0 1.510e+00
0 0 1.460e+00
0 0 1.420e+00
2 5 3.380e+00
0 0 3.320e+00
0 0 3.250e+00
0 0 3.170e+00
0 0 3.080e+00
0 0 3.000e+00
0 0 2.910e+00
0 0 2.820e+00
0 0 2.680e+00
0 0 2.550e+00
0 0 2.400e+00
0 0 2.240e+00
2 6 3.890e-01
0 0 3.850e-01
0 0 3.820e-01
0 0 3.780e-01
0 0 3.750e-01
0 0 3.720e-01
0 0 3.680e-01
0 0 3.630e-01
0 0 3.490e-01
0 0 3.330e-01
0 0 3.150e-01
0 0 3.000e-01
2 7 7.960e-01
0 0 7.830e-01
0 0 7.690e-01
0 0 7.540e-01
0 0 7.380e-01
0 0 7.210e-01
0 0 7.020e-01
0 0 6.820e-01
0 0 6.380e-01
0 0 5.870e-01
0 0 5.300e-01
0 0 4.760e-01
2 8 5.590e-01
0 0 5.500e-01
0 0 5.390e-01
0 0 5.280e-01
0 0 5.150e-01
0 0 5.020e-01
0 0 4.880e-01
0 0 4.730e-01
0 0 4.410e-01
0 0 4.020e-01
0 0 3.600e-01
0 0 3.170e-01
3 4 2.460e+00
0 0 2.420e+00
0 0 2.370e+00
0 0 2.320e+00
0 0 2.260e+00
0 0 2.200e+00
0 0 2.140e+00
0 0 2.080e+00
0 0 1.970e+00
0 0 1.880e+00
0 0 1.760e+00
0 0 1.640e+00
3 5 5.820e+00
0 0 5.680e+00
0 0 5.520e+00
0 0 5.350e+00
0 0 5.170e+00
0 0 4.990e+00
0 0 4.810e+00
0 0 4.650e+00
0 0 4.400e+00
0 0 4.210e+00
0 0 4.030e+00
0 0 3.870e+00
3 6 1.790e+00
0 0 1.760e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.660e+00
0 0 1.620e+00
0 0 1.580e+00
0 0 1.540e+00
0 0 1.440e+00
0 0 1.320e+00
0 0 1.190e+00
0 0 1.070e+00
3 7 6.580e-01
0 0 6.480e-01
0 0 6.390e-01
0 0 6.290e-01
0 0 6.190e-01
0 0 6.080e-01
0 0 5.960e-01
0 0 5.830e-01
0 0 5.520e-01
0 0 5.160e-01
0 0 4.750e-01
0 0 4.350e-01
3 8 1.680e-01
0 0 1.660e-01
0 0 1.650e-01
0 0 1.640e-01
0 0 1.630e-01
0 0 1.620e-01
0 0 1.610e-01
0 0 1.590e-01
0 0 1.550e-01
0 0 1.480e-01
0 0 1.420e-01
0 0 1.390e-01
4 5 3.070e+00
0 0 3.030e+00
0 0 2.980e+00
0 0 2.900e+00
0 0 2.810e+00
0 0 2.710e+00
0 0 2.610e+00
0 0 2.500e+00
0 0 2.310e+00
0 0 2.160e+00
0 0 2.010e+00
0 0 1.850e+00
4 6 2.970e-01
0 0 2.930e-01
0 0 2.890e-01
0 0 2.850e-01
0 0 2.810e-01
0 0 2.780e-01
0 0 2.750e-01
0 0 2.720e-01
0 0 2.670e-01
0 0 2.580e-01
0 0 2.450e-01
0 0 2.290e-01
4 7 4.120e-01
0 0 4.050e-01
0 0 3.980e-01
0 0 3.900e-01
0 0 3.820e-01
0 0 3.750e-01
0 0 3.670e-01
0 0 3.600e-01
0 0 3.450e-01
0 0 3.270e-01
0 0 3.030e-01
0 0 2.760e-01
4 8 2.700e-01
0 0 2.660e-01
0 0 2.610e-01
0 0 2.550e-01
0 0 2.500e-01
0 0 2.440e-01
0 0 2.390e-01
0 0 2.330e-01
0 0 2.220e-01
0 0 2.100e-01
0 0 1.950e-01
0 0 1.780e-01
5 6 1.170e+00
0 0 1.150e+00
0 0 1.130e+00
0 0 1.110e+00
0 0 1.090e+00
0 0 1.070e+00
0 0 1.050e+00
0 0 1.030e+00
0 0 9.860e-01
0 0 9.370e-01
0 0 8.720e-01
0 0 7.930e-01
5 7 5.680e-01
0 0 5.590e-01
0 0 5.500e-01
0 0 5.400e-01
0 0 5.310e-01
0 0 5.220e-01
0 0 5.140e-01
0 0 5.060e-01
0 0 4.900e-01
0 0 4.690e-01
0 0 4.400e-01
0 0 4.050e-01
5 8 2.200e-01
0 0 2.160e-01
0 0 2.130e-01
0 0 2.100e-01
0 0 2.070e-01
0 0 2.040e-01
0 0 2.020e-01
0 0 1.990e-01
0 0 1.950e-01
0 0 1.880e-01
0 0 1.790e-01
0 0 1.690e-01
6 7 7.570e+00
0 0 7.350e+00
0 0 7.100e+00
0 0 6.820e+00
0 0 6.530e+00
0 0 6.220e+00
0 0 5.920e+00
0 0 5.630e+00
0 0 5.130e+00
0 0 4.690e+00
0 0 4.300e+00
0 0 3.930e+00
6 8 3.600e+00
0 0 3.470e+00
0 0 3.330e+00
0 0 3.180e+00
0 0 3.010e+00
0 0 2.850e+00
0 0 2.680e+00
0 0 2.520e+00
0 0 2.230e+00
0 0 1.990e+00
0 0 1.800e+00
0 0 1.660e+00
0 0 0
1 2 6.8400003e-04
1 3 2.0189999e-04
1 4 7.7200003e-02
1 5 1.9200000e-01
1 6 5.1000000e+07
1 7 5.1200000e+07
1 8 5.1300000e+07
2 3 3.4600001e-07
2 4 1.4240000e-01
2 5 1.1480000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 6.8099998e-02
3 5 1.5670000e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 9.1400000e-07
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
���������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/sii_RBS96_TZ10-PKW09.dat�����������������������������������0000664�0000000�0000000�00000012576�12714613141�0024332�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: RBS96
%transition probabilities: TZ10-PKW09
8 12
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
3162.28
3981.07
5011.87
6309.57
7943.28
10000
12589.3
15848.9
25118.9
39810.7
63095.7
100000
0
1 2 3.180e+00
0 0 3.130e+00
0 0 3.060e+00
0 0 2.970e+00
0 0 2.870e+00
0 0 2.760e+00
0 0 2.650e+00
0 0 2.550e+00
0 0 2.360e+00
0 0 2.180e+00
0 0 1.960e+00
0 0 1.690e+00
1 3 4.770e+00
0 0 4.690e+00
0 0 4.580e+00
0 0 4.450e+00
0 0 4.300e+00
0 0 4.140e+00
0 0 3.980e+00
0 0 3.820e+00
0 0 3.540e+00
0 0 3.270e+00
0 0 2.940e+00
0 0 2.540e+00
1 4 1.230e+00
0 0 1.230e+00
0 0 1.230e+00
0 0 1.220e+00
0 0 1.200e+00
0 0 1.170e+00
0 0 1.140e+00
0 0 1.110e+00
0 0 1.040e+00
0 0 9.650e-01
0 0 8.590e-01
0 0 7.200e-01
1 5 2.460e+00
0 0 2.470e+00
0 0 2.460e+00
0 0 2.440e+00
0 0 2.400e+00
0 0 2.350e+00
0 0 2.290e+00
0 0 2.220e+00
0 0 2.090e+00
0 0 1.930e+00
0 0 1.720e+00
0 0 1.450e+00
1 6 4.230e+00
0 0 4.080e+00
0 0 3.910e+00
0 0 3.730e+00
0 0 3.550e+00
0 0 3.390e+00
0 0 3.230e+00
0 0 3.100e+00
0 0 2.870e+00
0 0 2.660e+00
0 0 2.450e+00
0 0 2.240e+00
1 7 2.820e+00
0 0 2.720e+00
0 0 2.610e+00
0 0 2.490e+00
0 0 2.370e+00
0 0 2.260e+00
0 0 2.150e+00
0 0 2.060e+00
0 0 1.910e+00
0 0 1.770e+00
0 0 1.620e+00
0 0 1.480e+00
1 8 1.410e+00
0 0 1.360e+00
0 0 1.300e+00
0 0 1.240e+00
0 0 1.180e+00
0 0 1.130e+00
0 0 1.080e+00
0 0 1.030e+00
0 0 9.570e-01
0 0 8.860e-01
0 0 8.140e-01
0 0 7.460e-01
2 3 7.990e+00
0 0 8.010e+00
0 0 7.980e+00
0 0 7.870e+00
0 0 7.690e+00
0 0 7.470e+00
0 0 7.220e+00
0 0 6.950e+00
0 0 6.420e+00
0 0 5.920e+00
0 0 5.390e+00
0 0 4.790e+00
2 4 2.140e+00
0 0 2.080e+00
0 0 2.010e+00
0 0 1.940e+00
0 0 1.870e+00
0 0 1.790e+00
0 0 1.720e+00
0 0 1.660e+00
0 0 1.570e+00
0 0 1.510e+00
0 0 1.460e+00
0 0 1.420e+00
2 5 3.380e+00
0 0 3.320e+00
0 0 3.250e+00
0 0 3.170e+00
0 0 3.080e+00
0 0 3.000e+00
0 0 2.910e+00
0 0 2.820e+00
0 0 2.680e+00
0 0 2.550e+00
0 0 2.400e+00
0 0 2.240e+00
2 6 3.890e-01
0 0 3.850e-01
0 0 3.820e-01
0 0 3.780e-01
0 0 3.750e-01
0 0 3.720e-01
0 0 3.680e-01
0 0 3.630e-01
0 0 3.490e-01
0 0 3.330e-01
0 0 3.150e-01
0 0 3.000e-01
2 7 7.960e-01
0 0 7.830e-01
0 0 7.690e-01
0 0 7.540e-01
0 0 7.380e-01
0 0 7.210e-01
0 0 7.020e-01
0 0 6.820e-01
0 0 6.380e-01
0 0 5.870e-01
0 0 5.300e-01
0 0 4.760e-01
2 8 5.590e-01
0 0 5.500e-01
0 0 5.390e-01
0 0 5.280e-01
0 0 5.150e-01
0 0 5.020e-01
0 0 4.880e-01
0 0 4.730e-01
0 0 4.410e-01
0 0 4.020e-01
0 0 3.600e-01
0 0 3.170e-01
3 4 2.460e+00
0 0 2.420e+00
0 0 2.370e+00
0 0 2.320e+00
0 0 2.260e+00
0 0 2.200e+00
0 0 2.140e+00
0 0 2.080e+00
0 0 1.970e+00
0 0 1.880e+00
0 0 1.760e+00
0 0 1.640e+00
3 5 5.820e+00
0 0 5.680e+00
0 0 5.520e+00
0 0 5.350e+00
0 0 5.170e+00
0 0 4.990e+00
0 0 4.810e+00
0 0 4.650e+00
0 0 4.400e+00
0 0 4.210e+00
0 0 4.030e+00
0 0 3.870e+00
3 6 1.790e+00
0 0 1.760e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.660e+00
0 0 1.620e+00
0 0 1.580e+00
0 0 1.540e+00
0 0 1.440e+00
0 0 1.320e+00
0 0 1.190e+00
0 0 1.070e+00
3 7 6.580e-01
0 0 6.480e-01
0 0 6.390e-01
0 0 6.290e-01
0 0 6.190e-01
0 0 6.080e-01
0 0 5.960e-01
0 0 5.830e-01
0 0 5.520e-01
0 0 5.160e-01
0 0 4.750e-01
0 0 4.350e-01
3 8 1.680e-01
0 0 1.660e-01
0 0 1.650e-01
0 0 1.640e-01
0 0 1.630e-01
0 0 1.620e-01
0 0 1.610e-01
0 0 1.590e-01
0 0 1.550e-01
0 0 1.480e-01
0 0 1.420e-01
0 0 1.390e-01
4 5 3.070e+00
0 0 3.030e+00
0 0 2.980e+00
0 0 2.900e+00
0 0 2.810e+00
0 0 2.710e+00
0 0 2.610e+00
0 0 2.500e+00
0 0 2.310e+00
0 0 2.160e+00
0 0 2.010e+00
0 0 1.850e+00
4 6 2.970e-01
0 0 2.930e-01
0 0 2.890e-01
0 0 2.850e-01
0 0 2.810e-01
0 0 2.780e-01
0 0 2.750e-01
0 0 2.720e-01
0 0 2.670e-01
0 0 2.580e-01
0 0 2.450e-01
0 0 2.290e-01
4 7 4.120e-01
0 0 4.050e-01
0 0 3.980e-01
0 0 3.900e-01
0 0 3.820e-01
0 0 3.750e-01
0 0 3.670e-01
0 0 3.600e-01
0 0 3.450e-01
0 0 3.270e-01
0 0 3.030e-01
0 0 2.760e-01
4 8 2.700e-01
0 0 2.660e-01
0 0 2.610e-01
0 0 2.550e-01
0 0 2.500e-01
0 0 2.440e-01
0 0 2.390e-01
0 0 2.330e-01
0 0 2.220e-01
0 0 2.100e-01
0 0 1.950e-01
0 0 1.780e-01
5 6 1.170e+00
0 0 1.150e+00
0 0 1.130e+00
0 0 1.110e+00
0 0 1.090e+00
0 0 1.070e+00
0 0 1.050e+00
0 0 1.030e+00
0 0 9.860e-01
0 0 9.370e-01
0 0 8.720e-01
0 0 7.930e-01
5 7 5.680e-01
0 0 5.590e-01
0 0 5.500e-01
0 0 5.400e-01
0 0 5.310e-01
0 0 5.220e-01
0 0 5.140e-01
0 0 5.060e-01
0 0 4.900e-01
0 0 4.690e-01
0 0 4.400e-01
0 0 4.050e-01
5 8 2.200e-01
0 0 2.160e-01
0 0 2.130e-01
0 0 2.100e-01
0 0 2.070e-01
0 0 2.040e-01
0 0 2.020e-01
0 0 1.990e-01
0 0 1.950e-01
0 0 1.880e-01
0 0 1.790e-01
0 0 1.690e-01
6 7 7.570e+00
0 0 7.350e+00
0 0 7.100e+00
0 0 6.820e+00
0 0 6.530e+00
0 0 6.220e+00
0 0 5.920e+00
0 0 5.630e+00
0 0 5.130e+00
0 0 4.690e+00
0 0 4.300e+00
0 0 3.930e+00
6 8 3.600e+00
0 0 3.470e+00
0 0 3.330e+00
0 0 3.180e+00
0 0 3.010e+00
0 0 2.850e+00
0 0 2.680e+00
0 0 2.520e+00
0 0 2.230e+00
0 0 1.990e+00
0 0 1.800e+00
0 0 1.660e+00
0 0 0
1 2 6.3199998e-04
1 3 2.1950000e-04
1 4 7.6399997e-02
1 5 1.9000000e-01
1 6 5.1000000e+07
1 7 5.1200000e+07
1 8 5.1300000e+07
2 3 1.7100000e-07
2 4 1.4740001e-01
2 5 1.1650000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 7.1599998e-02
3 5 1.6050000e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 2.4299999e-07
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
����������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/sii_RBS96_VVF96-KHOC93.dat���������������������������������0000664�0000000�0000000�00000012600�12714613141�0024526�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: RBS96
%transition probabilities: VVF96-KHOC93
8 12
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
3162.28
3981.07
5011.87
6309.57
7943.28
10000
12589.3
15848.9
25118.9
39810.7
63095.7
100000
0
1 2 3.180e+00
0 0 3.130e+00
0 0 3.060e+00
0 0 2.970e+00
0 0 2.870e+00
0 0 2.760e+00
0 0 2.650e+00
0 0 2.550e+00
0 0 2.360e+00
0 0 2.180e+00
0 0 1.960e+00
0 0 1.690e+00
1 3 4.770e+00
0 0 4.690e+00
0 0 4.580e+00
0 0 4.450e+00
0 0 4.300e+00
0 0 4.140e+00
0 0 3.980e+00
0 0 3.820e+00
0 0 3.540e+00
0 0 3.270e+00
0 0 2.940e+00
0 0 2.540e+00
1 4 1.230e+00
0 0 1.230e+00
0 0 1.230e+00
0 0 1.220e+00
0 0 1.200e+00
0 0 1.170e+00
0 0 1.140e+00
0 0 1.110e+00
0 0 1.040e+00
0 0 9.650e-01
0 0 8.590e-01
0 0 7.200e-01
1 5 2.460e+00
0 0 2.470e+00
0 0 2.460e+00
0 0 2.440e+00
0 0 2.400e+00
0 0 2.350e+00
0 0 2.290e+00
0 0 2.220e+00
0 0 2.090e+00
0 0 1.930e+00
0 0 1.720e+00
0 0 1.450e+00
1 6 4.230e+00
0 0 4.080e+00
0 0 3.910e+00
0 0 3.730e+00
0 0 3.550e+00
0 0 3.390e+00
0 0 3.230e+00
0 0 3.100e+00
0 0 2.870e+00
0 0 2.660e+00
0 0 2.450e+00
0 0 2.240e+00
1 7 2.820e+00
0 0 2.720e+00
0 0 2.610e+00
0 0 2.490e+00
0 0 2.370e+00
0 0 2.260e+00
0 0 2.150e+00
0 0 2.060e+00
0 0 1.910e+00
0 0 1.770e+00
0 0 1.620e+00
0 0 1.480e+00
1 8 1.410e+00
0 0 1.360e+00
0 0 1.300e+00
0 0 1.240e+00
0 0 1.180e+00
0 0 1.130e+00
0 0 1.080e+00
0 0 1.030e+00
0 0 9.570e-01
0 0 8.860e-01
0 0 8.140e-01
0 0 7.460e-01
2 3 7.990e+00
0 0 8.010e+00
0 0 7.980e+00
0 0 7.870e+00
0 0 7.690e+00
0 0 7.470e+00
0 0 7.220e+00
0 0 6.950e+00
0 0 6.420e+00
0 0 5.920e+00
0 0 5.390e+00
0 0 4.790e+00
2 4 2.140e+00
0 0 2.080e+00
0 0 2.010e+00
0 0 1.940e+00
0 0 1.870e+00
0 0 1.790e+00
0 0 1.720e+00
0 0 1.660e+00
0 0 1.570e+00
0 0 1.510e+00
0 0 1.460e+00
0 0 1.420e+00
2 5 3.380e+00
0 0 3.320e+00
0 0 3.250e+00
0 0 3.170e+00
0 0 3.080e+00
0 0 3.000e+00
0 0 2.910e+00
0 0 2.820e+00
0 0 2.680e+00
0 0 2.550e+00
0 0 2.400e+00
0 0 2.240e+00
2 6 3.890e-01
0 0 3.850e-01
0 0 3.820e-01
0 0 3.780e-01
0 0 3.750e-01
0 0 3.720e-01
0 0 3.680e-01
0 0 3.630e-01
0 0 3.490e-01
0 0 3.330e-01
0 0 3.150e-01
0 0 3.000e-01
2 7 7.960e-01
0 0 7.830e-01
0 0 7.690e-01
0 0 7.540e-01
0 0 7.380e-01
0 0 7.210e-01
0 0 7.020e-01
0 0 6.820e-01
0 0 6.380e-01
0 0 5.870e-01
0 0 5.300e-01
0 0 4.760e-01
2 8 5.590e-01
0 0 5.500e-01
0 0 5.390e-01
0 0 5.280e-01
0 0 5.150e-01
0 0 5.020e-01
0 0 4.880e-01
0 0 4.730e-01
0 0 4.410e-01
0 0 4.020e-01
0 0 3.600e-01
0 0 3.170e-01
3 4 2.460e+00
0 0 2.420e+00
0 0 2.370e+00
0 0 2.320e+00
0 0 2.260e+00
0 0 2.200e+00
0 0 2.140e+00
0 0 2.080e+00
0 0 1.970e+00
0 0 1.880e+00
0 0 1.760e+00
0 0 1.640e+00
3 5 5.820e+00
0 0 5.680e+00
0 0 5.520e+00
0 0 5.350e+00
0 0 5.170e+00
0 0 4.990e+00
0 0 4.810e+00
0 0 4.650e+00
0 0 4.400e+00
0 0 4.210e+00
0 0 4.030e+00
0 0 3.870e+00
3 6 1.790e+00
0 0 1.760e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.660e+00
0 0 1.620e+00
0 0 1.580e+00
0 0 1.540e+00
0 0 1.440e+00
0 0 1.320e+00
0 0 1.190e+00
0 0 1.070e+00
3 7 6.580e-01
0 0 6.480e-01
0 0 6.390e-01
0 0 6.290e-01
0 0 6.190e-01
0 0 6.080e-01
0 0 5.960e-01
0 0 5.830e-01
0 0 5.520e-01
0 0 5.160e-01
0 0 4.750e-01
0 0 4.350e-01
3 8 1.680e-01
0 0 1.660e-01
0 0 1.650e-01
0 0 1.640e-01
0 0 1.630e-01
0 0 1.620e-01
0 0 1.610e-01
0 0 1.590e-01
0 0 1.550e-01
0 0 1.480e-01
0 0 1.420e-01
0 0 1.390e-01
4 5 3.070e+00
0 0 3.030e+00
0 0 2.980e+00
0 0 2.900e+00
0 0 2.810e+00
0 0 2.710e+00
0 0 2.610e+00
0 0 2.500e+00
0 0 2.310e+00
0 0 2.160e+00
0 0 2.010e+00
0 0 1.850e+00
4 6 2.970e-01
0 0 2.930e-01
0 0 2.890e-01
0 0 2.850e-01
0 0 2.810e-01
0 0 2.780e-01
0 0 2.750e-01
0 0 2.720e-01
0 0 2.670e-01
0 0 2.580e-01
0 0 2.450e-01
0 0 2.290e-01
4 7 4.120e-01
0 0 4.050e-01
0 0 3.980e-01
0 0 3.900e-01
0 0 3.820e-01
0 0 3.750e-01
0 0 3.670e-01
0 0 3.600e-01
0 0 3.450e-01
0 0 3.270e-01
0 0 3.030e-01
0 0 2.760e-01
4 8 2.700e-01
0 0 2.660e-01
0 0 2.610e-01
0 0 2.550e-01
0 0 2.500e-01
0 0 2.440e-01
0 0 2.390e-01
0 0 2.330e-01
0 0 2.220e-01
0 0 2.100e-01
0 0 1.950e-01
0 0 1.780e-01
5 6 1.170e+00
0 0 1.150e+00
0 0 1.130e+00
0 0 1.110e+00
0 0 1.090e+00
0 0 1.070e+00
0 0 1.050e+00
0 0 1.030e+00
0 0 9.860e-01
0 0 9.370e-01
0 0 8.720e-01
0 0 7.930e-01
5 7 5.680e-01
0 0 5.590e-01
0 0 5.500e-01
0 0 5.400e-01
0 0 5.310e-01
0 0 5.220e-01
0 0 5.140e-01
0 0 5.060e-01
0 0 4.900e-01
0 0 4.690e-01
0 0 4.400e-01
0 0 4.050e-01
5 8 2.200e-01
0 0 2.160e-01
0 0 2.130e-01
0 0 2.100e-01
0 0 2.070e-01
0 0 2.040e-01
0 0 2.020e-01
0 0 1.990e-01
0 0 1.950e-01
0 0 1.880e-01
0 0 1.790e-01
0 0 1.690e-01
6 7 7.570e+00
0 0 7.350e+00
0 0 7.100e+00
0 0 6.820e+00
0 0 6.530e+00
0 0 6.220e+00
0 0 5.920e+00
0 0 5.630e+00
0 0 5.130e+00
0 0 4.690e+00
0 0 4.300e+00
0 0 3.930e+00
6 8 3.600e+00
0 0 3.470e+00
0 0 3.330e+00
0 0 3.180e+00
0 0 3.010e+00
0 0 2.850e+00
0 0 2.680e+00
0 0 2.520e+00
0 0 2.230e+00
0 0 1.990e+00
0 0 1.800e+00
0 0 1.660e+00
0 0 0
1 2 8.9000002e-04
1 3 2.7300001e-04
1 4 9.0599999e-02
1 5 2.2499999e-01
1 6 4.3340000e+07
1 7 4.3940000e+07
1 8 4.4280000e+07
2 3 3.3500001e-07
2 4 1.4100000e-01
2 5 1.2100000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 6.2700003e-02
3 5 1.5200000e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 1.0300000e-06
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
��������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/sii_RBS96_VVF96-M82a.dat�����������������������������������0000664�0000000�0000000�00000012576�12714613141�0024351�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: RBS96
%transition probabilities: VVF96-M82a
8 12
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
3162.28
3981.07
5011.87
6309.57
7943.28
10000
12589.3
15848.9
25118.9
39810.7
63095.7
100000
0
1 2 3.180e+00
0 0 3.130e+00
0 0 3.060e+00
0 0 2.970e+00
0 0 2.870e+00
0 0 2.760e+00
0 0 2.650e+00
0 0 2.550e+00
0 0 2.360e+00
0 0 2.180e+00
0 0 1.960e+00
0 0 1.690e+00
1 3 4.770e+00
0 0 4.690e+00
0 0 4.580e+00
0 0 4.450e+00
0 0 4.300e+00
0 0 4.140e+00
0 0 3.980e+00
0 0 3.820e+00
0 0 3.540e+00
0 0 3.270e+00
0 0 2.940e+00
0 0 2.540e+00
1 4 1.230e+00
0 0 1.230e+00
0 0 1.230e+00
0 0 1.220e+00
0 0 1.200e+00
0 0 1.170e+00
0 0 1.140e+00
0 0 1.110e+00
0 0 1.040e+00
0 0 9.650e-01
0 0 8.590e-01
0 0 7.200e-01
1 5 2.460e+00
0 0 2.470e+00
0 0 2.460e+00
0 0 2.440e+00
0 0 2.400e+00
0 0 2.350e+00
0 0 2.290e+00
0 0 2.220e+00
0 0 2.090e+00
0 0 1.930e+00
0 0 1.720e+00
0 0 1.450e+00
1 6 4.230e+00
0 0 4.080e+00
0 0 3.910e+00
0 0 3.730e+00
0 0 3.550e+00
0 0 3.390e+00
0 0 3.230e+00
0 0 3.100e+00
0 0 2.870e+00
0 0 2.660e+00
0 0 2.450e+00
0 0 2.240e+00
1 7 2.820e+00
0 0 2.720e+00
0 0 2.610e+00
0 0 2.490e+00
0 0 2.370e+00
0 0 2.260e+00
0 0 2.150e+00
0 0 2.060e+00
0 0 1.910e+00
0 0 1.770e+00
0 0 1.620e+00
0 0 1.480e+00
1 8 1.410e+00
0 0 1.360e+00
0 0 1.300e+00
0 0 1.240e+00
0 0 1.180e+00
0 0 1.130e+00
0 0 1.080e+00
0 0 1.030e+00
0 0 9.570e-01
0 0 8.860e-01
0 0 8.140e-01
0 0 7.460e-01
2 3 7.990e+00
0 0 8.010e+00
0 0 7.980e+00
0 0 7.870e+00
0 0 7.690e+00
0 0 7.470e+00
0 0 7.220e+00
0 0 6.950e+00
0 0 6.420e+00
0 0 5.920e+00
0 0 5.390e+00
0 0 4.790e+00
2 4 2.140e+00
0 0 2.080e+00
0 0 2.010e+00
0 0 1.940e+00
0 0 1.870e+00
0 0 1.790e+00
0 0 1.720e+00
0 0 1.660e+00
0 0 1.570e+00
0 0 1.510e+00
0 0 1.460e+00
0 0 1.420e+00
2 5 3.380e+00
0 0 3.320e+00
0 0 3.250e+00
0 0 3.170e+00
0 0 3.080e+00
0 0 3.000e+00
0 0 2.910e+00
0 0 2.820e+00
0 0 2.680e+00
0 0 2.550e+00
0 0 2.400e+00
0 0 2.240e+00
2 6 3.890e-01
0 0 3.850e-01
0 0 3.820e-01
0 0 3.780e-01
0 0 3.750e-01
0 0 3.720e-01
0 0 3.680e-01
0 0 3.630e-01
0 0 3.490e-01
0 0 3.330e-01
0 0 3.150e-01
0 0 3.000e-01
2 7 7.960e-01
0 0 7.830e-01
0 0 7.690e-01
0 0 7.540e-01
0 0 7.380e-01
0 0 7.210e-01
0 0 7.020e-01
0 0 6.820e-01
0 0 6.380e-01
0 0 5.870e-01
0 0 5.300e-01
0 0 4.760e-01
2 8 5.590e-01
0 0 5.500e-01
0 0 5.390e-01
0 0 5.280e-01
0 0 5.150e-01
0 0 5.020e-01
0 0 4.880e-01
0 0 4.730e-01
0 0 4.410e-01
0 0 4.020e-01
0 0 3.600e-01
0 0 3.170e-01
3 4 2.460e+00
0 0 2.420e+00
0 0 2.370e+00
0 0 2.320e+00
0 0 2.260e+00
0 0 2.200e+00
0 0 2.140e+00
0 0 2.080e+00
0 0 1.970e+00
0 0 1.880e+00
0 0 1.760e+00
0 0 1.640e+00
3 5 5.820e+00
0 0 5.680e+00
0 0 5.520e+00
0 0 5.350e+00
0 0 5.170e+00
0 0 4.990e+00
0 0 4.810e+00
0 0 4.650e+00
0 0 4.400e+00
0 0 4.210e+00
0 0 4.030e+00
0 0 3.870e+00
3 6 1.790e+00
0 0 1.760e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.660e+00
0 0 1.620e+00
0 0 1.580e+00
0 0 1.540e+00
0 0 1.440e+00
0 0 1.320e+00
0 0 1.190e+00
0 0 1.070e+00
3 7 6.580e-01
0 0 6.480e-01
0 0 6.390e-01
0 0 6.290e-01
0 0 6.190e-01
0 0 6.080e-01
0 0 5.960e-01
0 0 5.830e-01
0 0 5.520e-01
0 0 5.160e-01
0 0 4.750e-01
0 0 4.350e-01
3 8 1.680e-01
0 0 1.660e-01
0 0 1.650e-01
0 0 1.640e-01
0 0 1.630e-01
0 0 1.620e-01
0 0 1.610e-01
0 0 1.590e-01
0 0 1.550e-01
0 0 1.480e-01
0 0 1.420e-01
0 0 1.390e-01
4 5 3.070e+00
0 0 3.030e+00
0 0 2.980e+00
0 0 2.900e+00
0 0 2.810e+00
0 0 2.710e+00
0 0 2.610e+00
0 0 2.500e+00
0 0 2.310e+00
0 0 2.160e+00
0 0 2.010e+00
0 0 1.850e+00
4 6 2.970e-01
0 0 2.930e-01
0 0 2.890e-01
0 0 2.850e-01
0 0 2.810e-01
0 0 2.780e-01
0 0 2.750e-01
0 0 2.720e-01
0 0 2.670e-01
0 0 2.580e-01
0 0 2.450e-01
0 0 2.290e-01
4 7 4.120e-01
0 0 4.050e-01
0 0 3.980e-01
0 0 3.900e-01
0 0 3.820e-01
0 0 3.750e-01
0 0 3.670e-01
0 0 3.600e-01
0 0 3.450e-01
0 0 3.270e-01
0 0 3.030e-01
0 0 2.760e-01
4 8 2.700e-01
0 0 2.660e-01
0 0 2.610e-01
0 0 2.550e-01
0 0 2.500e-01
0 0 2.440e-01
0 0 2.390e-01
0 0 2.330e-01
0 0 2.220e-01
0 0 2.100e-01
0 0 1.950e-01
0 0 1.780e-01
5 6 1.170e+00
0 0 1.150e+00
0 0 1.130e+00
0 0 1.110e+00
0 0 1.090e+00
0 0 1.070e+00
0 0 1.050e+00
0 0 1.030e+00
0 0 9.860e-01
0 0 9.370e-01
0 0 8.720e-01
0 0 7.930e-01
5 7 5.680e-01
0 0 5.590e-01
0 0 5.500e-01
0 0 5.400e-01
0 0 5.310e-01
0 0 5.220e-01
0 0 5.140e-01
0 0 5.060e-01
0 0 4.900e-01
0 0 4.690e-01
0 0 4.400e-01
0 0 4.050e-01
5 8 2.200e-01
0 0 2.160e-01
0 0 2.130e-01
0 0 2.100e-01
0 0 2.070e-01
0 0 2.040e-01
0 0 2.020e-01
0 0 1.990e-01
0 0 1.950e-01
0 0 1.880e-01
0 0 1.790e-01
0 0 1.690e-01
6 7 7.570e+00
0 0 7.350e+00
0 0 7.100e+00
0 0 6.820e+00
0 0 6.530e+00
0 0 6.220e+00
0 0 5.920e+00
0 0 5.630e+00
0 0 5.130e+00
0 0 4.690e+00
0 0 4.300e+00
0 0 3.930e+00
6 8 3.600e+00
0 0 3.470e+00
0 0 3.330e+00
0 0 3.180e+00
0 0 3.010e+00
0 0 2.850e+00
0 0 2.680e+00
0 0 2.520e+00
0 0 2.230e+00
0 0 1.990e+00
0 0 1.800e+00
0 0 1.660e+00
0 0 0
1 2 8.8200002e-04
1 3 2.6010000e-04
1 4 9.0599999e-02
1 5 2.2499999e-01
1 6 4.3340000e+07
1 7 4.3940000e+07
1 8 4.4280000e+07
2 3 3.3500001e-07
2 4 1.6300000e-01
2 5 1.3300000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 7.7900000e-02
3 5 1.7900001e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 1.0300000e-06
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
����������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/sii_alternatives/sii_TZ10_PKW09.dat�����������������������������������������0000664�0000000�0000000�00000011766�12714613141�0023527�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: TZ10
%transition probabilities: PKW09
8 11
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
5000.35
6998.42
10000
14996.8
19998.6
25003.5
29991.6
39994.5
50003.5
69984.2
100000
0
1 2 2.660e+00
0 0 2.620e+00
0 0 2.560e+00
0 0 2.480e+00
0 0 2.410e+00
0 0 2.350e+00
0 0 2.300e+00
0 0 2.200e+00
0 0 2.100e+00
0 0 1.930e+00
0 0 1.710e+00
1 3 3.980e+00
0 0 3.910e+00
0 0 3.830e+00
0 0 3.710e+00
0 0 3.610e+00
0 0 3.520e+00
0 0 3.440e+00
0 0 3.300e+00
0 0 3.160e+00
0 0 2.900e+00
0 0 2.580e+00
1 4 6.860e-01
0 0 6.940e-01
0 0 7.040e-01
0 0 7.170e-01
0 0 7.270e-01
0 0 7.330e-01
0 0 7.360e-01
0 0 7.300e-01
0 0 7.150e-01
0 0 6.700e-01
0 0 5.970e-01
1 5 1.380e+00
0 0 1.390e+00
0 0 1.420e+00
0 0 1.440e+00
0 0 1.460e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.430e+00
0 0 1.340e+00
0 0 1.190e+00
1 6 2.250e+00
0 0 2.360e+00
0 0 2.540e+00
0 0 2.750e+00
0 0 2.840e+00
0 0 2.850e+00
0 0 2.820e+00
0 0 2.720e+00
0 0 2.600e+00
0 0 2.400e+00
0 0 2.160e+00
1 7 2.010e+00
0 0 2.090e+00
0 0 2.190e+00
0 0 2.300e+00
0 0 2.310e+00
0 0 2.290e+00
0 0 2.250e+00
0 0 2.150e+00
0 0 2.040e+00
0 0 1.860e+00
0 0 1.670e+00
1 8 9.170e-01
0 0 9.570e-01
0 0 1.020e+00
0 0 1.090e+00
0 0 1.110e+00
0 0 1.110e+00
0 0 1.100e+00
0 0 1.070e+00
0 0 1.020e+00
0 0 9.400e-01
0 0 8.430e-01
2 3 7.320e+00
0 0 7.130e+00
0 0 6.890e+00
0 0 6.580e+00
0 0 6.350e+00
0 0 6.170e+00
0 0 6.020e+00
0 0 5.760e+00
0 0 5.510e+00
0 0 5.060e+00
0 0 4.480e+00
2 4 1.480e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.480e+00
0 0 1.490e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.490e+00
0 0 1.450e+00
2 5 2.400e+00
0 0 2.400e+00
0 0 2.390e+00
0 0 2.390e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.360e+00
0 0 2.330e+00
0 0 2.250e+00
0 0 2.130e+00
2 6 4.400e-01
0 0 4.440e-01
0 0 4.530e-01
0 0 4.630e-01
0 0 4.640e-01
0 0 4.620e-01
0 0 4.570e-01
0 0 4.430e-01
0 0 4.280e-01
0 0 3.990e-01
0 0 3.600e-01
2 7 7.000e-01
0 0 7.060e-01
0 0 7.120e-01
0 0 7.080e-01
0 0 6.950e-01
0 0 6.780e-01
0 0 6.600e-01
0 0 6.260e-01
0 0 5.960e-01
0 0 5.480e-01
0 0 4.950e-01
2 8 4.510e-01
0 0 4.580e-01
0 0 4.650e-01
0 0 4.670e-01
0 0 4.610e-01
0 0 4.510e-01
0 0 4.400e-01
0 0 4.190e-01
0 0 3.990e-01
0 0 3.670e-01
0 0 3.320e-01
3 4 1.790e+00
0 0 1.780e+00
0 0 1.780e+00
0 0 1.770e+00
0 0 1.760e+00
0 0 1.760e+00
0 0 1.750e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.630e+00
0 0 1.530e+00
3 5 4.070e+00
0 0 4.070e+00
0 0 4.060e+00
0 0 4.060e+00
0 0 4.070e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.060e+00
0 0 3.970e+00
0 0 3.830e+00
3 6 1.540e+00
0 0 1.560e+00
0 0 1.580e+00
0 0 1.580e+00
0 0 1.550e+00
0 0 1.520e+00
0 0 1.480e+00
0 0 1.410e+00
0 0 1.350e+00
0 0 1.240e+00
0 0 1.130e+00
3 7 6.280e-01
0 0 6.400e-01
0 0 6.540e-01
0 0 6.600e-01
0 0 6.530e-01
0 0 6.410e-01
0 0 6.270e-01
0 0 5.980e-01
0 0 5.710e-01
0 0 5.250e-01
0 0 4.720e-01
3 8 1.690e-01
0 0 1.800e-01
0 0 1.930e-01
0 0 2.050e-01
0 0 2.090e-01
0 0 2.090e-01
0 0 2.070e-01
0 0 2.000e-01
0 0 1.930e-01
0 0 1.770e-01
0 0 1.570e-01
4 5 1.760e+00
0 0 1.780e+00
0 0 1.800e+00
0 0 1.820e+00
0 0 1.840e+00
0 0 1.850e+00
0 0 1.860e+00
0 0 1.840e+00
0 0 1.800e+00
0 0 1.700e+00
0 0 1.540e+00
4 6 2.330e-01
0 0 2.450e-01
0 0 2.600e-01
0 0 2.740e-01
0 0 2.790e-01
0 0 2.800e-01
0 0 2.780e-01
0 0 2.710e-01
0 0 2.630e-01
0 0 2.480e-01
0 0 2.280e-01
4 7 3.280e-01
0 0 3.390e-01
0 0 3.520e-01
0 0 3.630e-01
0 0 3.660e-01
0 0 3.650e-01
0 0 3.620e-01
0 0 3.540e-01
0 0 3.450e-01
0 0 3.280e-01
0 0 3.070e-01
4 8 2.100e-01
0 0 2.190e-01
0 0 2.300e-01
0 0 2.410e-01
0 0 2.450e-01
0 0 2.460e-01
0 0 2.450e-01
0 0 2.400e-01
0 0 2.350e-01
0 0 2.240e-01
0 0 2.100e-01
5 6 8.800e-01
0 0 9.050e-01
0 0 9.360e-01
0 0 9.650e-01
0 0 9.740e-01
0 0 9.730e-01
0 0 9.660e-01
0 0 9.470e-01
0 0 9.270e-01
0 0 8.870e-01
0 0 8.320e-01
5 7 4.700e-01
0 0 4.920e-01
0 0 5.160e-01
0 0 5.380e-01
0 0 5.450e-01
0 0 5.440e-01
0 0 5.390e-01
0 0 5.250e-01
0 0 5.100e-01
0 0 4.830e-01
0 0 4.480e-01
5 8 1.810e-01
0 0 1.960e-01
0 0 2.140e-01
0 0 2.310e-01
0 0 2.380e-01
0 0 2.400e-01
0 0 2.390e-01
0 0 2.340e-01
0 0 2.280e-01
0 0 2.140e-01
0 0 1.970e-01
6 7 5.690e+00
0 0 5.590e+00
0 0 5.440e+00
0 0 5.220e+00
0 0 5.030e+00
0 0 4.860e+00
0 0 4.710e+00
0 0 4.470e+00
0 0 4.270e+00
0 0 3.950e+00
0 0 3.610e+00
6 8 2.090e+00
0 0 2.050e+00
0 0 1.990e+00
0 0 1.890e+00
0 0 1.800e+00
0 0 1.710e+00
0 0 1.640e+00
0 0 1.510e+00
0 0 1.420e+00
0 0 1.290e+00
0 0 1.170e+00
0 0 0
1 2 6.8400003e-04
1 3 2.0189999e-04
1 4 7.7200003e-02
1 5 1.9200000e-01
1 6 5.1000000e+07
1 7 5.1200000e+07
1 8 5.1300000e+07
2 3 3.4600001e-07
2 4 1.4240000e-01
2 5 1.1480000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 6.8099998e-02
3 5 1.5670000e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 9.1400000e-07
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
����������NEAT-master/Atomic-data/sii_alternatives/sii_TZ10_TZ10-PKW09.dat������������������������������������0000664�0000000�0000000�00000011773�12714613141�0024221�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: TZ10
%transition probabilities: TZ10-PKW09
8 11
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
5000.35
6998.42
10000
14996.8
19998.6
25003.5
29991.6
39994.5
50003.5
69984.2
100000
0
1 2 2.660e+00
0 0 2.620e+00
0 0 2.560e+00
0 0 2.480e+00
0 0 2.410e+00
0 0 2.350e+00
0 0 2.300e+00
0 0 2.200e+00
0 0 2.100e+00
0 0 1.930e+00
0 0 1.710e+00
1 3 3.980e+00
0 0 3.910e+00
0 0 3.830e+00
0 0 3.710e+00
0 0 3.610e+00
0 0 3.520e+00
0 0 3.440e+00
0 0 3.300e+00
0 0 3.160e+00
0 0 2.900e+00
0 0 2.580e+00
1 4 6.860e-01
0 0 6.940e-01
0 0 7.040e-01
0 0 7.170e-01
0 0 7.270e-01
0 0 7.330e-01
0 0 7.360e-01
0 0 7.300e-01
0 0 7.150e-01
0 0 6.700e-01
0 0 5.970e-01
1 5 1.380e+00
0 0 1.390e+00
0 0 1.420e+00
0 0 1.440e+00
0 0 1.460e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.430e+00
0 0 1.340e+00
0 0 1.190e+00
1 6 2.250e+00
0 0 2.360e+00
0 0 2.540e+00
0 0 2.750e+00
0 0 2.840e+00
0 0 2.850e+00
0 0 2.820e+00
0 0 2.720e+00
0 0 2.600e+00
0 0 2.400e+00
0 0 2.160e+00
1 7 2.010e+00
0 0 2.090e+00
0 0 2.190e+00
0 0 2.300e+00
0 0 2.310e+00
0 0 2.290e+00
0 0 2.250e+00
0 0 2.150e+00
0 0 2.040e+00
0 0 1.860e+00
0 0 1.670e+00
1 8 9.170e-01
0 0 9.570e-01
0 0 1.020e+00
0 0 1.090e+00
0 0 1.110e+00
0 0 1.110e+00
0 0 1.100e+00
0 0 1.070e+00
0 0 1.020e+00
0 0 9.400e-01
0 0 8.430e-01
2 3 7.320e+00
0 0 7.130e+00
0 0 6.890e+00
0 0 6.580e+00
0 0 6.350e+00
0 0 6.170e+00
0 0 6.020e+00
0 0 5.760e+00
0 0 5.510e+00
0 0 5.060e+00
0 0 4.480e+00
2 4 1.480e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.480e+00
0 0 1.490e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.490e+00
0 0 1.450e+00
2 5 2.400e+00
0 0 2.400e+00
0 0 2.390e+00
0 0 2.390e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.360e+00
0 0 2.330e+00
0 0 2.250e+00
0 0 2.130e+00
2 6 4.400e-01
0 0 4.440e-01
0 0 4.530e-01
0 0 4.630e-01
0 0 4.640e-01
0 0 4.620e-01
0 0 4.570e-01
0 0 4.430e-01
0 0 4.280e-01
0 0 3.990e-01
0 0 3.600e-01
2 7 7.000e-01
0 0 7.060e-01
0 0 7.120e-01
0 0 7.080e-01
0 0 6.950e-01
0 0 6.780e-01
0 0 6.600e-01
0 0 6.260e-01
0 0 5.960e-01
0 0 5.480e-01
0 0 4.950e-01
2 8 4.510e-01
0 0 4.580e-01
0 0 4.650e-01
0 0 4.670e-01
0 0 4.610e-01
0 0 4.510e-01
0 0 4.400e-01
0 0 4.190e-01
0 0 3.990e-01
0 0 3.670e-01
0 0 3.320e-01
3 4 1.790e+00
0 0 1.780e+00
0 0 1.780e+00
0 0 1.770e+00
0 0 1.760e+00
0 0 1.760e+00
0 0 1.750e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.630e+00
0 0 1.530e+00
3 5 4.070e+00
0 0 4.070e+00
0 0 4.060e+00
0 0 4.060e+00
0 0 4.070e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.060e+00
0 0 3.970e+00
0 0 3.830e+00
3 6 1.540e+00
0 0 1.560e+00
0 0 1.580e+00
0 0 1.580e+00
0 0 1.550e+00
0 0 1.520e+00
0 0 1.480e+00
0 0 1.410e+00
0 0 1.350e+00
0 0 1.240e+00
0 0 1.130e+00
3 7 6.280e-01
0 0 6.400e-01
0 0 6.540e-01
0 0 6.600e-01
0 0 6.530e-01
0 0 6.410e-01
0 0 6.270e-01
0 0 5.980e-01
0 0 5.710e-01
0 0 5.250e-01
0 0 4.720e-01
3 8 1.690e-01
0 0 1.800e-01
0 0 1.930e-01
0 0 2.050e-01
0 0 2.090e-01
0 0 2.090e-01
0 0 2.070e-01
0 0 2.000e-01
0 0 1.930e-01
0 0 1.770e-01
0 0 1.570e-01
4 5 1.760e+00
0 0 1.780e+00
0 0 1.800e+00
0 0 1.820e+00
0 0 1.840e+00
0 0 1.850e+00
0 0 1.860e+00
0 0 1.840e+00
0 0 1.800e+00
0 0 1.700e+00
0 0 1.540e+00
4 6 2.330e-01
0 0 2.450e-01
0 0 2.600e-01
0 0 2.740e-01
0 0 2.790e-01
0 0 2.800e-01
0 0 2.780e-01
0 0 2.710e-01
0 0 2.630e-01
0 0 2.480e-01
0 0 2.280e-01
4 7 3.280e-01
0 0 3.390e-01
0 0 3.520e-01
0 0 3.630e-01
0 0 3.660e-01
0 0 3.650e-01
0 0 3.620e-01
0 0 3.540e-01
0 0 3.450e-01
0 0 3.280e-01
0 0 3.070e-01
4 8 2.100e-01
0 0 2.190e-01
0 0 2.300e-01
0 0 2.410e-01
0 0 2.450e-01
0 0 2.460e-01
0 0 2.450e-01
0 0 2.400e-01
0 0 2.350e-01
0 0 2.240e-01
0 0 2.100e-01
5 6 8.800e-01
0 0 9.050e-01
0 0 9.360e-01
0 0 9.650e-01
0 0 9.740e-01
0 0 9.730e-01
0 0 9.660e-01
0 0 9.470e-01
0 0 9.270e-01
0 0 8.870e-01
0 0 8.320e-01
5 7 4.700e-01
0 0 4.920e-01
0 0 5.160e-01
0 0 5.380e-01
0 0 5.450e-01
0 0 5.440e-01
0 0 5.390e-01
0 0 5.250e-01
0 0 5.100e-01
0 0 4.830e-01
0 0 4.480e-01
5 8 1.810e-01
0 0 1.960e-01
0 0 2.140e-01
0 0 2.310e-01
0 0 2.380e-01
0 0 2.400e-01
0 0 2.390e-01
0 0 2.340e-01
0 0 2.280e-01
0 0 2.140e-01
0 0 1.970e-01
6 7 5.690e+00
0 0 5.590e+00
0 0 5.440e+00
0 0 5.220e+00
0 0 5.030e+00
0 0 4.860e+00
0 0 4.710e+00
0 0 4.470e+00
0 0 4.270e+00
0 0 3.950e+00
0 0 3.610e+00
6 8 2.090e+00
0 0 2.050e+00
0 0 1.990e+00
0 0 1.890e+00
0 0 1.800e+00
0 0 1.710e+00
0 0 1.640e+00
0 0 1.510e+00
0 0 1.420e+00
0 0 1.290e+00
0 0 1.170e+00
0 0 0
1 2 6.3199998e-04
1 3 2.1950000e-04
1 4 7.6399997e-02
1 5 1.9000000e-01
1 6 5.1000000e+07
1 7 5.1200000e+07
1 8 5.1300000e+07
2 3 1.7100000e-07
2 4 1.4740001e-01
2 5 1.1650000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 7.1599998e-02
3 5 1.6050000e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 2.4299999e-07
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
�����NEAT-master/Atomic-data/sii_alternatives/sii_TZ10_VVF96-KHOC93.dat����������������������������������0000664�0000000�0000000�00000011775�12714613141�0024433�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: TZ10
%transition probabilities: VVF96-KHOC93
8 11
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
5000.35
6998.42
10000
14996.8
19998.6
25003.5
29991.6
39994.5
50003.5
69984.2
100000
0
1 2 2.660e+00
0 0 2.620e+00
0 0 2.560e+00
0 0 2.480e+00
0 0 2.410e+00
0 0 2.350e+00
0 0 2.300e+00
0 0 2.200e+00
0 0 2.100e+00
0 0 1.930e+00
0 0 1.710e+00
1 3 3.980e+00
0 0 3.910e+00
0 0 3.830e+00
0 0 3.710e+00
0 0 3.610e+00
0 0 3.520e+00
0 0 3.440e+00
0 0 3.300e+00
0 0 3.160e+00
0 0 2.900e+00
0 0 2.580e+00
1 4 6.860e-01
0 0 6.940e-01
0 0 7.040e-01
0 0 7.170e-01
0 0 7.270e-01
0 0 7.330e-01
0 0 7.360e-01
0 0 7.300e-01
0 0 7.150e-01
0 0 6.700e-01
0 0 5.970e-01
1 5 1.380e+00
0 0 1.390e+00
0 0 1.420e+00
0 0 1.440e+00
0 0 1.460e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.430e+00
0 0 1.340e+00
0 0 1.190e+00
1 6 2.250e+00
0 0 2.360e+00
0 0 2.540e+00
0 0 2.750e+00
0 0 2.840e+00
0 0 2.850e+00
0 0 2.820e+00
0 0 2.720e+00
0 0 2.600e+00
0 0 2.400e+00
0 0 2.160e+00
1 7 2.010e+00
0 0 2.090e+00
0 0 2.190e+00
0 0 2.300e+00
0 0 2.310e+00
0 0 2.290e+00
0 0 2.250e+00
0 0 2.150e+00
0 0 2.040e+00
0 0 1.860e+00
0 0 1.670e+00
1 8 9.170e-01
0 0 9.570e-01
0 0 1.020e+00
0 0 1.090e+00
0 0 1.110e+00
0 0 1.110e+00
0 0 1.100e+00
0 0 1.070e+00
0 0 1.020e+00
0 0 9.400e-01
0 0 8.430e-01
2 3 7.320e+00
0 0 7.130e+00
0 0 6.890e+00
0 0 6.580e+00
0 0 6.350e+00
0 0 6.170e+00
0 0 6.020e+00
0 0 5.760e+00
0 0 5.510e+00
0 0 5.060e+00
0 0 4.480e+00
2 4 1.480e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.480e+00
0 0 1.490e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.490e+00
0 0 1.450e+00
2 5 2.400e+00
0 0 2.400e+00
0 0 2.390e+00
0 0 2.390e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.360e+00
0 0 2.330e+00
0 0 2.250e+00
0 0 2.130e+00
2 6 4.400e-01
0 0 4.440e-01
0 0 4.530e-01
0 0 4.630e-01
0 0 4.640e-01
0 0 4.620e-01
0 0 4.570e-01
0 0 4.430e-01
0 0 4.280e-01
0 0 3.990e-01
0 0 3.600e-01
2 7 7.000e-01
0 0 7.060e-01
0 0 7.120e-01
0 0 7.080e-01
0 0 6.950e-01
0 0 6.780e-01
0 0 6.600e-01
0 0 6.260e-01
0 0 5.960e-01
0 0 5.480e-01
0 0 4.950e-01
2 8 4.510e-01
0 0 4.580e-01
0 0 4.650e-01
0 0 4.670e-01
0 0 4.610e-01
0 0 4.510e-01
0 0 4.400e-01
0 0 4.190e-01
0 0 3.990e-01
0 0 3.670e-01
0 0 3.320e-01
3 4 1.790e+00
0 0 1.780e+00
0 0 1.780e+00
0 0 1.770e+00
0 0 1.760e+00
0 0 1.760e+00
0 0 1.750e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.630e+00
0 0 1.530e+00
3 5 4.070e+00
0 0 4.070e+00
0 0 4.060e+00
0 0 4.060e+00
0 0 4.070e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.060e+00
0 0 3.970e+00
0 0 3.830e+00
3 6 1.540e+00
0 0 1.560e+00
0 0 1.580e+00
0 0 1.580e+00
0 0 1.550e+00
0 0 1.520e+00
0 0 1.480e+00
0 0 1.410e+00
0 0 1.350e+00
0 0 1.240e+00
0 0 1.130e+00
3 7 6.280e-01
0 0 6.400e-01
0 0 6.540e-01
0 0 6.600e-01
0 0 6.530e-01
0 0 6.410e-01
0 0 6.270e-01
0 0 5.980e-01
0 0 5.710e-01
0 0 5.250e-01
0 0 4.720e-01
3 8 1.690e-01
0 0 1.800e-01
0 0 1.930e-01
0 0 2.050e-01
0 0 2.090e-01
0 0 2.090e-01
0 0 2.070e-01
0 0 2.000e-01
0 0 1.930e-01
0 0 1.770e-01
0 0 1.570e-01
4 5 1.760e+00
0 0 1.780e+00
0 0 1.800e+00
0 0 1.820e+00
0 0 1.840e+00
0 0 1.850e+00
0 0 1.860e+00
0 0 1.840e+00
0 0 1.800e+00
0 0 1.700e+00
0 0 1.540e+00
4 6 2.330e-01
0 0 2.450e-01
0 0 2.600e-01
0 0 2.740e-01
0 0 2.790e-01
0 0 2.800e-01
0 0 2.780e-01
0 0 2.710e-01
0 0 2.630e-01
0 0 2.480e-01
0 0 2.280e-01
4 7 3.280e-01
0 0 3.390e-01
0 0 3.520e-01
0 0 3.630e-01
0 0 3.660e-01
0 0 3.650e-01
0 0 3.620e-01
0 0 3.540e-01
0 0 3.450e-01
0 0 3.280e-01
0 0 3.070e-01
4 8 2.100e-01
0 0 2.190e-01
0 0 2.300e-01
0 0 2.410e-01
0 0 2.450e-01
0 0 2.460e-01
0 0 2.450e-01
0 0 2.400e-01
0 0 2.350e-01
0 0 2.240e-01
0 0 2.100e-01
5 6 8.800e-01
0 0 9.050e-01
0 0 9.360e-01
0 0 9.650e-01
0 0 9.740e-01
0 0 9.730e-01
0 0 9.660e-01
0 0 9.470e-01
0 0 9.270e-01
0 0 8.870e-01
0 0 8.320e-01
5 7 4.700e-01
0 0 4.920e-01
0 0 5.160e-01
0 0 5.380e-01
0 0 5.450e-01
0 0 5.440e-01
0 0 5.390e-01
0 0 5.250e-01
0 0 5.100e-01
0 0 4.830e-01
0 0 4.480e-01
5 8 1.810e-01
0 0 1.960e-01
0 0 2.140e-01
0 0 2.310e-01
0 0 2.380e-01
0 0 2.400e-01
0 0 2.390e-01
0 0 2.340e-01
0 0 2.280e-01
0 0 2.140e-01
0 0 1.970e-01
6 7 5.690e+00
0 0 5.590e+00
0 0 5.440e+00
0 0 5.220e+00
0 0 5.030e+00
0 0 4.860e+00
0 0 4.710e+00
0 0 4.470e+00
0 0 4.270e+00
0 0 3.950e+00
0 0 3.610e+00
6 8 2.090e+00
0 0 2.050e+00
0 0 1.990e+00
0 0 1.890e+00
0 0 1.800e+00
0 0 1.710e+00
0 0 1.640e+00
0 0 1.510e+00
0 0 1.420e+00
0 0 1.290e+00
0 0 1.170e+00
0 0 0
1 2 8.9000002e-04
1 3 2.7300001e-04
1 4 9.0599999e-02
1 5 2.2499999e-01
1 6 4.3340000e+07
1 7 4.3940000e+07
1 8 4.4280000e+07
2 3 3.3500001e-07
2 4 1.4100000e-01
2 5 1.2100000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 6.2700003e-02
3 5 1.5200000e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 1.0300000e-06
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
���NEAT-master/Atomic-data/sii_alternatives/sii_TZ10_VVF96-M82a.dat������������������������������������0000664�0000000�0000000�00000011773�12714613141�0024240�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
%collision strengths: TZ10
%transition probabilities: VVF96-M82a
8 11
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
6 3s2.3p4 4P5/2
7 3s2.3p4 4P3/2
8 3s2.3p4 4P1/2
5000.35
6998.42
10000
14996.8
19998.6
25003.5
29991.6
39994.5
50003.5
69984.2
100000
0
1 2 2.660e+00
0 0 2.620e+00
0 0 2.560e+00
0 0 2.480e+00
0 0 2.410e+00
0 0 2.350e+00
0 0 2.300e+00
0 0 2.200e+00
0 0 2.100e+00
0 0 1.930e+00
0 0 1.710e+00
1 3 3.980e+00
0 0 3.910e+00
0 0 3.830e+00
0 0 3.710e+00
0 0 3.610e+00
0 0 3.520e+00
0 0 3.440e+00
0 0 3.300e+00
0 0 3.160e+00
0 0 2.900e+00
0 0 2.580e+00
1 4 6.860e-01
0 0 6.940e-01
0 0 7.040e-01
0 0 7.170e-01
0 0 7.270e-01
0 0 7.330e-01
0 0 7.360e-01
0 0 7.300e-01
0 0 7.150e-01
0 0 6.700e-01
0 0 5.970e-01
1 5 1.380e+00
0 0 1.390e+00
0 0 1.420e+00
0 0 1.440e+00
0 0 1.460e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.430e+00
0 0 1.340e+00
0 0 1.190e+00
1 6 2.250e+00
0 0 2.360e+00
0 0 2.540e+00
0 0 2.750e+00
0 0 2.840e+00
0 0 2.850e+00
0 0 2.820e+00
0 0 2.720e+00
0 0 2.600e+00
0 0 2.400e+00
0 0 2.160e+00
1 7 2.010e+00
0 0 2.090e+00
0 0 2.190e+00
0 0 2.300e+00
0 0 2.310e+00
0 0 2.290e+00
0 0 2.250e+00
0 0 2.150e+00
0 0 2.040e+00
0 0 1.860e+00
0 0 1.670e+00
1 8 9.170e-01
0 0 9.570e-01
0 0 1.020e+00
0 0 1.090e+00
0 0 1.110e+00
0 0 1.110e+00
0 0 1.100e+00
0 0 1.070e+00
0 0 1.020e+00
0 0 9.400e-01
0 0 8.430e-01
2 3 7.320e+00
0 0 7.130e+00
0 0 6.890e+00
0 0 6.580e+00
0 0 6.350e+00
0 0 6.170e+00
0 0 6.020e+00
0 0 5.760e+00
0 0 5.510e+00
0 0 5.060e+00
0 0 4.480e+00
2 4 1.480e+00
0 0 1.480e+00
0 0 1.470e+00
0 0 1.480e+00
0 0 1.480e+00
0 0 1.490e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.500e+00
0 0 1.490e+00
0 0 1.450e+00
2 5 2.400e+00
0 0 2.400e+00
0 0 2.390e+00
0 0 2.390e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.380e+00
0 0 2.360e+00
0 0 2.330e+00
0 0 2.250e+00
0 0 2.130e+00
2 6 4.400e-01
0 0 4.440e-01
0 0 4.530e-01
0 0 4.630e-01
0 0 4.640e-01
0 0 4.620e-01
0 0 4.570e-01
0 0 4.430e-01
0 0 4.280e-01
0 0 3.990e-01
0 0 3.600e-01
2 7 7.000e-01
0 0 7.060e-01
0 0 7.120e-01
0 0 7.080e-01
0 0 6.950e-01
0 0 6.780e-01
0 0 6.600e-01
0 0 6.260e-01
0 0 5.960e-01
0 0 5.480e-01
0 0 4.950e-01
2 8 4.510e-01
0 0 4.580e-01
0 0 4.650e-01
0 0 4.670e-01
0 0 4.610e-01
0 0 4.510e-01
0 0 4.400e-01
0 0 4.190e-01
0 0 3.990e-01
0 0 3.670e-01
0 0 3.320e-01
3 4 1.790e+00
0 0 1.780e+00
0 0 1.780e+00
0 0 1.770e+00
0 0 1.760e+00
0 0 1.760e+00
0 0 1.750e+00
0 0 1.730e+00
0 0 1.700e+00
0 0 1.630e+00
0 0 1.530e+00
3 5 4.070e+00
0 0 4.070e+00
0 0 4.060e+00
0 0 4.060e+00
0 0 4.070e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.080e+00
0 0 4.060e+00
0 0 3.970e+00
0 0 3.830e+00
3 6 1.540e+00
0 0 1.560e+00
0 0 1.580e+00
0 0 1.580e+00
0 0 1.550e+00
0 0 1.520e+00
0 0 1.480e+00
0 0 1.410e+00
0 0 1.350e+00
0 0 1.240e+00
0 0 1.130e+00
3 7 6.280e-01
0 0 6.400e-01
0 0 6.540e-01
0 0 6.600e-01
0 0 6.530e-01
0 0 6.410e-01
0 0 6.270e-01
0 0 5.980e-01
0 0 5.710e-01
0 0 5.250e-01
0 0 4.720e-01
3 8 1.690e-01
0 0 1.800e-01
0 0 1.930e-01
0 0 2.050e-01
0 0 2.090e-01
0 0 2.090e-01
0 0 2.070e-01
0 0 2.000e-01
0 0 1.930e-01
0 0 1.770e-01
0 0 1.570e-01
4 5 1.760e+00
0 0 1.780e+00
0 0 1.800e+00
0 0 1.820e+00
0 0 1.840e+00
0 0 1.850e+00
0 0 1.860e+00
0 0 1.840e+00
0 0 1.800e+00
0 0 1.700e+00
0 0 1.540e+00
4 6 2.330e-01
0 0 2.450e-01
0 0 2.600e-01
0 0 2.740e-01
0 0 2.790e-01
0 0 2.800e-01
0 0 2.780e-01
0 0 2.710e-01
0 0 2.630e-01
0 0 2.480e-01
0 0 2.280e-01
4 7 3.280e-01
0 0 3.390e-01
0 0 3.520e-01
0 0 3.630e-01
0 0 3.660e-01
0 0 3.650e-01
0 0 3.620e-01
0 0 3.540e-01
0 0 3.450e-01
0 0 3.280e-01
0 0 3.070e-01
4 8 2.100e-01
0 0 2.190e-01
0 0 2.300e-01
0 0 2.410e-01
0 0 2.450e-01
0 0 2.460e-01
0 0 2.450e-01
0 0 2.400e-01
0 0 2.350e-01
0 0 2.240e-01
0 0 2.100e-01
5 6 8.800e-01
0 0 9.050e-01
0 0 9.360e-01
0 0 9.650e-01
0 0 9.740e-01
0 0 9.730e-01
0 0 9.660e-01
0 0 9.470e-01
0 0 9.270e-01
0 0 8.870e-01
0 0 8.320e-01
5 7 4.700e-01
0 0 4.920e-01
0 0 5.160e-01
0 0 5.380e-01
0 0 5.450e-01
0 0 5.440e-01
0 0 5.390e-01
0 0 5.250e-01
0 0 5.100e-01
0 0 4.830e-01
0 0 4.480e-01
5 8 1.810e-01
0 0 1.960e-01
0 0 2.140e-01
0 0 2.310e-01
0 0 2.380e-01
0 0 2.400e-01
0 0 2.390e-01
0 0 2.340e-01
0 0 2.280e-01
0 0 2.140e-01
0 0 1.970e-01
6 7 5.690e+00
0 0 5.590e+00
0 0 5.440e+00
0 0 5.220e+00
0 0 5.030e+00
0 0 4.860e+00
0 0 4.710e+00
0 0 4.470e+00
0 0 4.270e+00
0 0 3.950e+00
0 0 3.610e+00
6 8 2.090e+00
0 0 2.050e+00
0 0 1.990e+00
0 0 1.890e+00
0 0 1.800e+00
0 0 1.710e+00
0 0 1.640e+00
0 0 1.510e+00
0 0 1.420e+00
0 0 1.290e+00
0 0 1.170e+00
0 0 0
1 2 8.8200002e-04
1 3 2.6010000e-04
1 4 9.0599999e-02
1 5 2.2499999e-01
1 6 4.3340000e+07
1 7 4.3940000e+07
1 8 4.4280000e+07
2 3 3.3500001e-07
2 4 1.6300000e-01
2 5 1.3300000e-01
2 6 0.0000000e+00
2 7 0.0000000e+00
2 8 0.0000000e+00
3 4 7.7900000e-02
3 5 1.7900001e-01
3 6 0.0000000e+00
3 7 0.0000000e+00
3 8 0.0000000e+00
4 5 1.0300000e-06
4 6 0.0000000e+00
4 7 0.0000000e+00
4 8 0.0000000e+00
5 6 0.0000000e+00
5 7 0.0000000e+00
5 8 0.0000000e+00
6 7 0.0000000e+00
6 8 0.0000000e+00
7 8 0.0000000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
6 6 79395.4
7 4 79756.8
8 2 79962.6
�����NEAT-master/Atomic-data/sii_alternatives/sii_original.dat�������������������������������������������0000664�0000000�0000000�00000016327�12714613141�0023741�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 45
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995, NIST Database
for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61
%theoretical energy levels: Ramsbottom C.A., Bell K.L., Stafford R.P., 1996, ADNDT, 63, 57
%comment:
This file has been modified from the one in v.2 of the database.
Levels 6, 7 and 8, and levels 11 and 12 have been reversed to
match the ordering of Ramsbottom et al. Also the theoretical
energies are now those of Ramsbottom et al. These energies are
from LS coupling and so there is no fine structure splitting.
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young, Feb 2000
%filename: s_2.wgfa
%observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995, NIST Database
for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61
%A-values: Nahar, S., private communication, 2001
%A-values: Ground transitions: Binello, A.M., private communication
%A-values: 3 - 19; all transitions involving level 40: Young, P.R., SSTRUCT calculation
%A-values: 8 - 19, 10 - 19, 18 - 19: Binello, A.M.
%comment: Sultana Nahar provided A-values for all allowed transitions. This
work was an extension of the work presented in ADNDT 68, 183, 1998,
and includes extra intercombination decays.
For the forbidden transitions amongst the ground levels, the A-values
of A.M. Binello used in earlier versions of CHIANTI are retained.
Level 19 is metastable and 3 forbidden transitions calculated by A.M.
Binello are retained, together with 1 forbidden transition calculated
by P.R. Young. Level 40 is also metastable and A-values have been
calculated by P.R. Young using SSTRUCT.
%comment: PRY, 6-Mar-03: levels 11 and 12 had been mixed up for this file.
Affects lines from these levels (1096, 1102 A)
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young, Mar 2003
%filename: s_2.splups
%oscillator strengths: from .wgfa file
%effective collision strengths: Ramsbottom C.A., Bell K.L., Stafford R.P., 1996, ADNDT 63, 57
%comment: Ramsbottom et al. gave only LS energy levels, and so where
transitions occur between levels of the same LS numbers, the
Delta-E would be zero. For these cases I've used the observed
energy level splitting.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young - Dec 2001
5 23
1 3s2.3p3 4S3/2
2 3s2.3p3 2D3/2
3 3s2.3p3 2D5/2
4 3s2.3p3 2P1/2
5 3s2.3p3 2P3/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 3.39e+00
0 0 3.39e+00
0 0 3.38e+00
0 0 3.37e+00
0 0 3.35e+00
0 0 3.32e+00
0 0 3.27e+00
0 0 3.20e+00
0 0 3.10e+00
0 0 2.96e+00
0 0 2.78e+00
0 0 2.56e+00
0 0 2.35e+00
0 0 2.17e+00
0 0 1.97e+00
0 0 1.70e+00
0 0 1.37e+00
0 0 1.09e+00
0 0 8.68e-01
0 0 7.14e-01
0 0 6.10e-01
0 0 5.43e-01
0 0 4.99e-01
1 3 5.09e+00
0 0 5.08e+00
0 0 5.07e+00
0 0 5.05e+00
0 0 5.02e+00
0 0 4.98e+00
0 0 4.91e+00
0 0 4.81e+00
0 0 4.65e+00
0 0 4.44e+00
0 0 4.16e+00
0 0 3.84e+00
0 0 3.54e+00
0 0 3.25e+00
0 0 2.94e+00
0 0 2.55e+00
0 0 2.09e+00
0 0 1.66e+00
0 0 1.32e+00
0 0 1.08e+00
0 0 9.12e-01
0 0 8.03e-01
0 0 7.32e-01
1 4 1.08e+00
0 0 1.08e+00
0 0 1.09e+00
0 0 1.10e+00
0 0 1.12e+00
0 0 1.14e+00
0 0 1.18e+00
0 0 1.21e+00
0 0 1.24e+00
0 0 1.22e+00
0 0 1.17e+00
0 0 1.11e+00
0 0 1.04e+00
0 0 9.65e-01
0 0 8.57e-01
0 0 7.22e-01
0 0 5.65e-01
0 0 4.19e-01
0 0 3.08e-01
0 0 2.32e-01
0 0 1.81e-01
0 0 1.48e-01
0 0 1.27e-01
1 5 2.16e+00
0 0 2.17e+00
0 0 2.18e+00
0 0 2.20e+00
0 0 2.23e+00
0 0 2.28e+00
0 0 2.35e+00
0 0 2.43e+00
0 0 2.47e+00
0 0 2.43e+00
0 0 2.35e+00
0 0 2.22e+00
0 0 2.09e+00
0 0 1.93e+00
0 0 1.72e+00
0 0 1.45e+00
0 0 1.15e+00
0 0 8.68e-01
0 0 6.50e-01
0 0 4.98e-01
0 0 3.98e-01
0 0 3.32e-01
0 0 2.91e-01
2 3 7.39e+00
0 0 7.40e+00
0 0 7.43e+00
0 0 7.47e+00
0 0 7.53e+00
0 0 7.62e+00
0 0 7.75e+00
0 0 7.90e+00
0 0 8.01e+00
0 0 7.88e+00
0 0 7.46e+00
0 0 6.95e+00
0 0 6.41e+00
0 0 5.93e+00
0 0 5.38e+00
0 0 4.79e+00
0 0 4.14e+00
0 0 3.44e+00
0 0 2.85e+00
0 0 2.41e+00
0 0 2.11e+00
0 0 1.92e+00
0 0 1.79e+00
2 4 2.41e+00
0 0 2.40e+00
0 0 2.39e+00
0 0 2.38e+00
0 0 2.36e+00
0 0 2.32e+00
0 0 2.26e+00
0 0 2.19e+00
0 0 2.08e+00
0 0 1.94e+00
0 0 1.80e+00
0 0 1.66e+00
0 0 1.57e+00
0 0 1.50e+00
0 0 1.46e+00
0 0 1.42e+00
0 0 1.39e+00
0 0 1.37e+00
0 0 1.36e+00
0 0 1.35e+00
0 0 1.35e+00
0 0 1.34e+00
0 0 1.34e+00
2 5 3.64e+00
0 0 3.63e+00
0 0 3.62e+00
0 0 3.61e+00
0 0 3.58e+00
0 0 3.55e+00
0 0 3.50e+00
0 0 3.42e+00
0 0 3.31e+00
0 0 3.17e+00
0 0 3.00e+00
0 0 2.82e+00
0 0 2.67e+00
0 0 2.55e+00
0 0 2.41e+00
0 0 2.24e+00
0 0 2.09e+00
0 0 1.97e+00
0 0 1.88e+00
0 0 1.82e+00
0 0 1.78e+00
0 0 1.76e+00
0 0 1.74e+00
3 4 2.62e+00
0 0 2.62e+00
0 0 2.61e+00
0 0 2.61e+00
0 0 2.59e+00
0 0 2.57e+00
0 0 2.54e+00
0 0 2.49e+00
0 0 2.42e+00
0 0 2.32e+00
0 0 2.20e+00
0 0 2.08e+00
0 0 1.97e+00
0 0 1.87e+00
0 0 1.77e+00
0 0 1.65e+00
0 0 1.53e+00
0 0 1.43e+00
0 0 1.36e+00
0 0 1.31e+00
0 0 1.27e+00
0 0 1.25e+00
0 0 1.23e+00
3 5 6.43e+00
0 0 6.42e+00
0 0 6.40e+00
0 0 6.36e+00
0 0 6.31e+00
0 0 6.23e+00
0 0 6.11e+00
0 0 5.93e+00
0 0 5.67e+00
0 0 5.35e+00
0 0 4.99e+00
0 0 4.66e+00
0 0 4.40e+00
0 0 4.20e+00
0 0 4.03e+00
0 0 3.88e+00
0 0 3.75e+00
0 0 3.65e+00
0 0 3.58e+00
0 0 3.54e+00
0 0 3.51e+00
0 0 3.49e+00
0 0 3.48e+00
4 5 3.05e+00
0 0 3.05e+00
0 0 3.05e+00
0 0 3.06e+00
0 0 3.06e+00
0 0 3.07e+00
0 0 3.08e+00
0 0 3.08e+00
0 0 3.04e+00
0 0 2.91e+00
0 0 2.71e+00
0 0 2.51e+00
0 0 2.31e+00
0 0 2.16e+00
0 0 2.00e+00
0 0 1.85e+00
0 0 1.68e+00
0 0 1.48e+00
0 0 1.30e+00
0 0 1.17e+00
0 0 1.08e+00
0 0 1.02e+00
0 0 9.81e-01
0 0 0
1 2 1.231e-03
1 3 3.338e-04
1 4 1.076e-01
1 5 2.670e-01
2 3 3.452e-07
2 4 1.812e-01
2 5 1.644e-01
3 4 7.506e-02
3 5 1.938e-01
4 5 0.000e+00
1 4 0.0
2 4 14852.9
3 6 14884.7
4 2 24524.8
5 4 24571.5
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Atomic-data/siii.dat��������������������������������������������������������������������0000664�0000000�0000000�00000002657�12714613141�0016662�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������2
Upsilons from Mendoza (1983, Proc.IAU Symp.103,p.143)
Aij's from Mendoza & Zeippen (MNRAS,199,1025,1982)
5 4 0
1 3p2 3P0
2 3P1
3 3P2
4 1D2
5 1S0
5000
10000
15000
20000
0
1 2 2.64 5000.0
0 0 2.59 10000.0
0 0 2.38 15000.0
0 0 2.20 20000.0
1 3 1.11 5000.0
0 0 1.15 10000.0
0 0 1.15 15000.0
0 0 1.14 20000.0
1 4 1.01 5000.0
0 0 0.932 10000.0
0 0 0.921 15000.0
0 0 0.911 20000.0
1 5 0.129 5000.0
0 0 0.132 10000.0
0 0 0.134 15000.0
0 0 0.138 20000.0
2 3 5.79 5000.0
0 0 5.81 10000.0
0 0 5.56 15000.0
0 0 5.32 20000.0
2 4 3.02 5000.0
0 0 2.80 10000.0
0 0 2.76 15000.0
0 0 2.73 20000.0
2 5 0.387 5000.0
0 0 0.397 10000.0
0 0 0.403 15000.0
0 0 0.413 20000.0
3 4 5.04 5000.0
0 0 4.66 10000.0
0 0 4.61 15000.0
0 0 4.56 20000.0
3 5 0.644 5000.0
0 0 0.661 10000.0
0 0 0.672 15000.0
0 0 0.689 20000.0
4 5 1.42 5000.0
0 0 1.88 10000.0
0 0 2.02 15000.0
0 0 2.08 20000.0
0 0 0
1 2 4.72e-4
1 3 4.61e-8
1 4 5.82e-6
1 5 0.0
2 3 2.07e-3
2 4 2.21e-2
2 5 7.96e-1
3 4 5.76e-2
3 5 1.05e-2
4 5 2.22
1 1 0.0
2 3 297.2
3 5 832.5
4 5 11320.
5 1 27163.
���������������������������������������������������������������������������������NEAT-master/Atomic-data/siv.dat���������������������������������������������������������������������0000664�0000000�0000000�00000055676�12714613141�0016537�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 47
** Atomic data from version 7 of the CHIANTI database **
%observed energy levels: Fuhr, J.R. et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999,
NIST Physical Reference Data
%theoretical energy levels: Tayal S.S., 2000, ApJ, 530, 1091
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young, Feb 2000
%filename: s_4.wgfa
%observed energy levels: Fuhr, J.R. et al., "NIST Atomic Spectra Database" Ver. 2.0, March 1999,
NIST Physical Reference Data
%A-values all allowed transitions between 3s2.3p and 3s.3p^2, 3s2.3d, 3s2.4s
configurations (levels up to 13): Hibbert, A., Brage, T., Fleming, J. 2002, MNRAS 333, 885
%A-values all other allowed transitions: Tayal S.S., J.Phys.B 32, 5311, 1999
%A-values ground transition: Johnson C.T., Kingston A.E., Dufton P.L., MNRAS 220, 155, 1986
%A-values transitions involving levels 17 to 20: Young P.R., unpublished Superstructure calculation
%comment: An error in Table 7 of Hibbert et al. 2002 has been corrected. The A-value for
the 2-6 transition is given as 2.251(+8) when it should be 2.251(+7).
%comment: Note that Tayal gives f values rather than gf values so I had to multiply his
numbers by the stat. weight of the lower level.
%comment: No A-values are available in the literature for the 4F levels 17 to 20. I've run
Superstructure with a model of the ion containing the 10 configurations of Tayal's model.
The gf and A-values were computed with observed energy levels.
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% P.R. Young - Jan. 2003
%filename: s_4.upsdat
%oscillator strengths: Tayal S.S., 1999, J.Phys.B, 32, 5311
%effective collision strengths: Tayal S.S., 2000, ApJ, 530, 1091
%comment: The upsilons provided by Tayal were only given to 3 decimal places
and so where the upsilons are small, accuracy is lost.
I have not fitted the transitions from levels 3 to 5 up to levels 51
to 52, as the decimal place problem is particularly bad for these
transitions.
I have fitted all transitions involving levels 1 to 5, and level 20
(other than the ones mentioned above). Level 20 is metastable.
Tayal only tabulates transitions from levels 1 to 10 to higher levels.
The transitions from levels 11-52 to level 20 may have a significant
affect on the level balance.
In general, there were no problems in fitting this data-set. However
the allowed transitions between levels 3 to 5 and levels 40 to 42 had
high temperature limit points that were significantly higher than
suggested by the actual upsilons (around a factor 2 higher).
%comment: effective collision strengths were provided in the temperature range 4.0 < Log T < 5.6
%produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
%
% Peter Young, Jul 2000
12 23
1 3s2.3p 2P1/2
2 3s2.3p 2P3/2
3 3s.3p2 4P1/2
4 3s.3p2 4P3/2
5 3s.3p2 4P5/2
6 3s.3p2 2D3/2
7 3s.3p2 2D5/2
8 3s.3p2 2S1/2
9 3s.3p2 2P1/2
10 3s.3p2 2P3/2
11 3s2.3d 2D3/2
12 3s2.3d 2D5/2
100.0
158.5
251.2
398.1
631.0
1000.0
1584.9
2511.9
3981.1
6309.6
10000.0
15848.9
25118.9
39810.7
63095.8
100000.0
158489.2
251188.7
398107.1
630957.6
1000000.0
1584892.5
2511887.0
0
1 2 8.51e+00
0 0 8.51e+00
0 0 8.52e+00
0 0 8.52e+00
0 0 8.52e+00
0 0 8.53e+00
0 0 8.53e+00
0 0 8.54e+00
0 0 8.56e+00
0 0 8.57e+00
0 0 8.55e+00
0 0 8.44e+00
0 0 8.11e+00
0 0 7.52e+00
0 0 6.79e+00
0 0 5.95e+00
0 0 4.96e+00
0 0 3.92e+00
0 0 3.05e+00
0 0 2.41e+00
0 0 1.96e+00
0 0 1.66e+00
0 0 1.46e+00
1 3 7.17e-01
0 0 7.16e-01
0 0 7.14e-01
0 0 7.12e-01
0 0 7.09e-01
0 0 7.03e-01
0 0 6.95e-01
0 0 6.82e-01
0 0 6.62e-01
0 0 6.33e-01
0 0 5.95e-01
0 0 5.48e-01
0 0 5.00e-01
0 0 4.52e-01
0 0 3.98e-01
0 0 3.33e-01
0 0 2.66e-01
0 0 2.05e-01
0 0 1.57e-01
0 0 1.23e-01
0 0 9.88e-02
0 0 8.29e-02
0 0 7.26e-02
1 4 1.22e+00
0 0 1.22e+00
0 0 1.22e+00
0 0 1.22e+00
0 0 1.21e+00
0 0 1.21e+00
0 0 1.19e+00
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0 0 9.75e-01
0 0 8.92e-01
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0 0 4.58e-01
0 0 3.53e-01
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0 0 1.85e-01
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1 5 1.30e+00
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0 0 1.02e+00
0 0 9.09e-01
0 0 7.76e-01
0 0 6.28e-01
0 0 4.87e-01
0 0 3.65e-01
0 0 2.63e-01
0 0 1.82e-01
0 0 1.23e-01
0 0 8.09e-02
0 0 5.25e-02
1 6 2.16e+00
0 0 2.16e+00
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1 7 1.84e+00
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1 8 1.35e+00
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1 9 2.79e+00
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1 11 3.83e+00
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0 0 3.95e-01
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3 7 7.97e-01
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1 2 0.0
2 4 951.4
3 2 71184.1
4 4 71528.7
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������������������������������������������������������������������NEAT-master/Atomic-data/te_oii.dat������������������������������������������������������������������0000664�0000000�0000000�00000002304�12714613141�0017162�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#data from Fig 2 of McNabb et al 2013 (MNRAS, 428, 3443)
#Each block contains the values of 4649/4089 and 4649/4662
#at the temperature indicated and for densities of
#log(ne)=2.0, 2.4, 2.8, 3.2, 3.6, 4.0, 4.4 and 5.0
#te=2.6 data extracted from fig 2 of McNabb 2013
2.068 1.544
2.074 2.126
2.080 2.582
2.098 3.000
2.110 3.278
2.135 3.430
2.159 3.493
2.354 3.443
#te=2.8
2.098 1.455
2.147 1.949
2.183 2.443
2.202 2.924
2.226 3.303
2.250 3.506
2.299 3.594
2.439 3.544
#te=3.0
2.165 1.303
2.244 1.721
2.299 2.227
2.341 2.772
2.366 3.240
2.390 3.531
2.433 3.670
2.530 3.632
#te=3.2
2.262 1.063
2.348 1.481
2.451 1.974
2.512 2.594
2.536 3.151
2.560 3.506
2.585 3.670
2.621 3.721
#te=3.4
2.360 0.8481
2.500 1.240
2.639 1.721
2.718 2.367
2.755 3.000
2.773 3.455
2.803 3.670
2.828 3.759
#te=3.6
2.481 0.7215
2.682 1.025
2.889 1.481
2.998 2.126
3.034 2.860
3.047 3.379
3.065 3.670
3.113 3.810
#te=3.8
2.633 0.5696
2.901 0.8354
3.199 1.265
3.332 1.924
3.381 2.708
3.399 3.303
3.405 3.658
3.436 3.835
#te=4.0
2.840 0.4556
3.193 0.6835
3.594 1.088
3.782 1.734
3.837 2.569
3.861 3.265
3.861 3.670
3.892 3.911
#te=4.2
3.120 0.3797
3.618 0.5822
4.147 0.9493
4.433 1.594
4.506 2.455
4.518 3.240
4.518 3.721
4.536 4.000
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/LICENSE���������������������������������������������������������������������������������0000664�0000000�0000000�00000104513�12714613141�0014107�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������ GNU GENERAL PUBLIC LICENSE
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for making modifications to it. "Object code" means any non-source
form of a work.
A "Standard Interface" means an interface that either is an official
standard defined by a recognized standards body, or, in the case of
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is widely used among developers working in that language.
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than the work as a whole, that (a) is included in the normal form of
packaging a Major Component, but which is not part of that Major
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implementation is available to the public in source code form. A
"Major Component", in this context, means a major essential component
(kernel, window system, and so on) of the specific operating system
(if any) on which the executable work runs, or a compiler used to
produce the work, or an object code interpreter used to run it.
The "Corresponding Source" for a work in object code form means all
the source code needed to generate, install, and (for an executable
work) run the object code and to modify the work, including scripts to
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programs which are used unmodified in performing those activities but
which are not part of the work. For example, Corresponding Source
includes interface definition files associated with source files for
the work, and the source code for shared libraries and dynamically
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The Corresponding Source need not include anything that users
can regenerate automatically from other parts of the Corresponding
Source.
The Corresponding Source for a work in source code form is that
same work.
2. Basic Permissions.
All rights granted under this License are granted for the term of
copyright on the Program, and are irrevocable provided the stated
conditions are met. This License explicitly affirms your unlimited
permission to run the unmodified Program. The output from running a
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rights of fair use or other equivalent, as provided by copyright law.
You may make, run and propagate covered works that you do not
convey, without conditions so long as your license otherwise remains
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Conveying under any other circumstances is permitted solely under
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No covered work shall be deemed part of an effective technological
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similar laws prohibiting or restricting circumvention of such
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When you convey a covered work, you waive any legal power to forbid
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You may convey verbatim copies of the Program's source code as you
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keep intact all notices stating that this License and any
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keep intact all notices of the absence of any warranty; and give all
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You may charge any price or no price for each copy that you convey,
and you may offer support or warranty protection for a fee.
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produce it from the Program, in the form of source code under the
terms of section 4, provided that you also meet all of these conditions:
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b) The work must carry prominent notices stating that it is
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License will therefore apply, along with any applicable section 7
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A compilation of a covered work with other separate and independent
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used to limit the access or legal rights of the compilation's users
beyond what the individual works permit. Inclusion of a covered work
in an aggregate does not cause this License to apply to the other
parts of the aggregate.
6. Conveying Non-Source Forms.
You may convey a covered work in object code form under the terms
of sections 4 and 5, provided that you also convey the
machine-readable Corresponding Source under the terms of this License,
in one of these ways:
a) Convey the object code in, or embodied in, a physical product
(including a physical distribution medium), accompanied by the
Corresponding Source fixed on a durable physical medium
customarily used for software interchange.
b) Convey the object code in, or embodied in, a physical product
(including a physical distribution medium), accompanied by a
written offer, valid for at least three years and valid for as
long as you offer spare parts or customer support for that product
model, to give anyone who possesses the object code either (1) a
copy of the Corresponding Source for all the software in the
product that is covered by this License, on a durable physical
medium customarily used for software interchange, for a price no
more than your reasonable cost of physically performing this
conveying of source, or (2) access to copy the
Corresponding Source from a network server at no charge.
c) Convey individual copies of the object code with a copy of the
written offer to provide the Corresponding Source. This
alternative is allowed only occasionally and noncommercially, and
only if you received the object code with such an offer, in accord
with subsection 6b.
d) Convey the object code by offering access from a designated
place (gratis or for a charge), and offer equivalent access to the
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Corresponding Source along with the object code. If the place to
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may be on a different server (operated by you or a third party)
that supports equivalent copying facilities, provided you maintain
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you inform other peers where the object code and Corresponding
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A separable portion of the object code, whose source code is excluded
from the Corresponding Source as a System Library, need not be
included in conveying the object code work.
A "User Product" is either (1) a "consumer product", which means any
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into a dwelling. In determining whether a product is a consumer product,
doubtful cases shall be resolved in favor of coverage. For a particular
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"Installation Information" for a User Product means any methods,
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code is in no case prevented or interfered with solely because
modification has been made.
If you convey an object code work under this section in, or with, or
specifically for use in, a User Product, and the conveying occurs as
part of a transaction in which the right of possession and use of the
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Corresponding Source conveyed under this section must be accompanied
by the Installation Information. But this requirement does not apply
if neither you nor any third party retains the ability to install
modified object code on the User Product (for example, the work has
been installed in ROM).
The requirement to provide Installation Information does not include a
requirement to continue to provide support service, warranty, or updates
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the User Product in which it has been modified or installed. Access to a
network may be denied when the modification itself materially and
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protocols for communication across the network.
Corresponding Source conveyed, and Installation Information provided,
in accord with this section must be in a format that is publicly
documented (and with an implementation available to the public in
source code form), and must require no special password or key for
unpacking, reading or copying.
7. Additional Terms.
"Additional permissions" are terms that supplement the terms of this
License by making exceptions from one or more of its conditions.
Additional permissions that are applicable to the entire Program shall
be treated as though they were included in this License, to the extent
that they are valid under applicable law. If additional permissions
apply only to part of the Program, that part may be used separately
under those permissions, but the entire Program remains governed by
this License without regard to the additional permissions.
When you convey a copy of a covered work, you may at your option
remove any additional permissions from that copy, or from any part of
it. (Additional permissions may be written to require their own
removal in certain cases when you modify the work.) You may place
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for which you have or can give appropriate copyright permission.
Notwithstanding any other provision of this License, for material you
add to a covered work, you may (if authorized by the copyright holders of
that material) supplement the terms of this License with terms:
a) Disclaiming warranty or limiting liability differently from the
terms of sections 15 and 16 of this License; or
b) Requiring preservation of specified reasonable legal notices or
author attributions in that material or in the Appropriate Legal
Notices displayed by works containing it; or
c) Prohibiting misrepresentation of the origin of that material, or
requiring that modified versions of such material be marked in
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d) Limiting the use for publicity purposes of names of licensors or
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it) with contractual assumptions of liability to the recipient, for
any liability that these contractual assumptions directly impose on
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All other non-permissive additional terms are considered "further
restrictions" within the meaning of section 10. If the Program as you
received it, or any part of it, contains a notice stating that it is
governed by this License along with a term that is a further
restriction, you may remove that term. If a license document contains
a further restriction but permits relicensing or conveying under this
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of that license document, provided that the further restriction does
not survive such relicensing or conveying.
If you add terms to a covered work in accord with this section, you
must place, in the relevant source files, a statement of the
additional terms that apply to those files, or a notice indicating
where to find the applicable terms.
Additional terms, permissive or non-permissive, may be stated in the
form of a separately written license, or stated as exceptions;
the above requirements apply either way.
8. Termination.
You may not propagate or modify a covered work except as expressly
provided under this License. Any attempt otherwise to propagate or
modify it is void, and will automatically terminate your rights under
this License (including any patent licenses granted under the third
paragraph of section 11).
However, if you cease all violation of this License, then your
license from a particular copyright holder is reinstated (a)
provisionally, unless and until the copyright holder explicitly and
finally terminates your license, and (b) permanently, if the copyright
holder fails to notify you of the violation by some reasonable means
prior to 60 days after the cessation.
Moreover, your license from a particular copyright holder is
reinstated permanently if the copyright holder notifies you of the
violation by some reasonable means, this is the first time you have
received notice of violation of this License (for any work) from that
copyright holder, and you cure the violation prior to 30 days after
your receipt of the notice.
Termination of your rights under this section does not terminate the
licenses of parties who have received copies or rights from you under
this License. If your rights have been terminated and not permanently
reinstated, you do not qualify to receive new licenses for the same
material under section 10.
9. Acceptance Not Required for Having Copies.
You are not required to accept this License in order to receive or
run a copy of the Program. Ancillary propagation of a covered work
occurring solely as a consequence of using peer-to-peer transmission
to receive a copy likewise does not require acceptance. However,
nothing other than this License grants you permission to propagate or
modify any covered work. These actions infringe copyright if you do
not accept this License. Therefore, by modifying or propagating a
covered work, you indicate your acceptance of this License to do so.
10. Automatic Licensing of Downstream Recipients.
Each time you convey a covered work, the recipient automatically
receives a license from the original licensors, to run, modify and
propagate that work, subject to this License. You are not responsible
for enforcing compliance by third parties with this License.
An "entity transaction" is a transaction transferring control of an
organization, or substantially all assets of one, or subdividing an
organization, or merging organizations. If propagation of a covered
work results from an entity transaction, each party to that
transaction who receives a copy of the work also receives whatever
licenses to the work the party's predecessor in interest had or could
give under the previous paragraph, plus a right to possession of the
Corresponding Source of the work from the predecessor in interest, if
the predecessor has it or can get it with reasonable efforts.
You may not impose any further restrictions on the exercise of the
rights granted or affirmed under this License. For example, you may
not impose a license fee, royalty, or other charge for exercise of
rights granted under this License, and you may not initiate litigation
(including a cross-claim or counterclaim in a lawsuit) alleging that
any patent claim is infringed by making, using, selling, offering for
sale, or importing the Program or any portion of it.
11. Patents.
A "contributor" is a copyright holder who authorizes use under this
License of the Program or a work on which the Program is based. The
work thus licensed is called the contributor's "contributor version".
A contributor's "essential patent claims" are all patent claims
owned or controlled by the contributor, whether already acquired or
hereafter acquired, that would be infringed by some manner, permitted
by this License, of making, using, or selling its contributor version,
but do not include claims that would be infringed only as a
consequence of further modification of the contributor version. For
purposes of this definition, "control" includes the right to grant
patent sublicenses in a manner consistent with the requirements of
this License.
Each contributor grants you a non-exclusive, worldwide, royalty-free
patent license under the contributor's essential patent claims, to
make, use, sell, offer for sale, import and otherwise run, modify and
propagate the contents of its contributor version.
In the following three paragraphs, a "patent license" is any express
agreement or commitment, however denominated, not to enforce a patent
(such as an express permission to practice a patent or covenant not to
sue for patent infringement). To "grant" such a patent license to a
party means to make such an agreement or commitment not to enforce a
patent against the party.
If you convey a covered work, knowingly relying on a patent license,
and the Corresponding Source of the work is not available for anyone
to copy, free of charge and under the terms of this License, through a
publicly available network server or other readily accessible means,
then you must either (1) cause the Corresponding Source to be so
available, or (2) arrange to deprive yourself of the benefit of the
patent license for this particular work, or (3) arrange, in a manner
consistent with the requirements of this License, to extend the patent
license to downstream recipients. "Knowingly relying" means you have
actual knowledge that, but for the patent license, your conveying the
covered work in a country, or your recipient's use of the covered work
in a country, would infringe one or more identifiable patents in that
country that you have reason to believe are valid.
If, pursuant to or in connection with a single transaction or
arrangement, you convey, or propagate by procuring conveyance of, a
covered work, and grant a patent license to some of the parties
receiving the covered work authorizing them to use, propagate, modify
or convey a specific copy of the covered work, then the patent license
you grant is automatically extended to all recipients of the covered
work and works based on it.
A patent license is "discriminatory" if it does not include within
the scope of its coverage, prohibits the exercise of, or is
conditioned on the non-exercise of one or more of the rights that are
specifically granted under this License. You may not convey a covered
work if you are a party to an arrangement with a third party that is
in the business of distributing software, under which you make payment
to the third party based on the extent of your activity of conveying
the work, and under which the third party grants, to any of the
parties who would receive the covered work from you, a discriminatory
patent license (a) in connection with copies of the covered work
conveyed by you (or copies made from those copies), or (b) primarily
for and in connection with specific products or compilations that
contain the covered work, unless you entered into that arrangement,
or that patent license was granted, prior to 28 March 2007.
Nothing in this License shall be construed as excluding or limiting
any implied license or other defenses to infringement that may
otherwise be available to you under applicable patent law.
12. No Surrender of Others' Freedom.
If conditions are imposed on you (whether by court order, agreement or
otherwise) that contradict the conditions of this License, they do not
excuse you from the conditions of this License. If you cannot convey a
covered work so as to satisfy simultaneously your obligations under this
License and any other pertinent obligations, then as a consequence you may
not convey it at all. For example, if you agree to terms that obligate you
to collect a royalty for further conveying from those to whom you convey
the Program, the only way you could satisfy both those terms and this
License would be to refrain entirely from conveying the Program.
13. Use with the GNU Affero General Public License.
Notwithstanding any other provision of this License, you have
permission to link or combine any covered work with a work licensed
under version 3 of the GNU Affero General Public License into a single
combined work, and to convey the resulting work. The terms of this
License will continue to apply to the part which is the covered work,
but the special requirements of the GNU Affero General Public License,
section 13, concerning interaction through a network will apply to the
combination as such.
14. Revised Versions of this License.
The Free Software Foundation may publish revised and/or new versions of
the GNU General Public License from time to time. Such new versions will
be similar in spirit to the present version, but may differ in detail to
address new problems or concerns.
Each version is given a distinguishing version number. If the
Program specifies that a certain numbered version of the GNU General
Public License "or any later version" applies to it, you have the
option of following the terms and conditions either of that numbered
version or of any later version published by the Free Software
Foundation. If the Program does not specify a version number of the
GNU General Public License, you may choose any version ever published
by the Free Software Foundation.
If the Program specifies that a proxy can decide which future
versions of the GNU General Public License can be used, that proxy's
public statement of acceptance of a version permanently authorizes you
to choose that version for the Program.
Later license versions may give you additional or different
permissions. However, no additional obligations are imposed on any
author or copyright holder as a result of your choosing to follow a
later version.
15. Disclaimer of Warranty.
THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT
HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY
OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
16. Limitation of Liability.
IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
SUCH DAMAGES.
17. Interpretation of Sections 15 and 16.
If the disclaimer of warranty and limitation of liability provided
above cannot be given local legal effect according to their terms,
reviewing courts shall apply local law that most closely approximates
an absolute waiver of all civil liability in connection with the
Program, unless a warranty or assumption of liability accompanies a
copy of the Program in return for a fee.
END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
state the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
Copyright (C)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
Copyright (C)
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
.
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/Makefile��������������������������������������������������������������������������������0000664�0000000�0000000�00000007566�12714613141�0014554�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#----------------------------------------------------------------
# Revised Makefile (19/02/2014 PS)
# How to call:
# calling as normal
# > make
# will trigger the default compiler options which include optimisation.
#
# You can now also call using
# > make CO=debug
# for extra warnings, gprof and gdb output, exception trapping
# at runtime, and bounds-checking.
# This option is slow (about 2x slower than make all)
#
# > make CO=debug2, debug3, pedantic
# offer further levels of checks in case of problems
#
# > make new
# simply calls clean then all to force a re-build.
#
# > (sudo) make install
# places the files in the standard UNIX directories.
#
# I have also included similar options for ifort. Since I have
# the compiler here, and it is potentially significantly faster,
# it may be useful when it comes time to do science.
#
#----------------------------------------------------------------
FC=gfortran
LD=gfortran
PREFIX=/usr
VERSION := $(shell git describe --always --tags --dirty)
BUILDDATE := "$(shell date)"
FFLAGS+=-cpp -DPREFIX=\"${PREFIX}\" -DVERSION=\"${VERSION}\" -DBUILDDATE=\"${BUILDDATE}\"
LDFLAGS+=
MANDIR=${DESTDIR}${PREFIX}/share/man/man1
ifeq ($(MESSAGES),yes)
FFLAGS += -DCO=\"${CO}\"
endif
ifeq ($(FC),gfortran)
FFLAGS += -ffree-line-length-0 -Jsource/ -fopenmp
ifeq ($(CO),debug)
FFLAGS += -fbounds-check -Wall -Wuninitialized
else ifeq ($(CO),debug2)
FFLAGS += -g -pg -fbounds-check -Wall -Wuninitialized
else ifeq ($(CO),debug3)
FFLAGS += -g -pg -fbounds-check -Wall -Wuninitialized -ffpe-trap=zero,overflow,invalid,underflow,denormal -fbacktrace -fcheck=all
else ifeq ($(CO),pedantic)
FFLAGS += -g -pg -fbounds-check -Wall -Wuninitialized -Werror -pedantic -ffpe-trap=zero,overflow,invalid,underflow,denormal
else
FFLAGS += -O3 -fno-backtrace
endif
endif
ifeq ($(FC),ifort)
FFLAGS += -module source/ -openmp
LD=ifort
ifeq ($(CO),debug)
FFLAGS += -pg -g -check bounds -check uninit -warn all -warn nodeclarations -WB -zero -traceback
else ifeq ($(CO),pedantic)
FFLAGS += -pg -g -check bounds -check uninit -warn all -warn nodeclarations -WB -zero -traceback -std
else
FFLAGS += -axavx -msse3 -O3 -ip -ipo # for today's CPUs
# FFLAGS += -fast -tune pn4 # for older pentium 4
endif
endif
.PHONY: all clean install uninstall
all: neat
new: clean all
%.o: %.f90
$(FC) $(FFLAGS) $< -c -o $@
neat: source/types.o source/oii_diagnostics.o source/hydrogen.o source/extinction.o source/rec_lines.o source/helium.o source/equib_routines.o source/filereading.o source/abundances.o source/quicksort.o source/linefinder.o source/weights.o source/neat.o
$(LD) $(LDFLAGS) $(FFLAGS) -o $@ $^
clean:
rm -f neat source/*.o source/*.mod
install:
test -e ${DESTDIR}${PREFIX}/share/neat || mkdir -p ${DESTDIR}${PREFIX}/share/neat
test -e ${DESTDIR}${PREFIX}/share/doc/neat/examples || mkdir -p ${DESTDIR}${PREFIX}/share/doc/neat/examples
test -e ${DESTDIR}${PREFIX}/bin || mkdir -p ${DESTDIR}${PREFIX}/bin
test -e ${MANDIR} || mkdir -p ${MANDIR}
install -m 644 Atomic-data/*.* ${DESTDIR}${PREFIX}/share/neat
install -m 644 source/Ilines_levs ${DESTDIR}${PREFIX}/share/neat
install -m 644 utilities/complete_line_list ${DESTDIR}${PREFIX}/share/neat
install -m 644 utilities/plot.sh ${DESTDIR}${PREFIX}/share/neat
install -m 644 config/default.cfg ${DESTDIR}${PREFIX}/share/neat
install -m 644 examples/*.dat ${DESTDIR}${PREFIX}/share/doc/neat/examples
install neat ${DESTDIR}${PREFIX}/bin
install -m 644 man/neat.1 ${MANDIR}
-test -e ${DESTDIR}${PREFIX}/share/bash-completion/completions && install -m 644 source/bashcompletion ${DESTDIR}${PREFIX}/share/bash-completion/completions/neat
gzip -f ${MANDIR}/neat.1
uninstall:
rm -rf ${DESTDIR}${PREFIX}/share/neat ${DESTDIR}${PREFIX}/share/doc/neat
rm -f ${DESTDIR}${PREFIX}/bin/neat
rm -f ${DESTDIR}${PREFIX}/share/bash-completion/completions/neat
rm -f ${MANDIR}/neat.1.gz
������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/README����������������������������������������������������������������������������������0000664�0000000�0000000�00000002026�12714613141�0013756�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������Overview
========
NEAT is a program for calculating chemical abundances in photoionised nebulae. It can propagate uncertainties and compensate for measurement biases affecting weak lines.
The code includes the necessary atomic data files, but you might also wish to use some different atomic data sets which are available separately in the Atomic-data repository.
http://github.com/rwesson/Atomic-data
Installation
============
To compile the code, type
make
in the directory the files are in. Our makefile assumes that you have gfortran installed. Other compilers should work as well but may require some tweaks to the code. Assuming that worked fine, then install the code by typing
sudo make install
If you don't have root access, or just want to install the code to somewhere other than the standard linux directories, then you should edit the makefile and changed the value of the variable PREFIX accordingly.
Manual
======
Full documentation is available on the NEAT website:
http://www.nebulousresearch.org/codes/neat
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/config/���������������������������������������������������������������������������������0000775�0000000�0000000�00000000000�12714613141�0014343�5����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/config/default.cfg����������������������������������������������������������������������0000664�0000000�0000000�00000007177�12714613141�0016464�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#NEAT configuration file, specifying how to carry out the analysis
#if creating your own configuration file, note:
# first line must start with "#NEAT configuration file"
# a value of -1 means weight by the flux of the line
# comment lines start with a # and are ignored
# the config file is case sensitive
# weights not specified in the config file are set to zero
ha -1.0
hg -1.0
hd -1.0
#weighting for temperatures and densities
#low zone density diagnostics
oiiDens 1.0
siiDens 1.0
#medium zone density diagnostics
ciiiDens 1.0
cliiiDens 1.0
arivDens 1.0
#high zone density diagnostics
neivDens 1.0
#low zone temperature diagnostics
niiTemp 5.0
siiTemp 1.0
oiiTemp 1.0
oiTemp 1.0
ciTemp 1.0
#medium zone temperature diagnostics
oiiiTemp 4.0
ariiiTemp 2.0
neiiiTemp 2.0
siiiTemp 1.0
neiiiIRTemp 0.0
oiiiIRTemp 0.0
oiiiUVTemp 0.0
#high zone temperature diagnostics
arvTemp 1.0
nevTemp 1.0
#lines to use for abundance analyses
#He I
he4471 1.0
he5876 3.0
he6678 1.0
#He II
#default is 0.0 so any lines not specified are not included
#the designation for a line is its quantum transition
he0403 -1.0 #4686
he0704 -1.0 #5412
#recombination lines
#collisionally excited lines
ariii5192 0.0
ariii7135 -1.0
ariii7751 -1.0
ariii9um -1.0
ariii21p8um -1.0
ariv4711 -1.0
ariv4740 -1.0
arv7p90um -1.0
arv13p10um -1.0
arv4625 0.0
arv6435 -1.0
arv7005 -1.0
ci8727 0.0
ci9824 -1.0
ci9850 -1.0
cii2325 -1.0
ciii1907 -1.0
ciii1909 -1.0
ciii1909b -1.0
civ1548 -1.0
cliii5517 -1.0
cliii5537 -1.0
neii12p8um -1.0
neiii15p5um -1.0
neiii36p0um -1.0
neiii3342 0.0
neiii3868 -1.0
neiii3967 -1.0
neiv2423 -1.0
neiv2425 -1.0
neiv2424b -1.0
neiv4714 -1.0
neiv4715 -1.0
neiv4724 -1.0
neiv4725 -1.0
neiv4714b -1.0
neiv4725b -1.0
nev2975 0.0
nev14p3um -1.0
nev24p3um -1.0
nev3345 -1.0
nev3426 -1.0
nii5754 0.0
nii6548 -1.0
nii6584 -1.0
nii122um -1.0
nii205um -1.0
niii1751 -1.0
niii57um -1.0
niv1483 -1.0
niv1487 -1.0
niv1485b -1.0
nv1240 -1.0
oi5577 0.0
oi6300 -1.0
oi6364 -1.0
oii3726 -1.0
oii3729 -1.0
oii3728b -1.0
oii7319 -1.0
oii7320 -1.0
oii7330 -1.0
oii7331 -1.0
oii7319b -1.0
oii7330b -1.0
oiii4363 0.0
oiii4959 -1.0
oiii5007 -1.0
oiii1666 -1.0
oiii52um -1.0
oiii88um -1.0
oiv25p9um -1.0
sii4068 -1.0
sii4076 -1.0
sii6716 -1.0
sii6731 -1.0
siii18p7um -1.0
siii33p5um -1.0
siii6312 0.0
siii9069 -1.0
siii9531 -1.0
siv10p5um -1.0
#weights for Balmer and Paschen lines
#default is -1.0 so any lines not specified get that weight
#H14 0.0
#H15 0.0
#P10 1.0
#weights for recombination line multiplets
niiV3 1.0
niiV5 1.0
niiV8 1.0
niiV12 1.0
niiV20 1.0
niiV28 1.0
nii3d4f 1.0
oiiV1 1.0
oiiV2 1.0
oiiV5 1.0
oiiV10 1.0
oiiV11 1.0
oiiV12 1.0
oiiV19 1.0
oiiV20 1.0
oiiV25 1.0
oiiV28 1.0
oiiV33 1.0
oii3d4f 1.0
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/�������������������������������������������������������������������������������0000775�0000000�0000000�00000000000�12714613141�0014714�5����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/30doradus.dat������������������������������������������������������������������0000664�0000000�0000000�00000003262�12714613141�0017215�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic HII region
#from Tsamis et al., 2003, MNRAS, 338, 687
3726.03 38.000
3728.82 42.100
3750.15 2.690
3770.63 3.290
3797.90 4.350
3819.62 0.927
3835.39 6.480
3868.75 30.700
3888.65 15.500
3967.46 9.370
3970.07 14.000
4068.60 0.471
4069.62 0.111
4072.16 0.057
4076.35 0.190
4078.84 0.027
4083.90 0.009
4085.11 0.022
4087.15 0.016
4089.29 0.018
4101.74 22.000
4110.78 0.027
4120.84 0.177
4132.80 0.043
4143.76 0.252
4153.30 0.052
4156.53 0.020
4169.22 0.057
4267.15 0.081
4275.55 0.069
4303.61 0.046
4312.11 0.026
4313.44 0.034
4315.40 0.025
4317.14 0.063
4319.63 0.078
4340.47 43.500
4363.21 3.030
4387.93 0.487
4409.30 0.028
4414.90 0.030
4416.97 0.040
4437.55 0.057
4471.50 4.030
4562.60 0.048
4571.10 0.054
4607.13 0.048
4609.44 0.020
4634.14 0.010
4638.49 0.061
4641.81 0.082
4649.13 0.062
4650.84 0.062
4658.10 0.601
4661.63 0.054
4667.00 0.023
4673.73 0.012
4676.24 0.021
4685.68 0.017
4692.90 0.011
4696.27 0.017
4701.62 0.183
4711.37 0.204
4713.17 0.467
4733.93 0.062
4740.17 0.177
4754.83 0.135
4769.60 0.067
4777.88 0.032
4814.55 0.030
4861.33 100.000
4881.11 0.183
4889.63 0.017
4903.50 0.034
4906.83 0.037
4921.93 1.160
4931.80 0.070
4958.91 171.000
5006.84 518.000
5273.38 0.299
5517.66 0.528
5537.60 0.410
5754.60 0.235
5875.66 14.800
6231.09 0.175
6254.30 0.153
6300.34 1.300
6312.10 2.370
6548.10 4.040
6562.77 380.000
6583.50 10.900
6678.16 4.640
6716.44 7.660
6730.82 6.940
7065.25 4.690
7135.80 18.000
7155.14 0.046
7231.32 0.326
7236.42 0.341
7281.35 0.994
7319.45 2.800
7330.20 2.300
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/BAT99-11.dat�������������������������������������������������������������������0000664�0000000�0000000�00000000733�12714613141�0016420�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#LMC WR nebula
#from Stock et al., MNRAS, 418, 2532
#Wavelengths are only to 1 decimal place so the -id option needs to be specified for NEAT analysis
3727.0 260.95 0.97
3868.7 4.21 0.80
4101.7 23.23 0.80
4340.5 46.15 0.79
4363.2 2.76 0.79
4471.5 4.73 0.78
4861.3 100.00 0.81
4958.9 140.47 0.83
5006.8 352.67 0.96
6312.1 3.06 1.38
6562.8 449.79 3.05
6583.5 20.82 2.51
6678.2 6.29 2.51
6716.4 18.36 3.15
6730.8 12.93 3.12
7135.8 19.45 2.51
9068.6 29.56 0.71
9530.6 49.91 0.88
�������������������������������������NEAT-master/examples/BAT99-2.dat��������������������������������������������������������������������0000664�0000000�0000000�00000001020�12714613141�0016326�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#LMC WR nebula
#from Stock et al., MNRAS, 418, 2532
#Wavelengths are only to 1 decimal place so the -id option needs to be specified for NEAT analysis
3727.0 58.53 0.72
3868.7 53.11 0.69
4101.7 24.49 1.43
4340.5 42.11 1.43
4363.2 12.85 1.42
4471.5 1.77 0.32
4685.7 72.52 0.68
4711.4 13.21 0.63
4740.2 8.64 0.62
4861.3 100.00 0.82
4958.9 212.87 1.48
5006.8 592.93 1.73
6312.1 2.62 0.33
6562.8 394.99 1.64
6583.5 6.55 1.42
6716.4 18.95 1.66
6730.8 11.29 1.67
7005.4 3.43 1.30
7135.8 11.16 1.39
9068.6 16.10 0.77
9530.6 22.26 1.33
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/BAT99-38.dat�������������������������������������������������������������������0000664�0000000�0000000�00000000707�12714613141�0016432�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#LMC WR nebula
#from Stock et al., MNRAS, 418, 2532
#Wavelengths are only to 1 decimal place so the -id option needs to be specified for NEAT analysis
3727.0 168.10 8.94
3868.7 9.58 6.91
4101.7 24.51 0.70
4340.5 43.66 0.69
4471.5 3.82 0.70
4861.3 100.00 1.13
4958.9 76.92 0.74
5006.8 178.59 0.85
6312.1 0.71 0.27
6562.8 290.15 2.07
6583.5 13.80 1.69
6678.2 3.44 1.71
6716.4 15.83 2.12
6730.8 11.66 2.12
7135.8 9.72 1.67
9068.6 10.98 0.77
9530.6 5.03 1.15
���������������������������������������������������������NEAT-master/examples/Cn3-1.dat����������������������������������������������������������������������0000664�0000000�0000000�00000004246�12714613141�0016175�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson et al., 2005, MNRAS, 362, 424
3613.64 0.252 0.0259
3634.25 0.124 0.0246
3666.10 0.150 0.0197
3667.68 0.183 0.0201
3669.47 0.222 0.0201
3671.48 0.286 0.0206
3673.74 0.397 0.0219
3676.36 0.497 0.0233
3679.36 0.609 0.0253
3682.81 0.759 0.0375
3686.83 0.874 0.0384
3691.56 1.025 0.0382
3697.15 1.114 0.0376
3703.86 1.313 0.0571
3711.97 1.270 0.0508
3721.94 2.734 0.3827
3726.03 88.69 0.3266
3728.82 43.88 0.3271
3734.37 2.008 0.3287
3750.15 2.249 0.0543
3770.63 2.985 0.0542
3797.90 3.639 0.0540
3819.62 0.313 0.0520
3835.39 4.725 0.0549
3856.13 0.064 0.0274
3889.05 10.14 0.0513
3918.98 0.056 0.0304
3920.69 0.109 0.0398
3933.66 -0.318 -0.0488
3964.73 0.464 0.0680
3970.07 11.72 0.0681
4009.26 0.200 0.0461
4026.21 0.722 0.0304
4068.60 2.240 0.0497
4076.35 0.783 0.0504
4097.33 0.051 0.0401
4101.74 18.16 0.0490
4120.84 0.066 0.0175
4143.76 0.119 0.0174
4186.90 0.024 0.0226
4189.79 0.063 0.0275
4267.15 0.106 0.0150
4325.76 0.072 0.0379
4340.47 36.90 0.0708
4363.21 0.047 0.0379
4387.93 0.252 0.0713
4414.90 0.089 0.0092
4416.97 0.090 0.0092
4471.50 2.099 0.0170
4485.45 0.083 0.0091
4571.10 0.031 0.0076
4590.97 0.023 0.0064
4607.16 0.053 0.0073
4621.39 0.077 0.0154
4630.54 0.047 0.0070
4634.14 0.256 0.0199
4638.86 0.085 0.0183
4640.64 0.321 0.0256
4641.81 0.133 0.0259
4647.42 0.090 0.0169
4649.13 0.081 0.0250
4650.25 0.019 0.0609
4650.84 0.008 0.0806
4651.47 0.092 0.0446
4658.10 0.314 0.0220
4661.63 0.017 0.0151
4685.68 0.039 0.0184
4699.22 0.038 0.0153
4701.62 0.106 0.0150
4713.17 0.186 0.0132
4803.29 0.028 0.0141
4815.55 0.064 0.0157
4861.33 100.0 0.1766
4881.11 0.163 0.1789
4921.93 0.601 0.1698
4958.91 7.331 0.1703
5006.84 21.41 0.7086
5015.68 2.107 0.7701
5517.66 0.288 0.0715
5537.60 0.492 0.1567
5695.92 0.227 0.1318
5754.60 2.119 0.1391
5875.66 9.000 0.1335
6300.34 2.328 0.0812
6312.10 0.903 0.0790
6347.10 0.261 0.0846
6363.78 0.706 0.0790
6548.10 84.19 7.0779
6562.77 398.9 7.1109
6583.50 266.0 7.0893
6678.16 2.809 0.2033
6716.44 8.324 0.2048
6730.82 16.19 0.2049
7065.25 3.991 0.1246
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7281.35 0.406 0.1205
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����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/DdDm1-3.dat��������������������������������������������������������������������0000664�0000000�0000000�00000003625�12714613141�0016445�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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4881.11 1.254 0.2328
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�����������������������������������������������������������������������������������������������������������NEAT-master/examples/Hu1-1.dat����������������������������������������������������������������������0000664�0000000�0000000�00000003623�12714613141�0016205�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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�������������������������������������������������������������������������������������������������������������NEAT-master/examples/Hu2-1.dat����������������������������������������������������������������������0000664�0000000�0000000�00000005407�12714613141�0016210�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/IC1747.dat���������������������������������������������������������������������0000664�0000000�0000000�00000003620�12714613141�0016225�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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����������������������������������������������������������������������������������������������������������������NEAT-master/examples/IC2003.dat���������������������������������������������������������������������0000664�0000000�0000000�00000005011�12714613141�0016203�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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4711.37 4.460 0.0842
4713.17 0.508 0.0469
4724.15 0.215 0.0911
4725.62 0.176 0.0878
4740.17 4.132 0.0812
4861.33 100.0 0.7812
4921.93 0.753 0.8122
4958.91 329.7 0.7699
5006.84 1094. 5.9594
5411.52 4.643 0.1396
5517.66 0.601 0.1484
5537.60 0.560 0.1411
5754.60 0.833 0.0784
5875.66 9.619 0.1553
6300.34 3.848 0.1670
6312.10 1.566 0.1643
6363.78 1.087 0.1616
6406.30 0.522 0.1756
6548.10 11.19 4.0984
6562.77 366.6 3.9204
6583.50 29.16 3.8629
6678.16 3.640 0.1524
6716.44 2.113 0.1365
6730.82 3.596 0.1371
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�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/IC351.dat����������������������������������������������������������������������0000664�0000000�0000000�00000004045�12714613141�0016135�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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3634.25 0.308 0.0819
3673.74 0.230 0.0497
3676.36 0.320 0.0537
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3754.69 0.638 0.0796
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3770.63 2.798 0.0800
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3797.90 3.948 0.0699
3813.50 0.217 0.0828
3819.62 0.580 0.0658
3835.39 5.426 0.0699
3858.07 0.180 0.2306
3868.75 74.98 0.2168
3889.05 13.41 0.2257
3923.48 0.216 1.6974
3967.46 25.50 1.9501
4026.08 1.594 0.0458
4068.60 0.160 0.0846
4069.62 0.484 0.0789
4072.16 0.231 0.1224
4075.86 0.163 0.0266
4097.33 1.289 0.1258
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4132.80 0.070 0.0276
4143.76 0.296 0.0267
4186.90 0.208 0.0249
4195.76 0.083 0.0234
4199.83 0.713 0.0396
4227.74 0.283 0.0329
4267.15 0.561 0.0342
4340.47 40.18 0.2125
4363.21 13.14 0.2086
4379.11 0.137 0.3514
4387.93 0.304 0.0359
4471.50 2.869 0.0390
4541.59 1.330 0.0319
4571.10 0.113 0.0173
4590.97 0.051 0.0172
4609.44 0.063 0.0172
4634.14 0.745 0.0256
4638.86 0.083 0.0217
4640.64 1.601 0.0403
4641.81 0.121 0.1073
4641.84 0.149 0.0051
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4649.13 0.246 0.0219
4650.25 0.141 0.0047
4650.84 0.068 0.0369
4651.47 0.047 0.0016
4658.64 0.101 0.0208
4685.68 43.24 0.0831
4711.37 5.838 0.0870
4713.17 0.450 0.0473
4724.15 0.140 0.0771
4725.62 0.154 0.0793
4740.17 5.401 0.0838
4861.33 100.0 0.877
4921.93 0.808 0.8265
4958.91 372.0 0.8543
5006.84 1244. 7.9115
5411.52 3.585 0.2246
5577.34 0.556 0.2188
5875.66 11.19 0.2259
6300.34 0.895 0.1567
6312.10 1.115 0.1274
6548.10 3.111 0.2396
6562.77 376.8 4.4833
6583.50 7.118 2.3974
6678.16 3.687 0.1961
6716.44 0.623 0.1672
6730.82 1.091 0.1801
7005.67 0.924 0.2312
7065.25 3.806 0.2053
7135.80 10.82 0.2022
7237.26 0.591 0.1698
7281.35 0.659 0.2139
7298.04 0.392 0.2014
7318.92 0.971 0.1864
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7751.43 1.842 0.1578
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/IC4846.dat���������������������������������������������������������������������0000664�0000000�0000000�00000003746�12714613141�0016241�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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3613.64 0.275 0.0603
3634.25 0.401 0.0558
3673.74 0.357 0.0791
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3679.36 0.472 0.0775
3682.81 0.525 0.0842
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3691.56 0.652 0.0837
3697.15 0.815 0.0873
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3711.97 1.200 0.0867
3721.94 1.999 0.0673
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3728.82 6.466 0.0697
3734.37 1.676 0.0666
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3754.69 0.163 0.0256
3759.87 0.178 0.0508
3770.63 2.701 0.0479
3797.90 3.549 0.0472
3819.62 0.912 0.0467
3835.39 5.042 0.0475
3868.75 58.65 0.1801
3889.05 13.34 0.1847
3964.73 0.872 0.0900
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3970.07 11.31 0.1873
4009.26 0.172 0.0368
4026.21 1.825 0.0376
4068.60 0.906 0.0900
4069.62 0.059 0.0350
4069.89 0.094 0.0500
4072.16 0.142 0.0360
4075.86 0.205 0.0370
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4085.11 0.038 0.0250
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4092.93 0.027 0.0200
4097.33 0.480 0.1101
4101.74 19.19 0.2058
4119.22 0.267 0.0181
4120.28 0.024 0.0200
4120.54 0.057 0.0400
4143.76 0.262 0.0181
4267.15 0.119 0.0332
4340.47 38.65 0.1103
4349.43 0.166 0.0589
4363.21 6.066 0.1071
4387.93 0.498 0.0108
4471.50 4.258 0.0349
4571.10 0.101 0.0340
4634.14 0.170 0.0399
4638.86 0.048 0.0362
4640.64 0.287 0.0549
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4647.42 0.095 0.0157
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4650.25 0.057 0.0094
4650.84 0.062 0.0066
4651.47 0.019 0.0031
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4661.63 0.067 0.0352
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4685.68 0.398 0.0183
4701.62 0.093 0.0288
4711.37 0.959 0.0341
4713.17 0.692 0.0341
4740.17 1.299 0.245
4861.33 100.0 0.5522
4921.93 1.216 0.5660
4958.91 332.3 0.5452
5006.84 1138. 5.1305
5875.66 19.83 0.3722
6300.34 3.928 0.3802
6312.10 1.839 0.3366
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6548.10 14.78 2.5677
6562.77 474.9 2.1485
6583.50 31.28 2.1865
6678.16 6.307 2.1465
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��������������������������NEAT-master/examples/IC5217.dat���������������������������������������������������������������������0000664�0000000�0000000�00000005605�12714613141�0016226�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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3679.36 0.312 0.0228
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3691.56 0.525 0.0236
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3734.37 1.498 0.0923
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3757.24 0.154 0.0228
3759.87 0.807 0.0219
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3791.27 0.095 0.0203
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3805.74 0.027 0.0188
3819.62 0.768 0.0225
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3889.05 12.90 0.2005
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3933.66 -0.069 -0.0084
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4861.33 100.0 0.8337
4881.11 0.141 0.0267
4921.93 1.257 0.0239
4931.80 0.200 0.0264
4958.91 401.6 8.5735
5006.84 1283. 9.0258
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6562.77 410.1 1.9114
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���������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/M1-73.dat����������������������������������������������������������������������0000664�0000000�0000000�00000003622�12714613141�0016115�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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4267.15 0.410 0.0314
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4363.21 0.372 0.0788
4387.93 0.497 0.0787
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4713.17 0.584 0.0341
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4861.33 100.0 1.0122
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��������������������������������������������������������������������������������������������������������������NEAT-master/examples/M1-74.dat����������������������������������������������������������������������0000664�0000000�0000000�00000003155�12714613141�0016117�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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3888.65 7.960 0.3352
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4101.74 15.33 0.0788
4120.84 0.202 0.0861
4143.76 0.220 0.0765
4267.15 0.301 0.0644
4340.47 33.11 0.0622
4363.21 4.617 0.0620
4387.93 0.482 0.0634
4437.55 0.057 0.0209
4471.50 4.080 0.0203
4571.10 0.144 0.0221
4647.42 0.019 0.0170
4649.13 0.270 0.0156
4650.25 0.029 0.0170
4650.84 0.051 0.0170
4651.47 0.028 0.0170
4658.10 0.646 0.0144
4661.63 0.074 0.0124
4676.24 0.056 0.0170
4685.68 0.126 0.0156
4701.62 0.260 0.0173
4711.37 0.347 0.0205
4713.17 0.746 0.0216
4740.17 1.228 0.0156
4861.33 100.0 0.8403
4881.11 0.403 0.0423
4921.93 1.284 0.0368
4931.80 0.221 0.0387
4958.91 347.0 0.8335
5006.84 1162. 5.0320
5537.60 1.211 0.2501
5754.60 2.435 0.2278
5875.66 28.11 0.2210
6300.34 8.763 2.6996
6312.10 4.853 2.6161
6363.78 2.794 2.7167
6548.10 30.79 2.8978
6562.77 648.6 2.6531
6583.50 81.39 2.6925
6678.16 9.711 2.6348
6716.44 3.815 2.6092
6730.82 8.033 2.6267
7065.25 2.801 0.4762
7135.80 63.12 0.3532
7281.35 2.172 0.3677
7318.92 1.647 0.2053
7329.67 14.10 0.3712
7751.43 9.719 0.3696
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/M3-34.dat����������������������������������������������������������������������0000664�0000000�0000000�00000003477�12714613141�0016124�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson et al., 2005, MNRAS, 362, 424
3682.81 0.771 0.1252
3686.83 0.860 0.1249
3691.56 1.032 0.1276
3697.15 1.414 0.1359
3703.86 1.905 0.1540
3705.02 1.086 0.1353
3711.97 1.655 0.1578
3715.08 0.753 0.1481
3721.94 1.633 0.1228
3726.03 4.437 0.1280
3728.82 2.397 0.1207
3734.37 1.636 0.1269
3750.15 2.193 0.0990
3754.69 1.062 0.0788
3757.24 0.490 0.0744
3759.87 2.347 0.1028
3770.63 2.794 0.1306
3774.02 0.422 0.0737
3791.27 0.308 0.0633
3797.90 3.384 0.1170
3819.62 0.697 0.1147
3835.39 4.853 0.1188
3868.75 80.77 0.3627
3889.05 13.43 0.3713
3967.46 19.37 0.2217
3970.07 11.21 0.2256
4026.21 1.636 0.0752
4068.60 0.190 0.0131
4069.62 0.127 0.0101
4069.89 0.205 0.0135
4072.16 0.309 0.0250
4075.86 0.189 0.0125
4076.35 0.189 0.0125
4085.11 0.133 0.0360
4087.15 0.002 0.0348
4089.29 0.089 0.0352
4097.33 1.339 0.3915
4101.74 18.51 0.3692
4120.84 0.308 0.0918
4143.76 0.288 0.0859
4156.53 0.130 0.0693
4227.74 0.395 0.0716
4267.15 0.232 0.0674
4303.82 0.105 0.0486
4340.47 37.80 0.1720
4349.43 0.249 0.0920
4363.21 12.53 0.1674
4379.11 0.256 0.0919
4387.93 0.461 0.0920
4409.30 0.194 0.0726
4471.50 3.454 0.0663
4541.59 0.780 0.0655
4534.58 0.592 0.0395
4638.86 0.097 0.0338
4640.64 1.216 0.0609
4641.81 0.176 0.1645
4641.84 0.118 0.0079
4647.42 0.203 0.0128
4649.13 0.382 0.0367
4650.25 0.122 0.0767
4650.84 0.070 0.0594
4651.47 0.041 0.0026
4658.64 0.102 0.0318
4661.63 0.040 0.0315
4673.73 0.051 0.0315
4678.14 0.072 0.0316
4685.68 23.45 0.0643
4711.37 4.721 0.0875
4713.17 0.377 0.0858
4740.17 4.607 0.0650
4861.33 100.0 0.9561
4921.93 0.951 0.9695
4958.91 446.2 0.9477
5006.84 1480. 7.6517
5411.52 2.656 0.6243
5676.02 1.377 0.2582
5686.21 1.402 0.2591
5875.66 13.68 1.4168
6548.10 3.029 0.7861
6562.77 438.7 1.4705
6583.50 4.112 0.7862
6678.16 4.948 0.5638
7065.25 7.213 0.7443
7135.80 9.914 0.7834
7751.43 4.502 0.7315
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/Me2-2.dat����������������������������������������������������������������������0000664�0000000�0000000�00000005605�12714613141�0016176�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson et al., 2005, MNRAS, 362, 424
3512.52 0.186 0.0206
3530.50 0.181 0.0181
3554.42 0.242 0.0176
3587.28 0.355 0.0184
3613.64 0.487 0.0185
3634.25 0.572 0.0189
3664.68 0.058 0.0104
3666.10 0.076 0.0105
3667.68 0.107 0.0106
3669.46 0.158 0.0110
3671.48 0.228 0.0117
3673.74 0.300 0.0127
3676.36 0.400 0.0143
3679.36 0.543 0.0204
3682.81 0.660 0.0210
3686.83 0.731 0.0210
3691.56 0.832 0.0211
3697.15 0.955 0.0211
3703.86 1.106 0.0418
3705.02 0.898 0.0416
3711.97 1.427 0.0309
3721.94 2.025 0.0568
3726.03 12.40 0.0565
3728.82 5.084 0.0573
3734.37 1.970 0.0562
3750.15 2.402 0.0235
3757.24 0.042 0.0125
3759.87 0.040 0.0258
3770.63 2.991 0.0235
3784.89 0.046 0.0215
3797.90 3.890 0.0214
3805.74 0.081 0.0247
3819.62 1.431 0.0391
3835.39 5.285 0.0389
3856.13 0.052 0.2468
3868.75 45.24 0.2193
3889.05 13.08 0.2312
3918.98 0.034 0.0042
3920.69 0.068 0.0056
3926.54 0.156 0.0059
3933.66 -0.056 -0.0056
3964.73 1.456 0.0851
3967.46 14.90 0.0786
3970.07 8.513 0.0793
3994.99 0.026 0.0054
4009.26 0.243 0.0188
4026.21 2.739 0.0189
4041.31 0.036 0.0065
4068.60 0.499 0.0077
4069.62 0.027 0.0009
4069.89 0.043 0.0015
4072.16 0.065 0.0022
4075.86 0.093 0.0032
4076.35 0.139 0.0067
4089.29 0.039 0.0035
4097.33 0.226 0.0781
4101.74 19.02 0.1462
4110.78 0.011 0.0042
4120.84 0.333 0.0079
4129.32 0.018 0.0040
4132.80 0.034 0.0040
4143.76 0.396 0.0075
4153.30 0.026 0.0054
4156.53 0.018 0.0056
4168.97 0.055 0.0059
4267.15 0.582 0.0063
4275.55 0.017 0.0040
4276.75 0.018 0.0050
4288.82 0.024 0.0034
4317.14 0.023 0.2132
4319.63 0.023 0.2131
4325.76 0.023 0.2130
4340.47 37.37 0.3983
4349.43 0.022 0.0163
4363.21 4.991 0.0305
4366.89 0.087 0.0163
4379.11 0.025 0.0163
4387.93 0.747 0.0310
4414.90 0.035 0.0061
4416.97 0.035 0.0061
4437.55 0.098 0.0055
4471.50 6.649 0.0448
4510.91 0.021 0.0043
4518.15 0.019 0.0049
4523.58 0.020 0.0050
4530.41 0.027 0.0049
4571.10 0.146 0.0041
4590.97 0.025 0.0048
4596.18 0.017 0.0039
4621.39 0.023 0.0033
4630.54 0.084 0.0150
4634.14 0.128 0.0095
4638.86 0.044 0.0091
4640.64 0.221 0.0131
4641.81 0.077 0.0437
4641.84 0.026 0.0019
4647.42 0.031 0.0031
4649.13 0.147 0.0102
4650.25 0.019 0.0019
4650.84 0.038 0.0178
4651.47 0.006 0.0006
4658.10 0.257 0.0125
4661.63 0.040 0.0085
4669.27 0.002 0.0083
4673.73 0.007 0.0083
4676.24 0.034 0.0084
4685.68 0.142 0.0105
4701.62 0.060 0.0065
4711.37 0.209 0.0066
4713.17 1.289 0.0066
4740.17 0.503 0.0056
4802.23 0.053 0.0079
4861.33 100.0 0.5948
4881.11 0.135 0.6339
4921.93 1.845 0.5857
4931.80 0.092 0.6088
4958.91 226.2 0.5878
5006.84 759.3 6.4577
5199.84 0.649 0.2017
5537.60 0.513 0.1611
5754.60 5.806 0.1756
5875.66 25.39 0.1749
6300.34 2.875 0.1348
6312.10 0.728 0.1274
6363.78 0.920 0.1203
6548.10 65.56 8.9973
6562.77 357.4 8.9685
6583.50 204.7 9.0067
6678.16 7.897 0.1499
6716.44 0.878 0.1907
6730.82 0.964 0.1464
7065.25 22.00 0.1987
7135.80 12.51 0.1959
7281.35 1.377 0.2056
7318.92 6.869 0.1911
7329.67 5.455 0.1907
7751.43 1.957 0.1913
���������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/NGC3199.dat��������������������������������������������������������������������0000664�0000000�0000000�00000001375�12714613141�0016351�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic WR nebula
#from Stock et al., MNRAS, 418, 2532
#Wavelengths are only to 1 decimal place so the -id option needs to be specified for NEAT analysis
3726.0 87.62 0.43
3728.8 107.42 0.52
3868.7 36.24 0.22
3967.5 11.16 0.19
4101.7 15.11 0.22
4340.5 32.91 0.25
4363.2 2.45 0.08
4471.5 3.37 0.13
4861.3 100.00 0.24
4958.9 218.60 0.81
5006.8 680.69 2.26
5517.7 1.85 0.14
5537.6 1.40 0.08
5577.3 0.25 0.22
5875.7 21.93 0.14
6300.3 17.17 0.39
6312.1 5.92 0.07
6363.8 5.78 0.14
6548.1 91.97 0.40
6562.8 675.20 1.33
6583.5 287.83 1.16
6678.2 8.79 0.11
6716.4 118.35 0.88
6730.8 96.39 0.65
7135.8 61.93 0.37
7318.9 3.06 0.07
7320.0 11.40 0.08
7329.7 6.07 0.07
7330.7 6.15 0.07
8727.1 1.00 0.07
9068.6 480.20 5.56
9530.6 1416.72 14.39
9824.1 3.44 0.20
9850.2 8.94 0.13
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/NGC6803.dat��������������������������������������������������������������������0000664�0000000�0000000�00000006030�12714613141�0016335�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson et al., 2005, MNRAS, 362, 424
3530.50 0.166 0.0358
3554.42 0.152 0.0315
3587.28 0.213 0.0320
3613.64 0.183 0.0302
3634.25 0.297 0.0300
3673.74 0.161 0.0381
3676.36 0.212 0.0408
3679.36 0.273 0.0414
3682.81 0.354 0.0430
3686.83 0.431 0.0448
3691.56 0.520 0.0453
3697.15 0.585 0.0453
3703.86 1.267 0.0549
3711.97 0.927 0.0469
3721.94 1.738 0.0901
3726.03 13.52 0.0910
3728.82 6.744 0.0934
3734.37 1.285 0.0913
3750.15 1.571 0.0293
3754.69 0.134 0.0187
3757.24 0.062 0.0172
3759.87 0.307 0.0269
3770.63 2.057 0.0295
3797.90 2.795 0.0273
3819.62 0.774 0.0272
3835.39 3.957 0.0273
3868.75 64.32 0.2735
3889.05 9.873 0.2789
3926.54 0.078 0.0105
3933.66 -0.068 -0.0079
3964.73 0.824 0.1281
3967.46 21.03 0.1284
3970.07 9.387 0.1237
4009.26 0.147 0.0141
4026.21 1.769 0.0142
4068.60 1.757 0.0275
4069.62 0.040 0.0172
4069.89 0.362 0.0101
4072.16 0.242 0.0076
4075.86 0.194 0.0051
4076.35 0.663 0.0152
4083.90 0.025 0.0152
4085.11 0.055 0.0014
4087.15 0.037 0.0149
4089.29 0.114 0.0152
4092.93 0.040 0.0010
4097.33 1.051 0.2833
4101.74 16.24 0.2528
4119.22 0.078 0.0111
4120.28 0.017 0.0024
4120.54 0.162 0.0461
4120.84 0.009 0.0302
4132.80 0.056 0.0097
4143.76 0.307 0.0173
4153.30 0.064 0.0087
4156.53 0.046 0.0080
4169.22 0.042 0.0095
4186.90 0.062 0.0118
4199.83 0.072 0.0124
4200.10 0.110 0.0150
4227.74 0.053 0.0096
4237.05 0.032 0.0083
4242.49 0.044 0.0084
4267.15 0.482 0.0081
4275.55 0.063 0.0066
4276.75 0.038 0.0066
4317.14 0.042 0.0077
4319.63 0.025 0.0061
4340.47 34.90 0.1002
4349.43 0.149 0.0535
4363.21 4.881 0.0988
4366.89 0.087 0.0528
4379.11 0.201 0.1002
4387.93 0.539 0.0999
4391.99 0.038 0.0538
4409.30 0.051 0.0048
4413.22 0.024 0.0044
4414.90 0.056 0.0053
4416.97 0.056 0.0052
4466.42 0.060 0.0162
4471.50 4.712 0.0302
4488.20 0.028 0.0102
4491.07 0.028 0.0097
4510.91 0.120 0.0086
4514.86 0.029 0.0056
4518.15 0.046 0.0060
4523.58 0.047 0.0060
4530.41 0.042 0.0059
4534.58 0.035 0.0057
4541.59 0.131 0.0105
4562.60 0.028 0.0052
4571.10 0.134 0.0091
4590.97 0.079 0.0093
4596.18 0.051 0.0107
4602.13 0.048 0.0077
4609.44 0.080 0.0094
4630.54 0.058 0.0071
4634.14 0.606 0.0071
4638.86 0.140 0.0061
4640.64 1.155 0.0108
4641.81 0.277 0.0291
4641.84 0.121 0.0014
4647.42 0.071 0.0019
4649.13 0.460 0.0067
4650.25 0.043 0.0012
4650.84 0.126 0.0109
4651.47 0.014 0.0004
4658.10 0.150 0.0057
4661.63 0.130 0.0056
4669.27 0.001 0.0055
4673.73 0.014 0.0055
4676.24 0.095 0.0056
4685.68 4.054 0.0156
4701.62 0.063 0.0174
4711.37 1.976 0.0209
4713.17 0.734 0.0211
4740.17 3.070 0.0156
4803.29 0.042 0.3442
4861.33 100.0 0.6440
4881.11 0.130 0.3442
4921.93 1.366 0.6439
4931.80 0.172 0.7138
4958.91 387.6 0.6385
5006.84 1260. 6.3847
5517.66 0.893 0.1697
5537.60 1.630 0.1952
5754.60 2.986 0.2635
5875.66 25.94 0.1963
6300.34 6.391 0.1930
6312.10 3.747 0.1936
6363.78 2.103 0.1889
6548.10 58.19 5.2882
6562.77 537.3 5.2647
6583.50 176.6 5.2148
6678.16 8.923 0.2019
6716.44 8.486 0.2019
6730.82 16.05 0.2012
7065.25 16.79 0.4877
7135.80 53.77 0.4782
7281.35 1.406 0.2555
7298.04 0.467 0.2554
7318.92 7.592 0.5144
7329.67 6.209 0.5168
7751.43 8.657 0.2645
��������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/NGC6807.dat��������������������������������������������������������������������0000664�0000000�0000000�00000004471�12714613141�0016350�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson et al., 2005, MNRAS, 362, 424
3554.42 0.061 0.0181
3568.50 0.057 0.0177
3587.28 0.087 0.0206
3613.64 0.089 0.0187
3634.25 0.165 0.0257
3667.68 0.072 0.0116
3669.46 0.057 0.0116
3671.48 0.091 0.0117
3673.74 0.098 0.0117
3676.36 0.107 0.0118
3679.36 0.172 0.0123
3682.81 0.217 0.0128
3686.83 0.259 0.0134
3691.56 0.310 0.0142
3697.15 0.367 0.0152
3703.86 0.743 0.0433
3711.97 0.594 0.0355
3715.08 0.096 0.0203
3721.94 1.025 0.0393
3726.03 5.236 0.0399
3728.82 2.264 0.0409
3734.37 0.786 0.0391
3750.15 1.003 0.0239
3754.69 0.045 0.0237
3759.87 0.087 0.0131
3770.63 1.331 0.0244
3797.90 1.726 0.0222
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�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/NGC6833.dat��������������������������������������������������������������������0000664�0000000�0000000�00000004351�12714613141�0016344�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/NGC6879.dat��������������������������������������������������������������������0000664�0000000�0000000�00000004050�12714613141�0016352�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/NGC6891.dat��������������������������������������������������������������������0000664�0000000�0000000�00000003155�12714613141�0016351�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/NGC7026.dat��������������������������������������������������������������������0000664�0000000�0000000�00000005754�12714613141�0016347�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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7281.35 1.740 0.2400
7318.92 7.736 0.1472
7329.67 8.319 0.2431
7751.43 12.42 0.3085
��������������������NEAT-master/examples/Sp4-1.dat����������������������������������������������������������������������0000664�0000000�0000000�00000003747�12714613141�0016225�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson et al., 2005, MNRAS, 362, 424
3554.42 0.258 0.0695
3587.28 0.308 0.0609
3613.64 0.515 0.0590
3634.25 0.424 0.0560
3667.68 0.099 0.0203
3669.46 0.131 0.0207
3671.48 0.210 0.0217
3673.74 0.280 0.0231
3676.36 0.322 0.0358
3679.36 0.478 0.0367
3682.81 0.565 0.0313
3686.83 0.681 0.0388
3691.56 0.919 0.0408
3697.15 1.043 0.0395
3703.86 1.144 0.0430
3705.02 0.669 0.0437
3711.97 1.341 0.0346
3715.08 0.119 0.0208
3721.94 2.073 0.1164
3726.03 35.23 0.1150
3728.82 15.87 0.1158
3734.37 1.995 0.1166
3750.15 2.416 0.0381
3754.69 0.092 0.0204
3757.24 0.152 0.0207
3770.63 3.112 0.0386
3797.90 3.928 0.0398
3819.62 1.029 0.0405
3835.39 5.656 0.0401
3868.75 14.52 0.1114
3889.05 15.16 0.1175
3918.98 0.129 0.0234
3920.69 0.268 0.0233
3926.54 0.079 0.0154
3964.73 1.148 0.0543
3967.46 4.625 0.0539
3970.07 12.16 0.0537
4009.26 0.227 0.0345
4026.21 2.086 0.0318
4068.60 0.449 0.0508
4069.62 0.058 0.0066
4069.89 0.093 0.0105
4072.16 0.140 0.0235
4075.86 0.056 0.0250
4076.35 0.203 0.0230
4097.33 0.242 0.0881
4101.74 20.78 0.1672
4110.78 0.087 0.0180
4119.22 0.259 0.0367
4120.28 0.056 0.0079
4120.84 0.016 0.0216
4132.80 0.156 0.0199
4143.76 0.352 0.0287
4185.45 0.063 0.0209
4186.90 0.074 0.0266
4267.15 1.389 0.0212
4340.47 40.96 0.0442
4349.43 0.056 0.0386
4363.21 4.486 0.0435
4366.89 0.073 0.0233
4387.93 0.534 0.0438
4437.55 0.068 0.0236
4471.50 4.683 0.0194
4491.07 0.031 0.0173
4514.86 0.062 0.0220
4571.10 0.089 0.0191
4658.10 0.528 0.0239
4685.68 1.444 0.0941
4701.62 0.125 0.0449
4711.37 0.849 0.0419
4788.13 0.129 0.0211
4861.33 100.0 0.4775
4881.11 0.166 0.1790
4921.93 1.246 0.1246
4958.91 167.0 0.4666
5006.84 583.3 2.1081
5754.60 0.884 0.1060
5875.66 15.10 0.1968
6300.34 0.985 0.1505
6312.10 0.450 0.1476
6548.10 8.041 6.2346
6562.77 282.7 5.8805
6583.50 21.82 5.9544
6678.16 4.212 0.1625
6730.82 1.241 0.1786
7065.25 7.818 0.1711
7135.80 4.500 0.1744
7231.32 0.360 0.1889
7236.42 0.877 0.2010
7281.35 0.729 0.1655
7318.92 5.772 0.1716
7329.67 5.376 0.1779
7751.43 1.193 0.1571
�������������������������NEAT-master/examples/Vy1-2.dat����������������������������������������������������������������������0000664�0000000�0000000�00000007016�12714613141�0016230�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson et al., 2005, MNRAS, 362, 424
3530.50 0.159 0.0454
3554.42 0.239 0.0546
3568.50 0.226 0.0654
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3669.46 0.130 0.0224
3671.48 0.143 0.0258
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3676.36 0.313 0.0283
3679.36 0.421 0.0290
3682.81 0.525 0.0302
3686.83 0.666 0.0302
3691.56 0.763 0.0309
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3697.15 0.938 0.0299
3703.86 1.713 0.0950
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3711.97 1.682 0.0943
3715.08 0.466 0.0695
3721.94 2.536 0.0817
3726.03 18.45 0.0804
3728.82 9.175 0.0819
3734.37 2.086 0.0816
3750.15 2.633 0.0330
3754.69 1.009 0.0354
3757.24 0.453 0.0413
3759.87 3.135 0.0346
3770.63 3.335 0.0435
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3791.27 0.407 0.0437
3797.90 4.599 0.0563
3805.74 0.080 0.0283
3813.50 0.091 0.0284
3819.62 0.964 0.0522
3835.39 6.305 0.0552
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3868.75 87.86 0.3429
3882.19 0.097 0.3879
3889.05 15.71 0.3585
3923.48 0.174 0.0213
3926.54 0.081 0.0189
3964.73 0.863 0.0736
3967.46 27.98 0.1424
3970.07 13.71 0.1428
4003.58 0.049 0.0145
4009.26 0.172 0.0146
4026.21 2.258 0.0271
4068.60 1.138 0.0890
4069.62 0.282 0.0100
4069.89 0.452 0.0161
4072.16 0.682 0.0246
4075.86 0.592 0.0175
4076.35 0.384 0.0120
4083.90 0.127 0.0475
4085.11 0.147 0.0048
4087.15 0.125 0.0467
4089.29 0.267 0.0481
4092.93 0.107 0.0035
4097.33 2.638 0.6669
4101.74 23.07 0.6190
4119.22 0.215 0.0247
4120.28 0.019 0.0053
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4120.84 0.118 0.0771
4121.46 0.133 0.0448
4132.80 0.067 0.0110
4143.76 0.362 0.0246
4153.30 0.140 0.0162
4156.53 0.080 0.0150
4169.22 0.041 0.0209
4176.16 0.043 0.0206
4185.45 0.102 0.0142
4186.90 0.113 0.0143
4189.79 0.112 0.0135
4199.83 0.516 0.0228
4219.74 0.072 0.0215
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4241.24 0.088 0.0254
4267.15 0.895 0.0236
4275.99 0.228 0.0162
4277.43 0.128 0.0159
4281.32 0.069 0.0225
4285.69 0.068 0.0298
4291.25 0.089 0.0260
4294.78 0.119 0.0234
4303.82 0.212 0.0247
4340.47 43.49 0.2613
4349.43 0.311 0.1397
4363.21 8.181 0.2512
4366.89 0.333 0.2806
4369.86 0.163 0.2077
4379.11 0.526 0.0305
4387.93 0.502 0.0289
4391.99 0.091 0.0308
4409.30 0.101 0.0174
4414.90 0.161 0.0143
4416.97 0.075 0.0104
4428.64 0.060 0.0105
4430.94 0.057 0.0104
4432.75 0.096 0.0123
4437.55 0.076 0.0111
4448.19 0.096 0.0169
4452.37 0.096 0.0169
4457.05 0.088 0.0169
4466.42 0.081 0.0169
4471.50 4.269 0.0316
4491.07 0.060 0.0267
4510.91 0.161 0.0239
4514.86 0.069 0.0232
4523.58 0.045 0.0131
4534.58 0.084 0.0131
4541.59 0.993 0.0243
4552.53 0.031 0.0140
4562.60 0.084 0.0223
4571.10 0.133 0.0215
4590.97 0.102 0.0158
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4601.48 0.057 0.0152
4607.16 0.024 0.0139
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4634.14 1.310 0.0246
4638.86 0.286 0.0217
4640.64 2.723 0.0398
4641.81 0.592 0.0994
4641.84 0.262 0.0049
4647.42 0.138 0.0069
4649.13 0.956 0.0227
4650.25 0.083 0.0041
4650.84 0.319 0.0401
4651.47 0.028 0.0014
4658.64 0.174 0.0188
4661.63 0.282 0.0190
4669.27 0.043 0.0187
4673.73 0.096 0.0187
4676.24 0.237 0.0189
4685.68 30.56 0.0878
4711.37 4.239 0.0884
4713.17 0.513 0.0497
4724.15 0.142 0.0725
4725.62 0.071 0.0557
4740.17 4.175 0.0835
4861.33 100.0 0.9793
4921.93 1.152 0.0524
4931.80 0.381 0.0818
4958.91 400.6 0.9628
5006.84 1353. 6.0036
5875.66 14.04 0.1598
6300.34 1.864 0.1538
6312.10 1.420 0.1532
6363.78 0.781 0.1616
6527.11 0.580 0.9436
6548.10 10.15 1.9171
6562.77 314.8 1.7656
6583.50 25.16 1.7704
6678.16 4.341 0.1469
6716.44 2.263 0.1447
6730.82 2.761 0.1515
7005.67 0.691 0.2051
7065.25 4.484 0.2093
7135.80 15.70 0.2121
7281.35 0.566 0.2247
7318.92 1.879 0.2039
7329.67 1.776 0.2202
7751.43 3.034 0.2411
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/WR16.dat�����������������������������������������������������������������������0000664�0000000�0000000�00000000531�12714613141�0016104�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic WR nebula
#from Stock et al., MNRAS, 418, 2532
#Wavelengths are only to 1 decimal place so the -id option needs to be specified for NEAT analysis
4101.7 22.63 2.12
4340.5 28.86 2.12
4861.3 100.00 2.52
4958.9 7.17 2.18
5006.8 7.67 2.12
6548.1 288.38 14.40
6562.8 1711.12 16.04
6583.5 1140.75 12.77
6678.2 55.69 12.10
7135.8 43.66 10.92
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/WR40.dat�����������������������������������������������������������������������0000664�0000000�0000000�00000000653�12714613141�0016106�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic WR nebula
#from Stock et al., MNRAS, 418, 2532
#Wavelengths are only to 1 decimal place so the -id option needs to be specified for NEAT analysis
3727.0 22.43 6.32
4101.7 17.36 0.86
4340.5 35.20 0.87
4471.5 7.60 1.08
4861.3 100.00 1.03
5006.8 8.82 0.86
6548.1 144.02 5.77
6562.8 631.23 6.23
6583.5 543.30 5.04
6678.2 17.91 4.67
6716.4 13.82 5.51
6730.8 9.92 5.47
7135.8 13.58 4.75
9068.6 19.45 1.71
9530.6 41.63 2.56
�������������������������������������������������������������������������������������NEAT-master/examples/WR8.dat������������������������������������������������������������������������0000664�0000000�0000000�00000000661�12714613141�0016031�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic WR nebula
#from Stock et al., MNRAS, 418, 2532
#Wavelengths are only to 1 decimal place so the -id option needs to be specified for NEAT analysis
3727.0 60.72 6.98
4101.7 23.93 4.04
4340.5 48.52 4.03
4861.3 100.00 4.20
4958.9 109.15 4.27
5006.8 226.13 4.84
6548.1 108.59 7.83
6562.8 1026.07 9.40
6583.5 438.50 4.91
6678.2 43.01 4.69
6716.4 16.99 6.30
6730.8 11.27 6.13
7135.8 47.69 4.63
9068.6 65.30 6.31
9530.6 84.69 9.40
�������������������������������������������������������������������������������NEAT-master/examples/h1013.dat����������������������������������������������������������������������0000664�0000000�0000000�00000002614�12714613141�0016145�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Esteban et al. 2009, ApJ, 700,654
3634.25 0.29 0.08
3669.47 0.28 0.08
3671.48 0.30 0.08
3673.76 0.30 0.08
3676.37 0.46 0.09
3679.36 0.40 0.09
3682.81 0.49 0.09
3686.83 0.6 0.1
3691.56 0.7 0.1
3697.15 0.8 0.1
3703.86 0.9 0.1
3705.04 0.39 0.09
3711.97 1.1 0.1
3721.94 1.7 0.1
3726.03 57 2
3728.82 78 3
3734.37 1.5 0.1
3750.15 2.0 0.2
3770.63 3.1 0.2
3797.9 4.2 0.2
3819.61 0.8 0.1
3835.39 6.4 0.3
3868.75 2.8 0.2
3889.05 16.9 0.7
3964.73 0.7 0.1
3967.46 0.8 0.1
3970.07 15.8 0.6
4009.22 0.18 0.07
4026.21 1.7 0.1
4068.6 0.7 0.1
4076.35 0.36 0.08
4101.74 25.3 0.9
4143.76 0.24 0.07
4267.15 0.28 0.08
4340.47 44 1
4363.21 0.19 0.07
4387.93 0.52 0.09
4649.13 0.07 0.03
4658.1 0.25 0.04
4701.53 0.14 0.03
4713.14 0.30 0.04
4861.33 100 3
4921.93 1.05 0.06
4958.91 33 1
4985.9 0.32 0.04
5006.84 97 3
5015.68 1.99 0.09
5041.03 0.14 0.03
5047.74 0.13 0.03
5055.98 0.11 0.03
5197.9 0.33 0.04
5200.26 0.26 0.04
5270.4 0.18 0.04
5517.71 0.39 0.05
5537.60 0.25 0.04
5754.64 0.43 0.05
5875.64 11.3 0.5
5957.56 0.07 0.03
5978.93 0.09 0.03
6300.3 1.44 0.09
6312.1 0.72 0.06
6347.11 0.13 0.03
6363.78 0.31 0.04
6371.36 0.14 0.03
6548.03 20 1
6562.82 282 16
6578.05 0.23 0.04
6583.41 59 3
6678.15 3.1 0.2
6716.47 14.9 0.9
6730.85 11.0 0.7
7065.28 1.7 0.1
7135.78 6.8 0.5
7281.35 0.40 0.05
7318.39 1.1 0.1
7377.83 0.15 0.03
7423.6 0.05 0.02
7442.99 0.07 0.02
7451.87 1.8 0.1
7457.3 2.2 0.2
7468.31 0.08 0.02
��������������������������������������������������������������������������������������������������������������������NEAT-master/examples/k932.dat�����������������������������������������������������������������������0000664�0000000�0000000�00000003312�12714613141�0016075�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Esteban et al. 2009, ApJ, 700,654
3587.28 0.34 0.08
3613.64 0.46 0.09
3634.25 0.49 0.09
3661.22 0.27 0.08
3662.26 0.23 0.08
3663.4 0.34 0.08
3664.68 0.21 0.08
3666.1 0.31 0.08
3667.68 0.36 0.08
3669.47 0.37 0.08
3671.48 0.45 0.09
3673.76 0.51 0.09
3676.37 0.63 0.09
3679.36 0.69 0.09
3682.81 0.73 0.09
3686.83 0.86 0.09
3691.56 0.93 0.09
3697.15 1.11 0.09
3703.86 1.4 0.1
3705.04 0.66 0.09
3711.97 1.5 0.1
3721.83 2.7 0.1
3726.03 65 1
3728.82 78 1
3734.37 2.3 0.1
3750.15 3.0 0.1
3770.63 3.9 0.1
3797.9 5.1 0.1
3819.61 1.08 0.09
3835.39 7.3 0.2
3868.75 15.8 0.3
3889.05 19.4 0.3
3964.73 0.86 0.08
3967.46 4.9 0.1
3970.07 15.9 0.3
4026.21 1.94 0.09
4068.6 0.72 0.08
4069.62 0.18 0.07
4076.35 0.32 0.07
4101.74 26.4 0.4
4120.82 0.21 0.07
4143.76 0.25 0.07
4267.15 0.22 0.06
4340.47 47.1 0.6
4363.21 0.95 0.07
4387.93 0.54 0.06
4471.09 4.34 0.09
4638.86 0.06 0.01
4641.81 0.06 0.01
4649.13 0.06 0.01
4650.84 0.12 0.02
4658.1 0.33 0.02
4661.63 0.07 0.01
4701.53 0.09 0.01
4711.37 0.05 0.01
4713.14 0.40 0.02
4740.16 0.04 0.01
4744.35 0.03 0.01
4754.83 0.05 0.01
4769.6 0.05 0.01
4861.33 100 1
4881 0.07 0.01
4921.93 1.11 0.03
4958.91 93 1
4979.87 0.07 0.01
4985.9 0.19 0.02
5006.84 283 3
5015.68 2.13 0.04
5041.03 0.11 0.01
5047.74 0.17 0.02
5055.98 0.10 0.01
5197.9 0.26 0.02
5200.26 0.20 0.02
5517.71 0.40 0.02
5537.88 0.32 0.02
5754.64 0.39 0.02
5875.64 11.7 0.2
5978.93 0.06 0.01
6300.3 0.66 0.02
6312.1 1.11 0.04
6347.11 0.075 0.007
6363.78 0.23 0.01
6371.36 0.075 0.007
6548.03 10.4 0.3
6562.82 293 10
6583.41 32 1
6678.15 3.2 0.1
6716.47 8.9 0.3
6730.85 6.9 0.3
7135.78 8.7 0.4
7281.35 0.46 0.03
7318.39 0.34 0.02
7319.99 1.06 0.06
7329.66 0.55 0.03
7330.73 0.62 0.04
7451.87 1.23 0.07
7457.3 1.41 0.08
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/lmc_n11b.dat�������������������������������������������������������������������0000664�0000000�0000000�00000003760�12714613141�0017010�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#LMC HII region
#from Tsamis et al., 2003, MNRAS, 338, 687
3726.03 79.200
3728.82 105.000
3868.75 19.700
3888.65 21.500
3967.46 3.380
3970.07 13.500
4068.60 0.837
4069.62 0.307
4072.16 0.099
4076.35 0.489
4078.84 0.161
4086.71 0.136
4083.90 0.149
4085.11 0.105
4087.15 0.110
4089.29 0.126
4101.74 26.800
4110.78 0.151
4116.86 0.144
4120.84 0.274
4129.32 0.108
4132.80 0.132
4143.76 0.307
4153.30 0.095
4156.53 0.124
4164.34 0.230
4169.09 0.229
4176.16 0.086
4186.90 0.086
4189.79 0.151
4207.42 0.129
4212.17 0.390
4218.52 0.115
4221.32 0.175
4237.05 0.097
4241.78 0.288
4248.15 0.203
4252.73 0.257
4263.04 0.194
4265.80 0.254
4267.15 0.191
4276.28 0.416
4281.32 0.261
4285.69 0.107
4291.25 0.273
4312.11 0.379
4315.40 0.782
4317.14 0.131
4319.63 0.334
4325.76 0.286
4329.08 0.189
4331.13 0.282
4340.47 45.800
4349.43 0.131
4353.59 0.131
4363.21 1.650
4387.93 0.485
4412.00 0.200
4414.90 0.218
4471.50 4.240
4541.25 0.041
4537.54 0.088
4534.58 0.058
4542.95 0.079
4546.93 0.078
4555.00 0.149
4556.39 0.026
4562.60 0.192
4571.10 0.201
4584.40 0.059
4604.43 0.046
4638.49 0.115
4640.64 0.027
4641.81 0.053
4649.13 0.075
4650.84 0.063
4658.10 0.269
4661.63 0.070
4667.00 0.025
4673.73 0.030
4681.44 0.050
4691.31 0.081
4696.35 0.034
4701.62 0.090
4706.60 0.026
4713.17 0.506
4719.94 0.062
4728.09 0.018
4740.17 0.112
4745.48 0.024
4754.83 0.087
4769.60 0.039
4774.74 0.026
4798.87 0.022
4815.88 0.065
4814.55 0.100
4861.33 100.000
4881.11 0.053
4900.50 0.029
4921.93 1.080
4924.53 0.126
4931.80 0.074
4958.91 110.000
5006.84 332.000
5052.34 0.132
5060.59 0.473
5517.66 0.507
5537.60 0.494
5752.46 0.123
5754.60 0.209
5875.66 15.200
6548.10 6.110
6562.77 334.000
6583.50 17.500
6678.16 3.890
6716.44 15.000
6730.82 11.100
7065.25 2.480
7135.80 12.300
7281.35 1.830
7318.92 4.600
7329.67 6.260
����������������NEAT-master/examples/m17.dat������������������������������������������������������������������������0000664�0000000�0000000�00000002245�12714613141�0016015�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic HII region
#from Tsamis et al., 2003, MNRAS, 338, 687
3727.00 31.100
3750.15 1.130
3770.63 1.310
3797.90 1.610
3819.62 0.413
3835.39 2.410
3868.75 6.910
3888.65 6.230
3967.46 8.240
4009.26 0.126
4026.21 0.973
4068.60 0.260
4076.35 0.070
4101.74 11.900
4119.22 0.054
4120.84 0.090
4143.76 0.135
4267.15 0.261
4317.14 0.064
4319.63 0.019
4340.47 27.900
4345.56 0.039
4349.43 0.063
4363.21 0.611
4387.93 0.406
4437.55 0.054
4471.50 3.280
4607.16 0.046
4630.54 0.052
4634.14 0.034
4638.49 0.084
4640.64 0.028
4641.44 0.128
4649.13 0.110
4650.84 0.070
4658.10 0.225
4661.63 0.085
4676.24 0.052
4711.37 0.070
4713.17 0.451
4740.17 0.062
4803.29 0.029
4861.33 100.000
4881.11 0.104
4906.83 0.054
4921.93 1.420
4931.80 0.045
4958.91 130.000
5006.84 413.000
5199.84 0.404
5517.66 0.873
5537.60 0.775
5666.53 0.123
5676.02 0.037
5679.56 0.118
5754.60 0.740
5875.66 36.100
6312.10 4.770
6548.10 35.200
6562.77 1170.000
6583.50 108.000
6678.16 16.200
6716.44 17.200
6730.82 17.600
7065.25 18.100
7135.80 57.400
7281.35 5.490
7319.45 6.610
7330.20 5.170
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_02.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0016773�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 391.00 33.00
4101.74 26.00 2.00
4340.47 41.00 3.00
4958.91 44.00 3.00
5006.84 130.00 8.00
5875.66 11.90 1.20
6548.10 17.00 2.00
6562.77 286.00 28.00
6583.50 47.00 5.00
6678.16 3.20 0.70
6716.44 26.00 3.00
6730.82 19.00 2.00
7135.80 6.10 0.90
7325.00 8.40 1.60
9068.60 26.00 5.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_03.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0016775�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 333.00 25.00
3868.75 25.30 3.50
4101.74 29.00 4.00
4340.47 47.00 4.00
4958.91 100.00 8.00
5006.84 298.00 21.00
5200.00 8.60 3.27
5875.66 14.00 1.60
6300.30 7.00 1.30
6548.10 16.00 2.00
6562.77 288.00 23.00
6583.50 43.00 4.00
6716.44 34.00 3.00
6730.82 23.00 2.00
7135.80 7.20 1.30
9068.60 20.00 4.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc1232_04.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016764�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 207.00 17.00
3868.75 29.10 2.40
4101.74 28.00 2.00
4072.00 1.95 0.36
4340.47 45.00 2.00
4471.50 4.30 0.40
4958.91 135.00 8.00
5006.84 401.00 24.00
5875.66 10.60 0.90
6300.30 2.00 0.20
6312.10 1.47 0.19
6548.10 7.00 1.00
6562.77 276.00 26.00
6583.50 22.00 2.00
6678.16 3.30 0.40
6716.44 14.00 1.00
6730.82 9.00 1.00
7135.80 8.20 0.90
7325.00 4.00 0.50
9068.60 19.00 4.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_05.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001077�12714613141�0016776�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 253.00 16.00
3868.75 4.80 0.60
4101.74 25.00 1.00
4072.00 2.88 0.29
4340.47 46.00 2.00
4471.50 3.90 0.30
4958.91 34.00 2.00
5006.84 100.00 6.00
5200.00 2.06 0.23
5754.60 0.54 0.15
5875.66 11.90 0.80
6300.30 3.00 0.20
6312.10 0.66 0.11
6548.10 28.00 2.00
6562.77 287.00 20.00
6583.50 83.00 6.00
6678.16 3.60 0.30
6716.44 34.00 2.00
6730.82 25.00 2.00
7135.80 6.50 0.50
7325.00 3.40 0.30
9068.60 25.00 5.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_06.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000775�12714613141�0017003�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 211.00 14.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4471.50 3.00 0.80
4958.91 18.00 1.00
5006.84 50.00 3.00
5200.00 2.19 0.82
5754.60 0.66 0.26
5875.66 9.30 0.70
6300.30 3.70 0.40
6548.10 30.00 2.00
6562.77 287.00 20.00
6583.50 90.00 6.00
6678.16 2.90 0.40
6716.44 44.00 3.00
6730.82 31.00 2.00
7135.80 3.70 0.40
7325.00 3.20 0.40
9068.60 3.00 1.00
4861.33 100.00 2.00
���NEAT-master/examples/ngc1232_07.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016767�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 163.00 10.00
4101.74 23.00 1.00
4340.47 46.00 2.00
4471.50 3.10 0.30
4958.91 7.00 1.00
5006.84 22.00 1.00
5200.00 1.91 0.23
5754.60 0.39 0.16
5875.66 9.70 0.60
6300.30 2.10 0.20
6312.10 0.36 0.15
6548.10 36.00 3.00
6562.77 286.00 20.00
6583.50 120.00 8.00
6678.16 2.70 0.20
6716.44 38.00 3.00
6730.82 24.00 2.00
7135.80 2.60 0.20
7325.00 1.40 0.20
9068.60 17.00 3.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_08.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017000�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 58.00 5.00
4101.74 24.00 2.00
4340.47 47.00 3.00
4958.91 3.00 1.00
5006.84 6.00 1.00
5875.66 7.00 1.00
6548.10 22.00 2.00
6562.77 292.00 25.00
6583.50 61.00 5.00
6678.16 1.30 0.40
6716.44 18.00 2.00
6730.82 13.00 1.00
7135.80 0.80 0.30
9068.60 6.00 1.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_09.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017001�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 87.00 7.00
4101.74 23.00 2.00
4340.47 47.00 3.00
4958.91 3.00 1.00
5006.84 8.00 1.00
5875.66 10.20 1.20
6300.30 1.50 0.60
6548.10 26.00 3.00
6562.77 292.00 28.00
6583.50 78.00 7.00
6678.16 3.40 1.10
6716.44 32.00 3.00
6730.82 20.00 2.00
9068.60 7.00 1.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_10.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000775�12714613141�0016776�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 134.00 11.00
3868.75 2.40 1.30
4101.74 25.00 1.00
4340.47 49.00 3.00
4471.50 4.10 0.50
4958.91 8.00 1.00
5006.84 23.00 1.00
5200.00 2.35 0.39
5875.66 9.30 0.80
6300.30 2.30 0.30
6548.10 31.00 3.00
6562.77 286.00 27.00
6583.50 92.00 9.00
6678.16 2.30 0.30
6716.44 34.00 3.00
6730.82 24.00 2.00
7135.80 2.70 0.40
7325.00 1.20 0.30
9068.60 15.00 3.00
4861.33 100.00 2.00
���NEAT-master/examples/ngc1232_11.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016762�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 337.00 23.00
3868.75 15.40 2.60
4101.74 25.00 3.00
4072.00 25.84 3.20
4340.47 47.00 3.00
4471.50 8.00 1.10
4958.91 20.00 2.00
5006.84 63.00 4.00
5200.00 12.01 1.21
5875.66 11.70 1.20
6300.30 42.40 3.20
6548.10 60.00 5.00
6562.77 291.00 21.00
6583.50 180.00 13.00
6678.16 2.90 0.60
6716.44 97.00 7.00
6730.82 85.00 6.00
7135.80 4.20 0.70
7325.00 15.90 1.60
9068.60 12.00 2.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_12.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0016774�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 276.00 24.00
4101.74 26.00 3.00
4340.47 45.00 4.00
4958.91 17.00 3.00
5006.84 39.00 4.00
5875.66 12.20 2.40
6300.30 2.50 0.20
6548.10 28.00 3.00
6562.77 288.00 28.00
6583.50 84.00 8.00
6678.16 3.00 0.60
6716.44 35.00 4.00
6730.82 24.00 3.00
7135.80 3.40 0.60
9068.60 13.00 3.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_14.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001077�12714613141�0016776�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 305.00 19.00
3868.75 4.10 0.40
4101.74 26.00 1.00
4072.00 5.14 0.38
4340.47 46.00 2.00
4471.50 3.20 0.40
4958.91 27.00 2.00
5006.84 80.00 5.00
5200.00 2.09 0.20
5754.60 0.84 0.12
5875.66 11.40 0.70
6300.30 5.70 0.40
6312.10 0.80 0.12
6548.10 34.00 2.00
6562.77 286.00 20.00
6583.50 93.00 6.00
6678.16 3.50 0.30
6716.44 43.00 3.00
6730.82 35.00 2.00
7135.80 6.10 0.50
7325.00 5.40 0.40
9068.60 19.00 4.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1232_15.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000721�12714613141�0016772�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 458.00 32.00
4101.74 25.00 2.00
4340.47 46.00 3.00
4958.91 35.00 3.00
5006.84 103.00 7.00
5200.00 6.19 2.32
5875.66 9.10 1.00
6300.30 11.50 1.20
6548.10 21.00 2.00
6562.77 286.00 21.00
6583.50 55.00 4.00
6678.16 2.70 0.90
6716.44 60.00 5.00
6730.82 36.00 3.00
7135.80 6.10 0.90
7325.00 9.10 1.20
9068.60 14.00 3.00
4861.33 100.00 2.00
�����������������������������������������������NEAT-master/examples/ngc1365_03.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017004�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 242.00 20.00
4101.74 25.00 2.00
4340.47 44.00 3.00
4958.91 20.00 1.00
5006.84 71.00 4.00
5875.66 11.00 1.00
6300.30 2.70 0.50
6548.10 28.00 3.00
6562.77 287.00 27.00
6583.50 85.00 8.00
6678.16 3.60 0.60
6716.44 27.00 3.00
6730.82 20.00 2.00
7135.80 6.60 0.90
7325.00 2.40 0.80
9068.60 30.00 6.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc1365_04.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017003�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 193.00 13.00
4340.47 46.00 3.00
4958.91 25.00 3.00
5006.84 67.00 5.00
5875.66 11.20 1.40
6300.30 3.20 1.00
6548.10 32.00 3.00
6562.77 285.00 20.00
6583.50 93.00 7.00
6678.16 3.20 1.00
6716.44 41.00 3.00
6730.82 34.00 3.00
7135.80 4.00 1.00
9068.60 16.00 3.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_05.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016774�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 169.00 11.00
4101.74 25.00 1.00
4072.00 2.43 0.40
4340.47 46.00 2.00
4958.91 9.00 1.00
5006.84 25.00 1.00
5200.00 2.32 0.24
5754.60 0.45 0.18
5875.66 9.40 0.60
6300.30 2.40 0.20
6312.10 0.32 0.11
6548.10 34.00 2.00
6562.77 286.00 20.00
6583.50 101.00 7.00
6678.16 2.20 0.20
6716.44 38.00 3.00
6730.82 28.00 2.00
7135.80 2.30 0.20
7325.00 1.60 0.20
9068.60 16.00 3.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_06.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017006�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 164.00 11.00
4101.74 25.00 2.00
4340.47 46.00 3.00
4958.91 12.00 2.00
5006.84 32.00 3.00
5875.66 10.40 0.90
6300.30 2.50 0.50
6548.10 31.00 2.00
6562.77 287.00 20.00
6583.50 91.00 7.00
6678.16 1.90 0.40
6716.44 39.00 3.00
6730.82 28.00 2.00
7135.80 1.60 0.40
9068.60 13.00 3.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_07.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017007�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 320.00 21.00
4101.74 25.00 2.00
4340.47 46.00 3.00
4958.91 45.00 3.00
5006.84 134.00 8.00
5875.66 10.70 1.50
6300.30 8.70 1.00
6548.10 27.00 2.00
6562.77 285.00 20.00
6583.50 81.00 6.00
6678.16 2.20 0.70
6716.44 58.00 4.00
6730.82 39.00 3.00
7135.80 4.30 0.80
9068.60 18.00 4.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_08.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001051�12714613141�0017000�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 172.00 11.00
3868.75 3.90 0.50
4101.74 26.00 1.00
4340.47 46.00 2.00
4471.50 3.50 0.30
4958.91 20.00 1.00
5006.84 60.00 4.00
5200.00 1.73 0.28
5754.60 0.66 0.15
5875.66 11.20 0.70
6300.30 1.80 0.20
6312.10 0.63 0.13
6548.10 29.00 2.00
6562.77 286.00 20.00
6583.50 86.00 6.00
6678.16 2.80 0.20
6716.44 30.00 2.00
6730.82 22.00 2.00
7135.80 4.10 0.30
7325.00 2.00 0.30
9068.60 19.00 4.00
4861.33 100.00 2.00
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_09.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017012�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 28.00 2.00
4101.74 30.00 1.00
4340.47 46.00 2.00
4958.91 3.00 1.00
5006.84 6.00 1.00
5200.00 2.25 0.39
5875.66 7.70 0.60
6300.30 1.40 0.20
6548.10 40.00 4.00
6562.77 286.00 26.00
6583.50 106.00 10.00
6678.16 1.70 0.20
6716.44 28.00 3.00
6730.82 23.00 2.00
7135.80 0.70 0.20
9068.60 12.00 2.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc1365_10.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017001�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 135.00 11.00
4101.74 25.00 1.00
4340.47 49.00 3.00
4958.91 6.00 1.00
5006.84 17.00 1.00
5875.66 9.40 0.80
6300.30 0.80 0.20
6548.10 31.00 3.00
6562.77 286.00 27.00
6583.50 91.00 9.00
6678.16 2.30 0.30
6716.44 27.00 3.00
6730.82 19.00 2.00
7135.80 2.50 0.40
9068.60 13.00 3.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_11.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017001�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 165.00 16.00
4340.47 46.00 5.00
4958.91 11.00 3.00
5006.84 26.00 4.00
5875.66 10.00 1.20
6300.30 5.10 0.80
6548.10 36.00 4.00
6562.77 287.00 29.00
6583.50 111.00 11.00
6678.16 2.60 0.70
6716.44 41.00 4.00
6730.82 30.00 3.00
7135.80 2.60 0.50
9068.60 9.00 2.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_12.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000721�12714613141�0016776�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 175.00 14.00
4101.74 24.00 2.00
4340.47 47.00 3.00
4958.91 11.00 1.00
5006.84 30.00 2.00
5200.00 3.40 0.68
5875.66 9.60 0.80
6300.30 3.60 0.50
6548.10 35.00 3.00
6562.77 287.00 27.00
6583.50 103.00 10.00
6678.16 2.70 0.40
6716.44 44.00 4.00
6730.82 32.00 3.00
7135.80 2.60 0.40
7325.00 1.60 0.30
9068.60 14.00 3.00
4861.33 100.00 2.00
�����������������������������������������������NEAT-master/examples/ngc1365_13.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017005�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 209.00 22.00
3868.75 3.30 1.40
4101.74 26.00 2.00
4340.47 49.00 3.00
4958.91 15.00 1.00
5006.84 46.00 3.00
5875.66 11.80 1.20
6300.30 2.80 0.50
6548.10 33.00 4.00
6562.77 306.00 38.00
6583.50 101.00 13.00
6678.16 2.90 0.50
6716.44 38.00 5.00
6730.82 27.00 4.00
7135.80 4.10 0.70
9068.60 16.00 3.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc1365_14.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016774�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 209.00 13.00
3868.75 4.40 1.20
4101.74 25.00 1.00
4340.47 46.00 2.00
4471.50 3.40 0.50
4958.91 13.00 1.00
5006.84 39.00 2.00
5200.00 1.90 0.36
5875.66 9.80 0.70
6300.30 3.10 0.30
6312.10 0.38 0.16
6548.10 31.00 2.00
6562.77 287.00 20.00
6583.50 91.00 6.00
6678.16 2.60 0.30
6716.44 36.00 3.00
6730.82 25.00 2.00
7135.80 3.10 0.30
7325.00 1.30 0.20
9068.60 15.00 3.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_15.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001077�12714613141�0017006�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 221.00 18.00
3868.75 2.70 0.30
4101.74 26.00 1.00
4072.00 1.29 0.18
4340.47 53.00 3.00
4471.50 3.70 0.30
4958.91 26.00 2.00
5006.84 74.00 4.00
5200.00 1.52 0.18
5754.60 0.92 0.11
5875.66 12.70 1.00
6300.30 2.20 0.20
6312.10 1.00 0.12
6548.10 41.00 4.00
6562.77 286.00 27.00
6583.50 128.00 12.00
6678.16 3.90 0.40
6716.44 32.00 3.00
6730.82 24.00 2.00
7135.80 7.40 0.80
7325.00 3.10 0.40
9068.60 33.00 7.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_16.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016776�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 244.00 16.00
3868.75 6.50 1.00
4101.74 25.00 1.00
4340.47 48.00 3.00
4471.50 5.10 0.80
4958.91 34.00 2.00
5006.84 93.00 6.00
5200.00 2.14 0.62
5875.66 12.40 0.90
6300.30 1.30 0.30
6312.10 0.78 0.28
6548.10 24.00 2.00
6562.77 286.00 20.00
6583.50 67.00 5.00
6678.16 3.20 0.40
6716.44 25.00 2.00
6730.82 18.00 1.00
7135.80 4.70 0.50
7325.00 4.00 0.60
9068.60 19.00 4.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc1365_17.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016777�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 360.00 22.00
3868.75 8.30 1.50
4101.74 25.00 1.00
4072.00 3.05 0.63
4340.47 46.00 3.00
4471.50 3.80 1.10
4958.91 35.00 2.00
5006.84 100.00 6.00
5200.00 2.90 1.38
5875.66 10.70 0.80
6300.30 4.90 0.50
6548.10 27.00 2.00
6562.77 286.00 18.00
6583.50 88.00 6.00
6678.16 3.20 0.50
6716.44 56.00 4.00
6730.82 40.00 3.00
7135.80 5.20 0.50
7325.00 5.60 0.90
9068.60 20.00 4.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2022.dat��������������������������������������������������������������������0000664�0000000�0000000�00000002421�12714613141�0016462�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#optical fluxes from Tsamis et al., 2003, MNRAS, 345, 186
#UV and IR from Pottasch et al., 2005, A&A, 436, 953
1240.00 0.470
1400.00 1.110
1485.00 0.640
1549.00 9.960
1575.00 0.320
1602.00 0.310
1640.00 7.800
1665.56 0.310
1751.00 0.380
1906.68 3.470
1908.73 2.340
2308.00 0.470
2424.00 3.990
2512.00 0.340
2733.00 0.550
3046.00 0.350
3130.00 1.990
3200.00 1.050
3425.50 3.800
3727.00 14.100
3868.75 56.500
4101.74 28.000
4267.15 0.820
4340.47 51.100
4363.21 14.100
4685.68 112.000
4711.37 14.300
4724.15 1.070
4725.62 0.865
4740.17 12.400
4861.33 100.000
5006.84 735.000
5517.66 0.429
5537.60 0.358
5876.00 1.940
6102.00 0.658
6312.10 1.880
6562.77 300.000
6583.50 2.280
6716.44 0.655
6730.82 0.731
7005.40 3.640
7135.80 9.510
7237.00 0.559
7319.45 0.347
7330.20 0.359
4.05 0.883
4.49 3.860
5.61 2.380
7.90 1.900
9.00 1.520
10.50 21.000
12.80 1.360
13.10 1.900
14.30 17.600
15.50 7.480
18.70 2.230
36.00 1.560
52.00 35.100
57.00 6.020
88.00 11.200
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2363.dat��������������������������������������������������������������������0000664�0000000�0000000�00000004505�12714613141�0016477�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Esteban et al. 2009, ApJ, 700,654
3554.42 0.22 0.03
3587.28 0.17 0.03
3613.64 0.22 0.03
3634.25 0.29 0.03
3662.26 0.07 0.02
3663.4 0.12 0.03
3664.68 0.15 0.03
3666.1 0.19 0.03
3667.68 0.23 0.03
3669.47 0.26 0.03
3671.48 0.29 0.03
3673.76 0.32 0.03
3676.37 0.39 0.03
3679.36 0.40 0.03
3682.81 0.49 0.04
3686.83 0.56 0.04
3691.56 0.64 0.04
3697.15 0.80 0.05
3703.86 0.85 0.05
3705.04 0.42 0.03
3711.97 1.08 0.06
3721.83 1.94 0.09
3726.03 11.4 0.5
3728.82 13.8 0.6
3734.37 1.58 0.07
3750.15 2.2 0.1
3770.63 3.0 0.1
3797.9 4.5 0.2
3805.74 0.07 0.02
3819.61 0.82 0.05
3835.39 6.4 0.3
3868.75 47 2
3871.82 0.07 0.02
3889.05 18.1 0.7
3926.53 0.10 0.02
3964.73 0.67 0.04
3967.46 13.9 0.5
3970.07 15.3 0.6
4009.22 0.15 0.03
4026.21 1.70 0.07
4068.6 0.40 0.03
4069.62 0.06 0.02
4076.35 0.13 0.01
4101.74 25.4 0.9
4120.82 0.18 0.01
4143.76 0.26 0.01
4168.97 0.056 0.008
4227.91 0.038 0.008
4267.15 0.035 0.007
4287.4 0.027 0.007
4340.47 44 1
4359.34 0.028 0.007
4363.21 13.7 0.5
4387.93 0.43 0.02
4638.86 0.018 0.006
4641.81 0.027 0.007
4649.13 0.021 0.006
4650.84 0.036 0.007
4658.1 0.12 0.01
4661.63 0.024 0.006
4685.71 0.25 0.01
4701.53 0.030 0.007
4711.37 2.24 0.07
4713.14 0.53 0.02
4740.16 1.74 0.06
4754.83 0.021 0.006
4861.33 100 3
4881 0.039 0.007
4899.97 0.017 0.006
4902.65 0.047 0.007
4906.56 0.037 0.007
4917.98 0.018 0.007
4921.93 1.00 0.03
4931.32 0.082 0.009
4958.91 234 7
4985.9 0.11 0.01
5006.84 572 17
5015.68 1.77 0.06
5028.6 0.051 0.008
5031.34 0.027 0.006
5033.59 0.022 0.006
5041.03 0.054 0.008
5047.74 0.16 0.01
5055.98 0.030 0.007
5158.81 0.014 0.006
5191.82 0.085 0.009
5197.9 0.105 0.009
5200.26 0.050 0.008
5233.46 0.015 0.006
5270.4 0.063 0.008
5274.81 0.014 0.006
5322.99 0.018 0.006
5412 0.028 0.007
5512.77 0.015 0.006
5517.71 0.25 0.01
5537.88 0.18 0.01
5577.34 0.025 0.006
5754.64 0.047 0.008
5875.64 10.3 0.4
5957.56 0.027 0.007
5978.93 0.025 0.006
6300.3 0.93 0.04
6312.1 1.24 0.06
6363.78 0.32 0.02
6371.36 0.034 0.004
6548.03 0.58 0.03
6562.82 257 12
6578.05 0.007 0.002
6583.41 1.74 0.09
6678.15 2.6 0.1
6716.47 3.8 0.2
6730.85 3.0 0.2
6734 0.062 0.006
6739.8 0.034 0.004
6761.3 0.013 0.003
6795.1 0.020 0.004
7080.57 0.022 0.004
7135.78 4.4 0.3
7170.5 0.074 0.007
7281.35 0.48 0.03
7318.39 0.74 0.05
7329.66 0.63 0.04
7394.08 0.016 0.003
7423.6 0.036 0.005
7442.99 0.073 0.007
7451.87 0.42 0.03
7457.3 0.50 0.03
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2903_02.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017000�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 213.00 15.00
4101.74 24.00 2.00
4340.47 46.00 3.00
4958.91 17.00 2.00
5006.84 56.00 4.00
5875.66 10.00 1.60
6548.10 31.00 3.00
6562.77 283.00 20.00
6583.50 91.00 7.00
6678.16 4.40 1.50
6716.44 48.00 4.00
6730.82 33.00 3.00
7135.80 5.60 1.40
9068.60 18.00 4.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2903_03.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000571�12714613141�0017000�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 202.00 13.00
4101.74 26.00 1.00
4340.47 46.00 2.00
4958.91 32.00 2.00
5006.84 92.00 6.00
5875.66 12.10 1.20
6548.10 27.00 2.00
6562.77 286.00 20.00
6583.50 82.00 6.00
6716.44 35.00 3.00
6730.82 25.00 2.00
7135.80 5.70 0.90
9068.60 29.00 6.00
4861.33 100.00 2.00
���������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2903_04.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017002�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 233.00 20.00
4101.74 25.00 3.00
4340.47 46.00 3.00
4958.91 21.00 3.00
5006.84 48.00 4.00
5875.66 13.30 2.20
6548.10 27.00 3.00
6562.77 285.00 28.00
6583.50 83.00 8.00
6678.16 2.00 1.10
6716.44 34.00 4.00
6730.82 24.00 3.00
7135.80 4.90 1.50
9068.60 9.00 2.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2903_05.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017004�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 233.00 19.00
4101.74 25.00 1.00
4340.47 48.00 3.00
4471.50 3.20 0.40
4958.91 16.00 1.00
5006.84 47.00 3.00
5875.66 8.80 0.70
6548.10 32.00 3.00
6562.77 287.00 27.00
6583.50 96.00 9.00
6678.16 2.80 0.40
6716.44 43.00 4.00
6730.82 30.00 3.00
7135.80 4.80 0.60
9068.60 20.00 4.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc2903_06.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017005�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 196.00 14.00
4101.74 25.00 2.00
4340.47 46.00 3.00
4958.91 9.00 2.00
5006.84 25.00 2.00
5875.66 11.20 1.90
6548.10 39.00 4.00
6562.77 287.00 22.00
6583.50 121.00 9.00
6678.16 2.30 1.60
6716.44 39.00 3.00
6730.82 27.00 3.00
7135.80 4.70 1.60
7325.00 4.10 0.50
9068.60 31.00 6.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc2903_07.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017006�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 48.00 4.00
4101.74 29.00 2.00
4340.47 46.00 2.00
4958.91 1.00 1.00
5006.84 7.00 1.00
5200.00 2.73 0.30
5875.66 6.60 0.50
6548.10 31.00 3.00
6562.77 286.00 27.00
6583.50 92.00 9.00
6678.16 1.70 0.20
6716.44 26.00 3.00
6730.82 19.00 2.00
7135.80 0.70 0.10
9068.60 9.00 2.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc2903_08.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017007�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 36.00 3.00
4101.74 29.00 1.00
4340.47 46.00 2.00
4958.91 1.00 1.00
5006.84 3.00 1.00
5200.00 1.86 0.32
5875.66 5.80 0.50
6548.10 30.00 3.00
6562.77 287.00 27.00
6583.50 90.00 8.00
6678.16 1.70 0.20
6716.44 22.00 2.00
6730.82 17.00 2.00
7135.80 0.90 0.20
9068.60 11.00 2.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc2903_12.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017003�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 165.00 10.00
4101.74 24.00 1.00
4340.47 46.00 2.00
4471.50 4.30 0.40
4958.91 13.00 1.00
5006.84 42.00 3.00
5200.00 1.27 0.22
5875.66 9.00 0.60
6548.10 26.00 2.00
6562.77 286.00 20.00
6583.50 80.00 6.00
6678.16 2.70 0.30
6716.44 31.00 2.00
6730.82 22.00 2.00
7135.80 3.50 0.30
9068.60 18.00 4.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc2903_14.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017003�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 212.00 23.00
4101.74 25.00 3.00
4340.47 43.00 4.00
4958.91 13.00 2.00
5006.84 31.00 3.00
5875.66 11.10 2.20
6548.10 33.00 4.00
6562.77 264.00 34.00
6583.50 105.00 14.00
6678.16 3.70 0.80
6716.44 34.00 5.00
6730.82 24.00 3.00
7135.80 4.60 1.00
9068.60 23.00 5.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2997_03.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017020�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 235.00 19.00
4101.74 24.00 2.00
4340.47 44.00 3.00
4471.50 3.70 0.70
4958.91 21.00 1.00
5006.84 61.00 4.00
5875.66 7.70 0.70
6300.30 2.10 0.30
6548.10 23.00 2.00
6562.77 266.00 25.00
6583.50 69.00 7.00
6678.16 2.30 0.40
6716.44 32.00 3.00
6730.82 22.00 2.00
7135.80 4.30 0.60
9068.60 24.00 5.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc2997_04.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0017007�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 383.00 31.00
3868.75 10.20 1.00
4101.74 26.00 1.00
4340.47 46.00 3.00
4471.50 3.80 0.40
4958.91 51.00 3.00
5006.84 153.00 9.00
5200.00 3.02 0.50
5875.66 6.20 0.50
6300.30 5.60 0.50
6312.10 0.96 0.18
6548.10 22.00 2.00
6562.77 286.00 27.00
6583.50 58.00 6.00
6678.16 2.70 0.30
6716.44 37.00 4.00
6730.82 26.00 3.00
7135.80 7.60 0.90
7325.00 6.60 0.80
9068.60 26.00 5.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2997_05.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001051�12714613141�0017011�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 213.00 17.00
3868.75 3.30 0.40
4101.74 25.00 1.00
4340.47 46.00 2.00
4471.50 3.90 0.40
4958.91 28.00 2.00
5006.84 82.00 5.00
5200.00 2.07 0.31
5754.60 0.46 0.16
5875.66 7.60 0.60
6300.30 3.80 0.40
6312.10 0.54 0.11
6548.10 29.00 3.00
6562.77 287.00 27.00
6583.50 87.00 8.00
6678.16 3.00 0.30
6716.44 38.00 4.00
6730.82 27.00 3.00
7135.80 5.90 0.70
7325.00 3.40 0.40
9068.60 25.00 5.00
4861.33 100.00 2.00
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2997_06.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001077�12714613141�0017022�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 215.00 13.00
3868.75 2.70 0.30
4101.74 29.00 1.00
4072.00 1.65 0.27
4340.47 46.00 2.00
4471.50 3.80 0.30
4958.91 28.00 2.00
5006.84 81.00 5.00
5200.00 0.98 0.16
5754.60 0.58 0.10
5875.66 12.00 0.80
6300.30 1.70 0.20
6312.10 0.96 0.12
6548.10 29.00 2.00
6562.77 287.00 20.00
6583.50 84.00 6.00
6678.16 3.30 0.30
6716.44 21.00 1.00
6730.82 15.00 1.00
7135.80 6.60 0.50
7325.00 3.20 0.30
9068.60 30.00 6.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2997_07.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001051�12714613141�0017013�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 203.00 16.00
3868.75 3.10 0.70
4101.74 25.00 1.00
4340.47 49.00 3.00
4471.50 2.70 0.30
4958.91 15.00 1.00
5006.84 44.00 3.00
5200.00 2.56 0.30
5754.60 0.64 0.16
5875.66 8.80 0.70
6300.30 3.10 0.30
6312.10 0.61 0.13
6548.10 37.00 4.00
6562.77 287.00 27.00
6583.50 97.00 9.00
6678.16 2.80 0.30
6716.44 32.00 3.00
6730.82 24.00 2.00
7135.80 4.20 0.50
7325.00 2.50 0.30
9068.60 23.00 5.00
4861.33 100.00 2.00
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc2997_08.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017024�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 120.00 10.00
4101.74 23.00 2.00
4340.47 46.00 3.00
4958.91 7.00 1.00
5006.84 19.00 1.00
5875.66 9.00 0.90
6300.30 1.60 0.40
6548.10 31.00 3.00
6562.77 286.00 27.00
6583.50 96.00 9.00
6678.16 2.10 0.40
6716.44 31.00 3.00
6730.82 22.00 2.00
7135.80 2.50 0.40
9068.60 11.00 2.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc2997_09.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017026�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 142.00 9.00
4101.74 22.00 1.00
4340.47 46.00 3.00
4958.91 12.00 1.00
5006.84 33.00 2.00
5200.00 2.92 0.60
5875.66 10.00 0.80
6300.30 3.80 0.50
6548.10 32.00 2.00
6562.77 286.00 20.00
6583.50 96.00 7.00
6678.16 2.40 0.40
6716.44 45.00 3.00
6730.82 32.00 2.00
7135.80 2.80 0.40
9068.60 13.00 3.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc2997_10.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017015�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 116.00 7.00
4101.74 26.00 1.00
4340.47 46.00 2.00
4958.91 8.00 1.00
5006.84 22.00 1.00
5875.66 9.20 0.70
6300.30 2.40 0.40
6548.10 30.00 2.00
6562.77 286.00 20.00
6583.50 89.00 6.00
6678.16 2.30 0.40
6716.44 33.00 2.00
6730.82 24.00 2.00
7135.80 1.90 0.30
9068.60 18.00 4.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc2997_11.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017017�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 171.00 10.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4958.91 13.00 1.00
5006.84 41.00 3.00
5875.66 8.10 0.70
6300.30 9.40 0.80
6548.10 36.00 2.00
6562.77 287.00 19.00
6583.50 105.00 7.00
6678.16 2.60 0.40
6716.44 51.00 4.00
6730.82 38.00 3.00
7135.80 1.90 0.40
7325.00 2.70 0.70
9068.60 20.00 4.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc2997_12.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017017�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 80.00 6.00
4101.74 27.00 2.00
4340.47 46.00 3.00
4958.91 4.00 1.00
5006.84 11.00 1.00
5875.66 7.00 0.60
6300.30 2.50 0.40
6548.10 33.00 3.00
6562.77 286.00 22.00
6583.50 100.00 8.00
6678.16 1.90 0.30
6716.44 30.00 2.00
6730.82 21.00 2.00
7135.80 1.70 0.30
9068.60 16.00 3.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc2997_13.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000775�12714613141�0017024�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 118.00 7.00
4101.74 28.00 1.00
4340.47 46.00 2.00
4471.50 3.00 0.60
4958.91 6.00 1.00
5006.84 19.00 1.00
5200.00 2.34 0.51
5875.66 8.20 0.60
6300.30 2.50 0.20
6312.10 0.28 0.09
6548.10 35.00 2.00
6562.77 287.00 20.00
6583.50 106.00 7.00
6678.16 2.40 0.20
6716.44 29.00 2.00
6730.82 22.00 2.00
7135.80 3.10 0.30
7325.00 1.70 0.20
9068.60 26.00 5.00
4861.33 100.00 2.00
���NEAT-master/examples/ngc2997_14.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000721�12714613141�0017014�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 177.00 11.00
4101.74 29.00 1.00
4340.47 46.00 2.00
4958.91 15.00 1.00
5006.84 44.00 3.00
5200.00 2.46 0.56
5875.66 10.30 0.80
6300.30 3.80 0.50
6548.10 32.00 2.00
6562.77 287.00 20.00
6583.50 97.00 7.00
6678.16 2.50 0.40
6716.44 37.00 3.00
6730.82 26.00 2.00
7135.80 3.40 0.40
7325.00 2.40 0.70
9068.60 25.00 5.00
4861.33 100.00 2.00
�����������������������������������������������NEAT-master/examples/ngc2997_15.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017023�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 210.00 13.00
4101.74 30.00 1.00
4340.47 46.00 2.00
4958.91 18.00 1.00
5006.84 54.00 3.00
5200.00 1.90 0.45
5875.66 8.30 0.60
6300.30 2.50 0.30
6548.10 28.00 2.00
6562.77 286.00 20.00
6583.50 83.00 6.00
6678.16 2.70 0.30
6716.44 34.00 2.00
6730.82 25.00 2.00
7135.80 4.90 0.40
9068.60 29.00 6.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc2997_16.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017024�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 312.00 18.00
3868.75 9.80 1.50
4101.74 25.00 2.00
4340.47 46.00 3.00
4958.91 20.00 1.00
5006.84 56.00 3.00
5875.66 11.10 0.90
6300.30 3.60 0.60
6548.10 30.00 2.00
6562.77 286.00 17.00
6583.50 89.00 5.00
6678.16 2.60 0.60
6716.44 51.00 3.00
6730.82 35.00 2.00
7135.80 4.50 0.60
9068.60 20.00 4.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc3576_aat.dat����������������������������������������������������������������0000664�0000000�0000000�00000003745�12714613141�0017340�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic HII region
#from Tsamis et al., 2003, MNRAS, 338, 687
3530.50 0.398
3554.42 0.155
3566.95 0.425
3613.64 0.217
3634.25 0.230
3671.48 0.234
3673.74 0.224
3676.36 0.280
3679.36 0.287
3682.81 0.317
3686.83 0.370
3691.56 0.442
3697.15 0.491
3703.86 0.609
3705.02 0.301
3711.97 0.740
3721.94 1.310
3726.03 35.200
3728.82 25.800
3734.37 1.050
3750.15 1.380
3770.63 1.800
3797.90 2.510
3819.62 0.586
3835.39 3.750
3856.02 0.122
3862.60 0.143
3868.75 10.400
3871.82 0.090
3888.65 8.450
3912.83 0.040
3914.02 0.034
3918.98 0.054
3920.69 0.048
3926.54 0.080
3964.73 0.481
3967.46 3.200
3970.07 8.030
4009.26 0.127
4026.21 1.110
4037.19 0.012
4042.91 0.026
4059.17 0.014
4060.23 0.009
4065.35 0.024
4068.60 0.735
4069.62 0.081
4072.16 0.069
4075.86 0.058
4076.35 0.253
4080.81 0.019
4085.11 0.010
4087.15 0.024
4089.29 0.018
4097.33 0.038
4101.74 15.000
4119.22 0.016
4120.84 0.126
4132.80 0.031
4143.76 0.185
4153.30 0.022
4156.53 0.013
4168.97 0.040
4170.28 0.019
4185.45 0.020
4189.79 0.019
4254.00 0.027
4267.15 0.212
4275.55 0.088
4287.40 0.074
4340.47 32.700
4345.56 0.075
4349.43 0.054
4357.25 0.053
4358.98 0.083
4363.21 1.050
4368.14 0.075
4387.93 0.391
4413.78 0.076
4471.50 3.660
4603.76 0.033
4607.16 0.048
4608.66 0.044
4610.20 0.045
4614.92 0.040
4621.39 0.038
4638.86 0.059
4640.64 0.022
4641.81 0.092
4649.13 0.138
4650.84 0.131
4661.63 0.075
4676.24 0.051
4696.35 0.028
4701.62 0.192
4705.35 0.038
4861.33 100.000
4958.91 131.000
5006.84 412.000
5199.84 0.817
5270.40 0.451
5517.66 0.741
5537.60 0.849
5577.34 4.180
5666.53 0.060
5676.02 0.267
5679.56 0.112
5754.60 1.050
5875.66 25.900
5913.00 0.066
5931.52 0.211
5957.35 0.287
5978.71 0.199
6548.10 40.300
6562.77 740.000
6583.50 136.000
6678.16 9.910
6716.44 19.000
6730.82 24.100
7065.25 17.000
7135.80 48.700
���������������������������NEAT-master/examples/ngc3576_eso.dat����������������������������������������������������������������0000664�0000000�0000000�00000001406�12714613141�0017351�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic HII region
#from Tsamis et al., 2003, MNRAS, 338, 687
4009.26 0.141
4026.21 1.070
4068.60 0.895
4076.35 0.330
4101.74 15.000
4120.84 0.126
4143.76 0.104
4267.15 0.206
4275.99 0.048
4285.69 0.077
4317.14 0.123
4340.47 32.500
4349.43 0.034
4363.21 0.861
4366.89 0.086
4387.93 0.318
4413.22 0.052
4414.90 0.045
4416.97 0.058
4437.55 0.058
4449.91 0.025
4452.37 0.041
4471.50 3.240
4630.54 0.023
4638.49 0.043
4640.64 0.036
4641.44 0.075
4649.13 0.080
4650.84 0.048
4658.10 0.510
4661.63 0.080
4676.24 0.049
4701.62 0.160
4711.37 0.078
4713.17 0.443
4733.93 0.041
4740.17 0.069
4754.83 0.101
4861.33 100.000
4881.11 0.226
4921.93 1.120
4924.53 0.067
4931.80 0.082
4958.91 125.000
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_02.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017002�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 162.00 11.00
4101.74 24.00 2.00
4340.47 46.00 3.00
4958.91 6.00 1.00
5006.84 16.00 1.00
5875.66 8.00 0.70
6548.10 35.00 2.00
6562.77 287.00 20.00
6583.50 108.00 7.00
6678.16 2.00 0.30
6716.44 31.00 2.00
6730.82 22.00 2.00
7135.80 2.50 0.30
9068.60 18.00 4.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_03.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001051�12714613141�0016774�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 208.00 17.00
3868.75 6.90 0.60
4101.74 25.00 1.00
4340.47 49.00 3.00
4471.50 3.70 0.30
4958.91 39.00 2.00
5006.84 118.00 7.00
5200.00 0.96 0.18
5754.60 0.74 0.17
5875.66 10.80 0.80
6300.30 1.00 0.10
6312.10 0.72 0.13
6548.10 32.00 3.00
6562.77 306.00 29.00
6583.50 98.00 9.00
6678.16 3.40 0.40
6716.44 25.00 2.00
6730.82 18.00 2.00
7135.80 8.40 0.90
7325.00 2.90 0.40
9068.60 26.00 5.00
4861.33 100.00 2.00
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_04.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017004�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 72.00 4.00
4101.74 24.00 1.00
4340.47 46.00 2.00
5006.84 4.00 1.00
5200.00 1.70 1.14
5875.66 7.70 0.50
6548.10 33.00 2.00
6562.77 287.00 20.00
6583.50 90.00 6.00
6678.16 1.80 0.20
6716.44 28.00 2.00
6730.82 20.00 1.00
7135.80 0.90 0.20
9068.60 10.00 2.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_05.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000721�12714613141�0017001�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 68.00 5.00
4101.74 25.00 2.00
4340.47 49.00 3.00
4471.50 3.40 0.70
4958.91 6.00 1.00
5006.84 17.00 1.00
5754.60 0.94 0.14
5875.66 8.50 0.70
6548.10 34.00 3.00
6562.77 286.00 27.00
6583.50 100.00 9.00
6678.16 2.50 0.30
6716.44 18.00 2.00
6730.82 13.00 1.00
7135.80 3.20 0.40
7325.00 0.90 0.20
9068.60 17.00 3.00
4861.33 100.00 2.00
�����������������������������������������������NEAT-master/examples/ngc5236_06.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016776�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 123.00 8.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4471.50 2.50 0.50
4958.91 7.00 1.00
5006.84 21.00 1.00
5200.00 1.38 0.56
5754.60 0.81 0.33
5875.66 9.10 0.60
6300.30 0.90 0.20
6312.10 0.50 0.17
6548.10 41.00 3.00
6562.77 286.00 20.00
6583.50 124.00 8.00
6678.16 2.40 0.30
6716.44 28.00 2.00
6730.82 21.00 2.00
7135.80 2.90 0.40
7325.00 1.20 0.30
9068.60 24.00 5.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_07.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017007�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 91.00 7.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4958.91 3.00 1.00
5006.84 10.00 1.00
5875.66 9.00 0.70
6548.10 34.00 3.00
6562.77 287.00 26.00
6583.50 102.00 9.00
6678.16 1.60 0.30
6716.44 31.00 3.00
6730.82 22.00 2.00
7135.80 1.50 0.40
9068.60 15.00 3.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_08.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000645�12714613141�0017011�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 54.00 4.00
4101.74 30.00 1.00
4340.47 46.00 2.00
4958.91 2.00 1.00
5006.84 5.00 1.00
5200.00 1.64 0.38
5875.66 7.00 0.50
6548.10 29.00 2.00
6562.77 286.00 23.00
6583.50 83.00 7.00
6678.16 1.50 0.20
6716.44 22.00 2.00
6730.82 16.00 1.00
7135.80 0.60 0.20
9068.60 8.00 2.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_09.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000747�12714613141�0017015�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 49.00 4.00
4101.74 25.00 1.00
4340.47 48.00 3.00
4471.50 3.00 0.40
4958.91 2.00 1.00
5006.84 5.00 1.00
5200.00 1.93 0.32
5875.66 8.80 0.60
6300.30 1.00 0.10
6548.10 33.00 3.00
6562.77 287.00 27.00
6583.50 100.00 9.00
6678.16 2.30 0.20
6716.44 22.00 2.00
6730.82 18.00 2.00
7135.80 1.30 0.20
7325.00 0.70 0.10
9068.60 11.00 2.00
4861.33 100.00 2.00
�������������������������NEAT-master/examples/ngc5236_10.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017003�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 76.00 6.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4958.91 2.00 1.00
5006.84 6.00 1.00
5200.00 1.87 0.30
5875.66 8.80 0.70
6300.30 1.00 0.20
6548.10 34.00 3.00
6562.77 287.00 27.00
6583.50 98.00 9.00
6678.16 2.00 0.20
6716.44 27.00 3.00
6730.82 20.00 2.00
7135.80 1.10 0.20
9068.60 11.00 2.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc5236_11.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016772�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 47.00 3.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4471.50 3.30 0.20
4958.91 3.00 1.00
5006.84 9.00 1.00
5200.00 1.53 0.16
5754.60 0.40 0.05
5875.66 10.70 0.60
6300.30 1.10 0.10
6312.10 0.23 0.05
6548.10 55.00 4.00
6562.77 288.00 19.00
6583.50 162.00 11.00
6678.16 3.40 0.20
6716.44 28.00 2.00
6730.82 31.00 2.00
7135.80 2.70 0.20
7325.00 1.20 0.10
9068.60 41.00 8.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_12.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000721�12714613141�0016777�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 107.00 8.00
4101.74 25.00 1.00
4340.47 49.00 3.00
4471.50 3.10 0.30
4958.91 2.00 1.00
5006.84 5.00 1.00
5200.00 0.89 0.26
5875.66 8.00 0.60
6300.30 0.90 0.10
6548.10 37.00 3.00
6562.77 287.00 27.00
6583.50 112.00 11.00
6678.16 2.30 0.30
6716.44 26.00 3.00
6730.82 19.00 2.00
7135.80 2.00 0.20
9068.60 15.00 3.00
4861.33 100.00 2.00
�����������������������������������������������NEAT-master/examples/ngc5236_13.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000365�12714613141�0017004�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 111.00 9.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4471.50 2.90 0.30
4958.91 6.00 1.00
5006.84 19.00 1.00
5200.00 1.28 0.24
4861.33 100.00 2.00
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_14.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000747�12714613141�0017011�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 74.00 5.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4958.91 3.00 1.00
5006.84 9.00 1.00
5200.00 1.89 0.33
5754.60 0.42 0.17
5875.66 8.20 0.60
6300.30 1.10 0.20
6548.10 37.00 3.00
6562.77 288.00 24.00
6583.50 109.00 9.00
6678.16 2.20 0.20
6716.44 26.00 2.00
6730.82 20.00 2.00
7135.80 1.60 0.20
7325.00 0.60 0.10
9068.60 14.00 3.00
4861.33 100.00 2.00
�������������������������NEAT-master/examples/ngc5236_15.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000571�12714613141�0017005�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 89.00 6.00
4340.47 46.00 2.00
4958.91 5.00 1.00
5006.84 14.00 1.00
5875.66 7.40 0.70
6548.10 28.00 2.00
6562.77 286.00 23.00
6583.50 82.00 7.00
6678.16 3.90 0.60
6716.44 25.00 2.00
6730.82 17.00 2.00
7135.80 2.00 0.50
9068.60 15.00 3.00
4861.33 100.00 2.00
���������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_16.dat�����������������������������������������������������������������0000664�0000000�0000000�00000001023�12714613141�0016777�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 144.00 9.00
4101.74 25.00 1.00
4340.47 46.00 2.00
4471.50 2.70 0.30
4958.91 8.00 1.00
5006.84 23.00 1.00
5200.00 1.78 0.29
5754.60 0.60 0.11
5875.66 8.30 0.50
6300.30 1.80 0.20
6312.10 0.35 0.10
6548.10 44.00 3.00
6562.77 287.00 20.00
6583.50 135.00 9.00
6678.16 2.40 0.20
6716.44 28.00 2.00
6730.82 23.00 2.00
7135.80 4.50 0.30
7325.00 2.40 0.20
9068.60 37.00 7.00
4861.33 100.00 2.00
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5236_17.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000721�12714613141�0017004�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 129.00 13.00
4101.74 21.00 1.00
4340.47 46.00 3.00
4471.50 2.70 0.40
4958.91 4.00 1.00
5006.84 12.00 1.00
5200.00 2.25 0.42
5875.66 8.00 0.80
6300.30 1.70 0.30
6548.10 39.00 5.00
6562.77 287.00 36.00
6583.50 115.00 15.00
6678.16 2.00 0.30
6716.44 31.00 4.00
6730.82 24.00 3.00
7135.80 2.10 0.40
9068.60 15.00 3.00
4861.33 100.00 2.00
�����������������������������������������������NEAT-master/examples/ngc5236_18.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000673�12714613141�0017013�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 155.00 13.00
4101.74 25.00 2.00
4340.47 46.00 3.00
4958.91 3.00 1.00
5006.84 9.00 1.00
5200.00 3.53 1.28
5875.66 10.50 1.00
6300.30 1.40 0.40
6548.10 37.00 4.00
6562.77 288.00 27.00
6583.50 110.00 11.00
6678.16 1.80 0.40
6716.44 34.00 3.00
6730.82 25.00 3.00
7135.80 2.30 0.50
9068.60 13.00 3.00
4861.33 100.00 2.00
���������������������������������������������������������������������NEAT-master/examples/ngc5236_19.dat�����������������������������������������������������������������0000664�0000000�0000000�00000000617�12714613141�0017012�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Bresolin et al., 2005, A&A, 441, 981
3727.00 166.00 14.00
4101.74 25.00 4.00
4340.47 46.00 5.00
4958.91 24.00 5.00
5006.84 55.00 6.00
5875.66 9.50 1.30
6548.10 32.00 3.00
6562.77 286.00 23.00
6583.50 99.00 8.00
6678.16 3.00 0.90
6716.44 34.00 3.00
6730.82 27.00 3.00
7135.80 2.90 1.00
9068.60 10.00 2.00
4861.33 100.00 2.00
�����������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5447.dat��������������������������������������������������������������������0000664�0000000�0000000�00000001353�12714613141�0016503�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Esteban et al. 2009, ApJ, 700,654
4267.15 0.12 0.03
4340.47 48 2
4363.21 2.0 0.1
4387.93 0.41 0.05
4437.55 0.11 0.04
4471.09 4.2 0.2
4638.86 0.07 0.02
4641.81 0.12 0.03
4649.13 0.13 0.03
4658.1 0.69 0.07
4661.63 0.09 0.02
4701.53 0.19 0.05
4711.37 0.19 0.03
4713.14 0.36 0.03
4740.16 0.15 0.02
4754.83 0.08 0.08
4861.33 100 4
4881 0.16 0.03
4921.93 1.01 0.05
4931.32 0.05 0.05
4958.91 135 5
4985.9 0.40 0.04
5006.84 410 17
5015.68 2.0 0.1
5517.71 0.56 0.07
5537.88 0.41 0.04
5754.64 0.29 0.03
5875.64 12.5 0.7
6300.3 2.3 0.2
6312.1 1.2 0.1
6363.78 0.53 0.07
6548.03 6.1 0.5
6562.82 297 19
6583.41 17 1
6678.15 3.2 0.2
6716.47 10.0 0.7
6730.85 8.2 0.6
7065.28 2.2 0.2
7135.78 9.4 0.7
7318.39 1.8 0.2
7329.66 1.5 0.1
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc5461.dat��������������������������������������������������������������������0000664�0000000�0000000�00000003016�12714613141�0016475�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Esteban et al. 2009, ApJ, 700,654
3587.28 0.4 0.1
3613.64 0.33 0.09
3634.25 0.21 0.08
3671.48 0.24 0.09
3673.76 0.33 0.09
3676.37 0.5 0.1
3679.36 0.5 0.1
3682.81 0.5 0.1
3686.83 0.6 0.1
3691.56 0.6 0.1
3697.15 0.8 0.1
3703.86 0.9 0.1
3705.04 0.4 0.1
3711.97 1.0 0.1
3721.83 1.7 0.2
3726.03 48 2
3728.82 55 2
3734.37 1.4 0.1
3750.15 1.9 0.2
3770.63 2.8 0.2
3797.9 4.2 0.2
3819.61 0.8 0.1
3835.39 6.3 0.3
3868.75 15.2 0.7
3889.05 16.1 0.7
3964.73 0.7 0.1
3967.46 4.7 0.2
3970.07 15.5 0.7
4026.21 1.7 0.1
4068.6 0.9 0.1
4076.35 0.30 0.08
4101.74 24 1
4143.76 0.25 0.07
4340.47 44 2
4363.21 1.1 0.1
4387.93 0.41 0.08
4649.13 0.08 0.02
4650.84 0.05 0.02
4658.1 0.57 0.04
4685.71 0.08 0.02
4701.53 0.21 0.03
4713.14 0.39 0.03
4733.93 0.07 0.02
4740.16 0.10 0.02
4754.83 0.15 0.02
4769.6 0.06 0.02
4861.33 100 3
4881 0.17 0.02
4921.93 1.04 0.05
4924.5 0.11 0.02
4931.32 0.09 0.02
4958.91 103 3
4985.9 0.38 0.03
5006.84 302 9
5015.68 2.00 0.08
5041.03 0.17 0.02
5047.74 0.13 0.02
5055.98 0.16 0.02
5158.81 0.05 0.02
5197.9 0.31 0.03
5200.26 0.21 0.03
5270.4 0.28 0.03
5517.71 0.44 0.04
5537.88 0.31 0.03
5754.64 0.34 0.03
5875.64 11.6 0.6
5957.56 0.07 0.02
5978.93 0.06 0.02
6300.3 1.11 0.07
6312.1 1.16 0.08
6347.11 0.14 0.02
6363.78 0.39 0.03
6371.36 0.10 0.02
6548.03 10.0 0.7
6562.82 277 19
6578.05 0.11 0.02
6583.41 29 2
6678.15 3.2 0.2
6716.47 11.5 0.8
6730.85 9.7 0.7
7065.28 2.6 0.2
7135.78 8.8 0.8
7281.35 0.45 0.05
7318.39 1.6 0.2
7377.83 0.04 0.01
7442.99 0.07 0.02
7451.87 1.2 0.1
7457.3 1.2 0.1
7468.31 0.06 0.02
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc595.dat���������������������������������������������������������������������0000664�0000000�0000000�00000003020�12714613141�0016413�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Esteban et al. 2009, ApJ, 700,654
3587.28 0.17 0.05
3613.64 0.26 0.05
3634.25 0.35 0.05
3666.1 0.19 0.05
3667.68 0.25 0.05
3669.47 0.29 0.05
3671.48 0.31 0.05
3673.76 0.28 0.05
3676.37 0.34 0.05
3679.36 0.43 0.05
3682.81 0.48 0.06
3686.83 0.55 0.06
3691.56 0.67 0.06
3697.15 0.76 0.06
3703.86 0.89 0.06
3705.04 0.38 0.05
3711.97 1.08 0.07
3721.83 1.96 0.08
3726.03 85 1
3728.82 120 2
3734.37 1.55 0.07
3750.15 1.78 0.08
3770.63 2.43 0.09
3797.9 3.3 0.1
3819.61 0.73 0.06
3835.39 5.9 0.1
3868.75 1.54 0.07
3889.05 16.2 0.3
3964.73 0.64 0.05
3967.46 0.44 0.05
3970.07 13.1 0.2
4023.98 0.15 0.04
4026.21 1.59 0.07
4068.6 0.73 0.05
4076.35 0.26 0.04
4101.74 24.3 0.4
4120.82 0.11 0.04
4143.76 0.21 0.04
4267.15 0.13 0.03
4340.47 45.0 0.6
4363.21 0.19 0.04
4387.93 0.37 0.04
4471.09 3.56 0.08
4649.13 0.05 0.01
4650.84 0.05 0.01
4658.1 0.16 0.01
4713.14 0.29 0.02
4861.33 100 1
4921.93 0.88 0.02
4958.91 28.7 0.3
4985.9 0.21 0.01
5006.84 92 1
5015.68 1.87 0.03
5041.03 0.08 0.01
5047.74 0.11 0.01
5055.98 0.08 0.01
5197.9 0.11 0.01
5200.26 0.10 0.01
5270.4 0.08 0.01
5517.71 0.42 0.02
5537.88 0.33 0.02
5754.64 0.39 0.02
5875.64 10.2 0.2
6300.3 0.67 0.02
6347.11 0.064 0.008
6363.78 0.23 0.01
6371.36 0.055 0.008
6548.03 13.1 0.4
6562.82 299 9
6578.05 0.18 0.01
6583.41 45.6 1.4
6678.15 2.9 0.1
6716.47 12.7 0.4
6730.85 9.0 0.3
7135.78 6.9 0.3
7231.34 0.063 0.008
7236.42 0.10 0.01
7318.39 0.48 0.03
7319.99 1.07 0.05
7329.66 0.67 0.03
7330.73 0.63 0.03
7442.99 0.040 0.007
7451.87 2.3 0.1
7457.3 3.2 0.2
7468.31 0.059 0.008
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc604.dat���������������������������������������������������������������������0000664�0000000�0000000�00000003253�12714613141�0016412�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Esteban et al. 2009, ApJ, 700,654
3613.64 0.22 0.05
3634.25 0.24 0.06
3663.4 0.21 0.05
3664.68 0.25 0.06
3666.1 0.26 0.06
3667.68 0.23 0.05
3669.47 0.21 0.05
3671.48 0.35 0.06
3673.76 0.38 0.06
3676.37 0.36 0.06
3679.36 0.42 0.06
3682.81 0.39 0.06
3686.83 0.54 0.07
3691.56 0.60 0.07
3697.15 0.68 0.07
3703.86 0.79 0.07
3705.04 0.42 0.06
3711.97 0.88 0.07
3721.83 1.71 0.09
3726.03 47.7 0.9
3728.82 67 1
3734.37 1.40 0.08
3750.15 1.97 0.09
3770.63 2.3 0.1
3797.9 3.1 0.1
3819.61 0.92 0.07
3835.39 6.2 0.1
3868.75 8.0 0.2
3889.05 16.9 0.3
3964.73 0.72 0.06
3967.46 2.49 0.09
3970.07 13.4 0.2
4009.22 0.15 0.04
4026.21 1.99 0.08
4068.6 1.19 0.07
4076.35 0.38 0.05
4101.74 26.5 0.4
4120.82 0.11 0.04
4143.76 0.27 0.05
4267.15 0.17 0.04
4317.14 0.10 0.04
4340.47 47.9 0.6
4363.21 0.63 0.05
4387.93 0.51 0.05
4471.09 4.31 0.09
4638.86 0.07 0.01
4641.81 0.05 0.01
4649.13 0.05 0.01
4650.84 0.08 0.01
4658.1 0.32 0.02
4661.63 0.06 0.01
4701.53 0.11 0.02
4713.14 0.38 0.02
4754.83 0.05 0.01
4861.33 100 1
4881 0.09 0.01
4921.93 1.04 0.03
4958.91 68.4 0.7
4985.9 0.43 0.02
5006.84 211 2
5015.68 2.02 0.04
5041.03 0.12 0.01
5047.74 0.16 0.02
5055.98 0.07 0.01
5197.9 0.25 0.02
5200.26 0.20 0.02
5270.4 0.18 0.02
5517.71 0.36 0.02
5537.88 0.27 0.02
5754.64 0.27 0.02
5875.64 10.7 0.2
5978.93 0.07 0.01
6300.3 1.14 0.04
6347.11 0.07 0.01
6363.78 0.39 0.02
6371.36 0.07 0.01
6562.82 275 9
6578.05 0.12 0.01
6583.41 26.5 0.9
6678.15 2.9 0.1
6716.47 14.8 0.5
6730.85 10.6 0.4
7001.92 0.028 0.007
7135.78 7.1 0.3
7231.34 0.06 0.01
7236.42 0.10 0.01
7281.35 0.28 0.02
7318.39 0.36 0.03
7319.99 0.90 0.05
7329.66 0.56 0.04
7330.73 0.50 0.03
7423.6 0.040 0.009
7451.87 1.55 0.09
7457.3 2.5 0.1
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc6543_2cols.dat��������������������������������������������������������������0000664�0000000�0000000�00000006723�12714613141�0017611�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson & Liu, 2004, MNRAS, 351, 1026
#two column files have to contain the rest wavelength and the flux
#comment lines should start with a # and are ignored
#UV lines from IUE
1549.00 39.01
1640.54 9.251
1718.20 6.873
1909.00 11.40
#Optical lines from WHT
3634.25 0.594
3645.50 0.600
3646.50 0.120
3669.47 0.052
3671.48 0.141
3673.74 0.440
3676.36 0.546
3679.36 0.569
3682.81 0.657
3686.83 0.801
3691.56 0.884
3694.21 0.119
3697.15 1.034
3703.86 1.130
3705.02 1.049
3707.25 0.116
3711.97 1.669
3721.94 2.593
3726.03 15.96
3728.82 7.776
3734.37 2.246
3750.15 2.823
3754.69 0.138
3757.24 0.075
3759.87 0.085
3762.60 0.041
3766.64 0.040
3770.63 3.465
3774.02 0.081
3777.14 0.061
3784.89 0.042
3791.27 0.029
3797.90 4.551
3805.74 0.065
3819.62 1.422
3835.39 6.948
3856.02 0.084
3856.13 *
3868.75 43.86
3882.19 0.039
3882.45 *
3888.65 17.10
3889.05 *
3918.98 0.032
3920.69 0.081
3926.54 0.161
3964.73 1.423
3967.46 15.38
3970.07 15.16
3994.99 0.025
4009.26 0.211
4026.21 2.329
4035.08 0.025
4041.31 0.040
4043.53 0.018
4068.60 0.847
4069.89 0.238
4072.16 0.240
4076.35 0.518
4085.11 0.075
4087.15 0.036
4089.29 0.123
4097.33 0.671
4097.25 *
4097.26 *
4101.74 25.23
4110.78 0.063
4119.22 0.280
4120.28 *
4120.54 *
4129.32 0.039
4132.80 0.106
4143.76 0.427
4146.00 0.037
4153.30 0.126
4156.53 0.075
4169.22 0.072
4176.16 0.011
4185.45 0.047
4189.79 0.051
4236.91 0.028
4241.78 0.049
4253.86 0.041
4267.15 0.615
4273.10 0.008
4275.55 0.068
4276.75 0.025
4277.43 0.027
4282.96 0.004
4283.73 0.022
4285.69 0.026
4291.25 0.037
4294.78 0.031
4303.82 0.083
4317.14 0.100
4319.63 0.045
4325.76 0.029
4340.47 44.92
4345.56 0.224
4345.55 *
4349.43 0.160
4363.21 1.748
4366.89 0.095
4379.11 0.071
4387.93 0.705
4391.99 0.047
4392.00 *
4409.30 0.040
4413.22 0.020
4414.90 0.055
4416.97 0.061
4428.64 0.039
4428.52 *
4430.94 0.017
4432.74 0.031
4437.55 0.081
4471.50 5.858
4488.75 0.028
4491.23 0.036
4510.91 0.038
4510.91 *
4530.41 0.033
4530.86 *
4552.53 0.020
4571.10 0.047
4590.97 0.064
4596.18 0.066
4595.96 *
4602.13 0.042
4607.03 0.039
4607.16 *
4609.44 0.058
4621.39 0.031
4621.25 *
4630.54 0.086
4634.14 0.317
4638.86 0.174
4640.64 0.669
4641.81 0.298
4641.84 *
4649.13 0.467
4650.84 0.160
4658.10 0.189
4661.63 0.165
4673.73 0.024
4676.24 0.118
4701.62 0.059
4711.37 0.720
4713.17 0.639
4733.91 0.024
4740.17 0.753
4754.69 0.046
4803.29 0.044
4815.55 0.015
4861.33 100.0
4881.11 0.099
4906.83 0.055
4921.93 1.576
4923.93 0.137
4931.80 0.087
4958.91 228.2
5270.40 0.071
5342.38 0.036
5345.90 0.016
5517.66 0.429
5537.60 0.603
5666.63 0.067
5676.02 0.044
5679.56 0.114
5686.21 0.026
5710.77 0.026
5754.60 0.517
5801.51 0.090
5812.14 0.079
5875.66 18.09
5927.81 0.011
5931.78 0.031
5941.65 0.040
5978.97 0.011
6101.83 0.027
6151.43 0.030
6300.34 0.779
6312.10 1.163
6347.10 0.059
6363.78 0.251
6371.38 0.052
6461.95 0.068
6548.10 10.60
6562.77 303.2
6583.50 32.02
6678.16 5.069
6716.44 1.983
6730.82 3.651
7065.25 6.220
7135.80 21.62
7231.32 0.144
7236.42 0.175
7281.35 0.802
7298.04 0.062
7319.45 1.550
7330.20 1.553
7499.84 0.054
7530.83 0.122
7751.43 5.141
7816.16 0.086
#IR lines from ISO, wavelength in microns
9.0 26.05
12.8 10.79
15.5 285
18.7 58.04
21.8 1.519
33.5 21.33
36.0 19.46
52 150.8
57 37.18
63 1.358
88 43.97
146 0.068
158 0.129
���������������������������������������������NEAT-master/examples/ngc6543_3cols.dat��������������������������������������������������������������0000664�0000000�0000000�00000012304�12714613141�0017602�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson & Liu, 2004, MNRAS, 351, 1026
#three column files should contain the rest wavelength, flux, and uncertainty
#comment lines start with a # and are ignored
#UV lines from IUE. uncertainties estimated at 10 per cent
1549.00 39.01 3.90
1640.54 9.251 0.93
1718.20 6.873 0.69
1909.00 11.40 1.14
#Optical lines from WHT
3634.25 0.594 0.0594
3645.50 0.600 0.01
3646.50 0.120 0.04
3669.47 0.052 0.0156
3671.48 0.141 0.0423
3673.74 0.440 0.088
3676.36 0.546 0.0546
3679.36 0.569 0.0569
3682.81 0.657 0.0657
3686.83 0.801 0.0801
3691.56 0.884 0.0884
3694.21 0.119 0.0357
3697.15 1.034 0.1034
3703.86 1.130 0.113
3705.02 1.049 0.1049
3707.25 0.116 0.0348
3711.97 1.669 0.1669
3721.94 2.593 0.12965
3726.03 15.96 0.798
3728.82 7.776 0.3888
3734.37 2.246 0.1123
3750.15 2.823 0.14115
3754.69 0.138 0.0414
3757.24 0.075 0.0225
3759.87 0.085 0.0255
3762.60 0.041 0.0123
3766.64 0.040 0.012
3770.63 3.465 0.17325
3774.02 0.081 0.0243
3777.14 0.061 0.0183
3784.89 0.042 0.0126
3791.27 0.029 0.0087
3797.90 4.551 0.22755
3805.74 0.065 0.0195
3819.62 1.422 0.1422
3835.39 6.948 0.3474
3856.02 0.084 0.0252
3856.13 * *
3868.75 43.86 2.193
3882.19 0.039 0.0117
3882.45 * *
3888.65 17.10 0.855
3889.05 * *
3918.98 0.032 0.0096
3920.69 0.081 0.0243
3926.54 0.161 0.0483
3964.73 1.423 0.1423
3967.46 15.38 0.769
3970.07 15.16 0.758
3994.99 0.025 0.0075
4009.26 0.211 0.0422
4026.21 2.329 0.11645
4035.08 0.025 0.0075
4041.31 0.040 0.012
4043.53 0.018 0.0054
4068.60 0.847 0.0847
4069.89 0.238 0.0476
4072.16 0.240 0.048
4076.35 0.518 0.0518
4085.11 0.075 0.0225
4087.15 0.036 0.0108
4089.29 0.123 0.0369
4097.33 0.671 0.0671
4097.25 * *
4097.26 * *
4101.74 25.23 1.2615
4110.78 0.063 0.0189
4119.22 0.280 0.056
4120.28 * *
4120.54 * *
4129.32 0.039 0.0117
4132.80 0.106 0.0318
4143.76 0.427 0.0854
4146.00 0.037 0.0111
4153.30 0.126 0.0378
4156.53 0.075 0.0225
4169.22 0.072 0.0216
4176.16 0.011 0.0033
4185.45 0.047 0.0141
4189.79 0.051 0.0153
4236.91 0.028 0.0084
4241.78 0.049 0.0147
4253.86 0.041 0.0123
4267.15 0.615 0.0615
4273.10 0.008 0.0024
4275.55 0.068 0.0204
4276.75 0.025 0.0075
4277.43 0.027 0.0081
4282.96 0.004 0.0012
4283.73 0.022 0.0066
4285.69 0.026 0.0078
4291.25 0.037 0.0111
4294.78 0.031 0.0093
4303.82 0.083 0.0249
4317.14 0.100 0.03
4319.63 0.045 0.0135
4325.76 0.029 0.0087
4340.47 44.92 2.246
4345.56 0.224 0.0448
4345.55 * *
4349.43 0.160 0.048
4363.21 1.748 0.1748
4366.89 0.095 0.0285
4379.11 0.071 0.0213
4387.93 0.705 0.0705
4391.99 0.047 0.0141
4392.00 * *
4409.30 0.040 0.012
4413.22 0.020 0.006
4414.90 0.055 0.0165
4416.97 0.061 0.0183
4428.64 0.039 0.0117
4428.52 * *
4430.94 0.017 0.0051
4432.74 0.031 0.0093
4437.55 0.081 0.0243
4471.50 5.858 0.2929
4488.75 0.028 0.0084
4491.23 0.036 0.0108
4510.91 0.038 0.0114
4510.91 * *
4530.41 0.033 0.0099
4530.86 * *
4552.53 0.020 0.006
4571.10 0.047 0.0141
4590.97 0.064 0.0192
4596.18 0.066 0.0198
4595.96 * *
4602.13 0.042 0.0126
4607.03 0.039 0.0117
4607.16 * *
4609.44 0.058 0.0174
4621.39 0.031 0.0093
4621.25 * *
4630.54 0.086 0.0258
4634.14 0.317 0.0634
4638.86 0.174 0.0522
4640.64 0.669 0.0669
4641.81 0.298 0.0596
4641.84 * *
4649.13 0.467 0.0934
4650.84 0.160 0.048
4658.10 0.189 0.0567
4661.63 0.165 0.0495
4673.73 0.024 0.0072
4676.24 0.118 0.0354
4701.62 0.059 0.0177
4711.37 0.720 0.072
4713.17 0.639 0.0639
4733.91 0.024 0.0072
4740.17 0.753 0.0753
4754.69 0.046 0.0138
4803.29 0.044 0.0132
4815.55 0.015 0.0045
4861.33 100.0 5
4881.11 0.099 0.0297
4906.83 0.055 0.0165
4921.93 1.576 0.1576
4923.93 0.137 0.0411
4931.80 0.087 0.0261
4958.91 228.2 11.41
5270.40 0.071 0.0213
5342.38 0.036 0.0108
5345.90 0.016 0.0048
5517.66 0.429 0.0858
5537.60 0.603 0.0603
5666.63 0.067 0.0201
5676.02 0.044 0.0132
5679.56 0.114 0.0342
5686.21 0.026 0.0078
5710.77 0.026 0.0078
5754.60 0.517 0.0517
5801.51 0.090 0.027
5812.14 0.079 0.0237
5875.66 18.09 0.9045
5927.81 0.011 0.0033
5931.78 0.031 0.0093
5941.65 0.040 0.012
5978.97 0.011 0.0033
6101.83 0.027 0.0081
6151.43 0.030 0.009
6300.34 0.779 0.0779
6312.10 1.163 0.1163
6347.10 0.059 0.0177
6363.78 0.251 0.0502
6371.38 0.052 0.0156
6461.95 0.068 0.0204
6548.10 10.60 0.53
6562.77 303.2 15.16
6583.50 32.02 1.601
6678.16 5.069 0.25345
6716.44 1.983 0.1983
6730.82 3.651 0.18255
7065.25 6.220 0.311
7135.80 21.62 1.081
7231.32 0.144 0.0432
7236.42 0.175 0.0525
7281.35 0.802 0.0802
7298.04 0.062 0.0186
7318.92 1.550 0.155
7319.99 * *
7330.20 1.553 0.1553
7499.84 0.054 0.0162
7530.83 0.122 0.0366
7751.43 5.141 0.25705
7816.16 0.086 0.0258
#IR lines from ISO, wavelengths in microns
9.0 26.05 0.521
12.8 10.79 0.2158
15.5 285 5.7
18.7 58.04 1.1608
21.8 1.519 0.1519
33.5 21.33 0.4266
36.0 19.46 0.3892
52 150.8 3.836
57 37.18 1.180
63 1.358 0.118
88 43.97 1.180
146 0.068 0.012
158 0.129 0.021
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc6543_4cols.dat��������������������������������������������������������������0000664�0000000�0000000�00000015513�12714613141�0017610�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#from Wesson & Liu, 2004, MNRAS, 351, 1026
#four column files should contain observed wavelength, rest wavelength, flux and uncertainty
#observed wavelength is propagated into the latex output table
#UV lines from IUE, uncertainty estimated at 10 per cent
1549.93 1549.00 39.01 3.901
1640.54 1640.42 9.251 0.925
1718.20 1718.20 6.873 0.687
1909.00 1908.80 11.40 1.140
#Optical lines from WHT
3632.36 3634.25 0.594 0.0594
#the following two lines are the continuum fluxes either side of the Balmer jump
3645.50 3645.50 0.600 0.01
3646.50 3646.50 0.120 0.04
3667.84 3669.47 0.052 0.0156
3669.81 3671.48 0.141 0.0423
3672.11 3673.74 0.440 0.088
3674.66 3676.36 0.546 0.0546
3677.66 3679.36 0.569 0.0569
3681.13 3682.81 0.657 0.0657
3685.19 3686.83 0.801 0.0801
3689.93 3691.56 0.884 0.0884
3692.59 3694.21 0.119 0.0357
3695.59 3697.15 1.034 0.1034
3702.12 3703.86 1.130 0.113
3703.25 3705.02 1.049 0.1049
3705.66 3707.25 0.116 0.0348
3710.50 3711.97 1.669 0.1669
3720.36 3721.94 2.593 0.12965
3724.55 3726.03 15.96 0.798
3727.33 3728.82 7.776 0.3888
3732.90 3734.37 2.246 0.1123
3748.70 3750.15 2.823 0.14115
3753.34 3754.69 0.138 0.0414
3755.53 3757.24 0.075 0.0225
3758.53 3759.87 0.085 0.0255
3761.15 3762.60 0.041 0.0123
3765.16 3766.64 0.040 0.012
3769.24 3770.63 3.465 0.17325
3772.85 3774.02 0.081 0.0243
3775.84 3777.14 0.061 0.0183
3783.52 3784.89 0.042 0.0126
3789.87 3791.27 0.029 0.0087
3796.63 3797.90 4.551 0.22755
3804.66 3805.74 0.065 0.0195
3818.40 3819.62 1.422 0.1422
3834.21 3835.39 6.948 0.3474
3854.86 3856.02 0.084 0.0252
* 3856.13 * *
3867.67 3868.75 43.86 2.193
3881.27 3882.19 0.039 0.0117
* 3882.45 * *
3887.79 3888.65 17.10 0.855
* 3889.05 * *
3917.75 3918.98 0.032 0.0096
3919.51 3920.69 0.081 0.0243
3925.50 3926.54 0.161 0.0483
3963.71 3964.73 1.423 0.1423
3966.44 3967.46 15.38 0.769
3969.07 3970.07 15.16 0.758
3994.16 3994.99 0.025 0.0075
4008.25 4009.26 0.211 0.0422
4025.23 4026.21 2.329 0.11645
4034.05 4035.08 0.025 0.0075
4040.32 4041.31 0.040 0.012
4042.64 4043.53 0.018 0.0054
4067.69 4068.60 0.847 0.0847
4068.92 4069.89 0.238 0.0476
4071.16 4072.16 0.240 0.048
4075.13 4076.35 0.518 0.0518
4083.72 4085.11 0.075 0.0225
4086.32 4087.15 0.036 0.0108
4088.23 4089.29 0.123 0.0369
4096.35 4097.33 0.671 0.0671
* 4097.25 * *
* 4097.26 * *
4100.78 4101.74 25.23 1.2615
4109.92 4110.78 0.063 0.0189
4119.32 4119.22 0.280 0.056
* 4120.28 * *
* 4120.54 * *
4128.17 4129.32 0.039 0.0117
4131.67 4132.80 0.106 0.0318
4142.73 4143.76 0.427 0.0854
4145.02 4146.00 0.037 0.0111
4152.24 4153.30 0.126 0.0378
4155.30 4156.53 0.075 0.0225
4167.99 4169.22 0.072 0.0216
4175.08 4176.16 0.011 0.0033
4184.55 4185.45 0.047 0.0141
4188.75 4189.79 0.051 0.0153
4235.95 4236.91 0.028 0.0084
4240.69 4241.78 0.049 0.0147
4252.86 4253.86 0.041 0.0123
4266.09 4267.15 0.615 0.0615
4272.14 4273.10 0.008 0.0024
4274.58 4275.55 0.068 0.0204
4275.78 4276.75 0.025 0.0075
4276.46 4277.43 0.027 0.0081
4281.58 4282.96 0.004 0.0012
4282.35 4283.73 0.022 0.0066
4284.30 4285.69 0.026 0.0078
4290.45 4291.25 0.037 0.0111
4293.74 4294.78 0.031 0.0093
4302.75 4303.82 0.083 0.0249
4316.16 4317.14 0.100 0.03
4318.48 4319.63 0.045 0.0135
4324.84 4325.76 0.029 0.0087
4339.47 4340.47 44.92 2.246
4344.14 4345.56 0.224 0.0448
* 4345.55 * *
4348.42 4349.43 0.160 0.048
4362.17 4363.21 1.748 0.1748
4365.87 4366.89 0.095 0.0285
4377.99 4379.11 0.071 0.0213
4386.90 4387.93 0.705 0.0705
4390.99 4391.99 0.047 0.0141
* 4392.00 * *
4408.41 4409.30 0.040 0.012
4412.19 4413.22 0.020 0.006
4414.04 4414.90 0.055 0.0165
4416.05 4416.97 0.061 0.0183
4427.53 4428.64 0.039 0.0117
* 4428.52 * *
4429.93 4430.94 0.017 0.0051
4431.60 4432.74 0.031 0.0093
4436.61 4437.55 0.081 0.0243
4470.54 4471.50 5.858 0.2929
4487.51 4488.75 0.028 0.0084
4490.30 4491.23 0.036 0.0108
4509.92 4510.91 0.038 0.0114
* 4510.91 * *
4529.27 4530.41 0.033 0.0099
* 4530.86 * *
4551.59 4552.53 0.020 0.006
4570.11 4571.10 0.047 0.0141
4590.00 4590.97 0.064 0.0192
4595.46 4596.18 0.066 0.0198
* 4595.96 * *
4600.82 4602.13 0.042 0.0126
4606.11 4607.03 0.039 0.0117
* 4607.16 * *
4608.59 4609.44 0.058 0.0174
4620.14 4621.39 0.031 0.0093
* 4621.25 * *
4629.56 4630.54 0.086 0.0258
4633.15 4634.14 0.317 0.0634
4637.90 4638.86 0.174 0.0522
4639.77 4640.64 0.669 0.0669
4641.01 4641.81 0.298 0.0596
* 4641.84 * *
4648.16 4649.13 0.467 0.0934
4649.81 4650.84 0.160 0.048
4657.10 4658.10 0.189 0.0567
4660.66 4661.63 0.165 0.0495
4672.72 4673.73 0.024 0.0072
4675.27 4676.24 0.118 0.0354
4700.48 4701.62 0.059 0.0177
4710.36 4711.37 0.720 0.072
4712.19 4713.17 0.639 0.0639
4732.88 4733.91 0.024 0.0072
4739.16 4740.17 0.753 0.0753
4753.85 4754.69 0.046 0.0138
4802.00 4803.29 0.044 0.0132
4814.31 4815.55 0.015 0.0045
4860.24 4861.33 100.0 5
4879.96 4881.11 0.099 0.0297
4905.69 4906.83 0.055 0.0165
4920.81 4921.93 1.576 0.1576
4922.94 4923.93 0.137 0.0411
4930.12 4931.80 0.087 0.0261
4957.81 4958.91 228.2 11.41
5268.86 5270.40 0.071 0.0213
5341.01 5342.38 0.036 0.0108
5344.74 5345.90 0.016 0.0048
5516.16 5517.66 0.429 0.0858
5536.27 5537.60 0.603 0.0603
5665.05 5666.63 0.067 0.0201
5675.19 5676.02 0.044 0.0132
5678.15 5679.56 0.114 0.0342
5684.42 5686.21 0.026 0.0078
5708.92 5710.77 0.026 0.0078
5752.96 5754.60 0.517 0.0517
5799.46 5801.51 0.090 0.027
5810.01 5812.14 0.079 0.0237
5874.24 5875.66 18.09 0.9045
5926.19 5927.81 0.011 0.0033
5930.08 5931.78 0.031 0.0093
5939.95 5941.65 0.040 0.012
5977.84 5978.97 0.011 0.0033
6099.97 6101.83 0.027 0.0081
6149.62 6151.43 0.030 0.009
6298.66 6300.34 0.779 0.0779
6310.38 6312.10 1.163 0.1163
6345.30 6347.10 0.059 0.0177
6362.03 6363.78 0.251 0.0502
6369.62 6371.38 0.052 0.0156
6460.13 6461.95 0.068 0.0204
6546.59 6548.10 10.60 0.53
6561.22 6562.77 303.2 15.16
6581.92 6583.50 32.02 1.601
6676.44 6678.16 5.069 0.25345
6711.54 6716.44 1.983 0.1983
6725.91 6730.82 3.651 0.18255
7060.11 7065.25 6.220 0.311
7130.61 7135.80 21.62 1.081
7226.21 7231.32 0.144 0.0432
7231.64 7236.42 0.175 0.0525
7276.18 7281.35 0.802 0.0802
7292.92 7298.04 0.062 0.0186
7314.64 7318.92 1.550 0.155
* 7319.99 * *
7325.01 7330.73 1.553 0.1553
7494.69 7499.84 0.054 0.0162
7525.32 7530.83 0.122 0.0366
7745.86 7751.43 5.141 0.25705
7811.00 7816.16 0.086 0.0258
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc7009_all.dat����������������������������������������������������������������0000664�0000000�0000000�00000136513�12714613141�0017336�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
#Ultra deep spectrum
#from Fang & Liu, 2011, MNRAS, 41, 181
3042.19 0.248 0.248
3042.18 * *
3044.24 1.310 0.075
3045.56 * *
3047.12 3.712 0.112
3047.56 0.095 0.082
3059.30 1.084 0.082
3057.50 * *
3057.83 * *
3057.87 * *
3061.49 0.122 0.046
3109.17 0.142 0.050
3115.68 0.087 0.030
3115.35 * *
3121.64 1.151 0.050
3121.15 * *
3124.95 0.040 0.040
3124.98 * *
3132.79 29.983 2.000
3138.13 0.043 0.015
3149.09 0.035 0.020
3149.04 * *
3162.66 0.054 0.015
3165.47 0.080 0.020
3165.97 * *
3169.02 0.058 0.015
3176.27 0.029 0.007
3187.74 2.841 0.280
3198.92 * *
3203.17 4.809 0.465
3210.74 0.071 0.015
3214.67 0.067 0.014
3218.19 0.188 0.019
3229.55 0.058 0.006
3230.54 0.056 0.006
3244.09 0.060 0.006
3250.84 0.021 0.009
3258.56 0.067 0.011
3260.85 0.149 0.013
3265.32 0.116 0.011
3267.20 0.017 0.009
3277.35 0.012 0.009
3287.35 0.085 0.010
3289.98 0.022 0.009
3299.40 1.107 0.108
3297.73 * *
3304.31 0.039 0.039
3312.32 3.074 0.171
3311.27 * *
3322.53 0.048 0.048
3324.47 0.060 0.040
3327.15 0.046 0.013
3329.16 0.043 0.014
3330.73 0.012 0.012
3331.96 0.061 0.028
3334.84 0.350 0.030
3340.76 4.423 0.287
3342.50 0.639 0.013
3344.40 * *
3345.88 0.011 0.004
3350.62 0.036 0.010
3353.17 0.065 0.010
3354.55 0.140 0.009
3355.02 0.183 0.011
3357.82 0.017 0.010
3360.60 0.033 0.010
3360.62 * *
3362.94 0.022 0.010
3362.71 * *
3367.22 0.087 0.010
3366.98 * *
3367.36 * *
3370.92 0.049 0.010
3374.06 0.012 0.010
3379.32 * *
3387.09 0.045 0.010
3386.20 * *
3390.55 0.014 0.010
3393.18 0.009 0.009
3403.52 0.049 0.010
3405.71 0.163 0.010
3408.12 0.086 0.010
3411.69 0.040 0.010
3413.64 0.045 0.010
3415.26 0.343 0.010
3416.91 0.064 0.010
3417.69 0.030 0.010
3423.91 0.077 0.010
3428.62 1.166 0.010
3428.51 * *
3430.57 0.264 0.010
3430.56 * *
3434.68 0.017 0.010
3444.06 9.595 0.247
3447.59 0.168 0.005
3450.28 0.018 0.010
3450.92 * *
3453.32 0.016 0.010
3453.07 * *
3456.86 0.029 0.010
3456.61 * *
3461.01 0.032 0.010
3463.74 0.014 0.010
3465.94 0.036 0.010
3466.11 * *
3471.81 0.051 0.010
3477.65 0.010 0.003
3478.71 * *
3478.97 0.073 0.010
3480.25 0.045 0.010
3480.57 * *
3481.93 0.036 0.012
3481.82 * *
3482.99 * *
3487.72 0.085 0.008
3496.08 0.018 0.005
3498.64 0.103 0.008
3503.58 0.010 0.005
3512.51 0.134 0.008
3527.36 0.010 0.005
3530.49 0.159 0.005
3536.94 0.019 0.005
3537.00 * *
3540.33 0.011 0.005
3542.85 0.026 0.005
3550.38 0.016 0.005
3554.41 0.222 0.005
3557.81 0.012 0.005
3562.95 0.024 0.005
3565.82 0.021 0.006
3568.50 0.141 0.014
3574.18 0.045 0.002
3574.61 * *
3578.55 0.005 0.005
3580.68 0.005 0.005
3587.27 0.292 0.005
3590.45 0.032 0.005
3590.21 * *
3594.16 0.010 0.005
3599.32 0.020 0.003
3603.24 0.012 0.002
3613.64 0.244 0.010
3634.23 0.453 0.014
3643.93 0.016 0.002
3647.78 0.018 0.002
3651.82 0.014 0.005
3652.00 * *
3664.68 0.076 0.005
3664.07 * *
3666.09 0.136 0.010
3667.68 0.193 0.010
3669.46 0.221 0.010
3671.48 0.353 0.142
3673.76 0.418 0.146
3676.36 0.505 0.082
3679.35 0.557 0.066
3682.81 0.622 0.037
3686.83 0.712 0.008
3691.55 0.778 0.041
3694.21 0.217 0.022
3697.15 0.931 0.044
3701.78 0.255 0.025
3702.75 * *
3703.85 1.302 0.038
3705.00 0.764 0.046
3707.25 0.286 0.021
3707.34 * *
3709.62 0.094 0.022
3709.65 * *
3711.97 1.379 0.040
3712.70 * *
3712.74 * *
3713.08 0.263 0.025
3714.03 * *
3715.08 0.235 0.032
3715.16 0.021 0.010
3716.22 * *
3715.19 * *
3720.41 0.015 0.005
3721.69 0.928 0.020
3721.94 2.541 0.056
3725.31 * *
3726.03 11.809 0.020
3726.27 0.017 0.005
3727.11 * *
3728.81 5.940 0.020
3732.12 * *
3732.83 0.018 0.005
3732.88 0.029 0.005
3734.37 1.922 0.034
3734.94 * *
3739.76 0.045 0.005
3740.23 0.021 0.010
3748.61 0.021 0.005
3750.15 2.481 0.063
3751.25 * *
3754.70 0.569 0.031
3756.10 * *
3757.24 0.309 0.062
3758.15 * *
3759.87 1.578 0.047
3762.10 0.081 0.010
3766.26 * *
3768.81 0.028 0.001
3769.08 0.026 0.001
3770.63 3.277 0.071
3774.02 0.167 0.054
3777.14 0.043 0.010
3781.68 0.038 0.010
3784.86 0.032 0.010
3791.28 0.155 0.032
3796.33 0.428 0.048
3797.90 4.340 0.071
3802.29 0.005 0.005
3805.74 0.043 0.010
3806.54 0.020 0.010
3806.78 * *
3810.99 0.010 0.010
3813.49 0.057 0.020
3819.60 1.147 0.056
3833.57 0.064 0.001
3833.80 0.046 0.000
3835.38 6.630 0.062
3838.37 0.002 0.002
3839.27 0.085 0.001
3842.18 0.000 0.000
3842.82 0.014 0.001
3847.89 0.012 0.001
3850.80 0.003 0.000
3851.03 0.015 0.001
3851.35 0.007 0.005
3853.66 0.007 0.003
3856.02 0.046 0.003
3856.13 0.012 0.001
3858.07 0.074 0.004
3862.60 0.061 0.005
3862.59 * *
3863.50 * *
3864.43 * *
3864.67 * *
3868.76 104.448 0.010
3878.18 0.030 0.002
3882.19 0.047 0.001
3882.45 0.005 0.000
3883.13 0.003 0.000
3883.82 0.029 0.000
3883.82 * *
3887.44 0.064 0.001
3888.64 9.967 0.119
3889.05 8.592 0.102
3891.28 0.162 0.010
3895.22 0.049 0.010
3896.10 0.039 0.010
3902.87 0.010 0.005
3902.81 * *
3907.45 0.009 0.005
3907.74 0.008 0.005
3911.96 0.020 0.005
3914.90 0.003 0.003
3918.98 0.014 0.003
3919.29 0.010 0.003
3919.00 * *
3920.69 0.030 0.001
3923.48 0.106 0.003
3924.47 0.012 0.002
3926.53 0.117 0.001
3926.58 0.002 0.001
3928.80 0.013 0.001
3931.55 0.005 0.001
3935.91 0.010 0.002
3942.28 0.006 0.002
3945.04 0.023 0.002
3945.00 * *
3945.20 * *
3948.01 0.027 0.002
3947.72 * *
3948.33 * *
3954.36 0.027 0.002
3961.57 0.028 0.005
3964.73 1.064 0.087
3967.47 30.423 0.140
3968.43 0.097 0.005
3970.07 14.637 0.047
3971.33 * *
3973.26 0.058 0.005
3979.12 * *
3980.91 * *
3982.71 0.009 0.005
3983.73 0.011 0.005
3985.85 0.015 0.005
3985.55 * *
3994.99 0.030 0.002
3995.13 * *
3998.63 0.023 0.002
4003.58 0.035 0.002
4003.72 * *
4008.35 0.016 0.002
4009.26 0.193 0.003
4012.01 0.013 0.002
4015.99 0.006 0.002
4023.99 0.023 0.023
4023.86 * *
4025.60 0.125 0.125
4026.08 0.016 0.016
4026.20 2.175 0.027
4026.31 0.002 0.002
4032.25 0.005 0.000
4032.48 0.001 0.001
4033.16 0.011 0.000
4033.04 * *
4035.07 * *
4035.08 0.034 0.006
4035.46 * *
4039.35 0.004 0.002
4041.28 0.006 0.001
4041.31 0.074 0.005
4041.95 * *
4043.53 0.032 0.002
4044.78 0.005 0.003
4044.95 0.004 0.000
4046.12 0.005 0.000
4048.22 0.018 0.000
4047.80 * *
4052.28 0.004 0.003
4054.52 0.011 0.003
4054.08 * *
4056.06 * *
4056.90 0.007 0.004
4058.16 0.004 0.003
4059.90 0.011 0.003
4060.60 0.006 0.000
4060.60 * *
4061.03 0.021 0.002
4061.21 0.000 0.000
4061.22 * *
4061.76 0.002 0.002
4062.94 0.033 0.002
4062.97 0.001 0.001
4065.05 0.003 0.000
4067.94 0.065 0.026
4068.60 0.661 0.023
4068.92 0.085 0.034
4069.62 * *
4069.89 0.577 0.577
4070.31 0.112 0.044
4071.24 * *
4071.24 * *
4072.16 0.499 0.032
4073.05 * *
4074.02 0.064 0.013
4074.52 * *
4074.52 * *
4074.85 * *
4075.86 0.626 0.057
4075.85 * *
4076.35 0.218 0.007
4076.53 * *
4076.91 0.010 0.000
4077.40 0.000 0.000
4078.84 0.081 0.008
4079.70 * *
4081.00 0.037 0.007
4082.27 0.026 0.001
4082.89 0.002 0.002
4083.90 0.079 0.004
4085.11 0.098 0.007
4086.83 0.001 0.001
4087.15 0.084 0.006
4087.30 0.006 0.006
4088.27 0.005 0.000
4088.52 * *
4088.86 0.043 0.001
4089.29 0.242 0.004
4092.93 0.070 0.021
4094.14 0.006 0.000
4095.64 0.076 0.004
4095.90 0.045 0.006
4095.84 * *
4096.19 0.017 0.001
4096.58 0.002 0.002
4096.61 * *
4096.93 0.011 0.001
4097.25 0.055 0.003
4097.26 0.216 0.010
4097.33 1.672 0.151
4097.38 0.041 0.002
4097.50 * *
4098.01 0.023 0.001
4100.97 0.001 0.000
4101.73 25.789 0.539
4103.00 0.049 0.001
4103.39 * *
4104.72 0.017 0.000
4104.99 0.095 0.002
4106.02 0.004 0.000
4107.09 0.053 0.001
4107.33 0.003 0.003
4108.75 0.010 0.000
4109.30 0.000 0.000
4110.04 0.031 0.002
4110.79 0.023 0.000
4110.83 0.000 0.000
4112.40 0.011 0.011
4114.18 * *
4114.50 * *
4116.10 0.024 0.004
4119.22 0.140 0.033
4120.28 0.018 0.018
4120.54 0.025 0.025
4120.99 0.238 0.010
4121.46 0.015 0.006
4122.62 0.012 0.005
4128.07 0.009 0.004
4128.75 * *
4129.32 0.022 0.003
4130.89 0.002 0.000
4130.87 * *
4131.78 0.003 0.001
4132.80 0.072 0.006
4133.67 * *
4136.39 0.001 0.001
4137.72 0.001 0.001
4139.92 0.013 0.005
4140.70 0.003 0.001
4142.27 0.056 0.003
4143.74 0.055 0.000
4143.76 0.261 0.002
4144.20 0.030 0.000
4145.78 0.017 0.003
4145.79 * *
4146.08 0.008 0.008
4146.65 0.006 0.003
4150.69 * *
4152.51 0.013 0.002
4153.30 0.103 0.006
4156.50 0.018 0.002
4156.39 * *
4156.53 0.052 0.006
4156.74 0.002 0.000
4157.01 0.002 0.002
4160.50 * *
4161.14 * *
4162.88 0.004 0.003
4163.25 0.006 0.003
4163.32 * *
4165.77 0.001 0.001
4166.88 0.010 0.002
4169.22 0.072 0.002
4168.97 * *
4169.38 * *
4171.61 0.021 0.002
4171.69 * *
4173.57 0.003 0.002
4173.46 * *
4174.38 0.001 0.001
4175.66 * *
4176.16 0.026 0.003
4176.09 * *
4178.13 0.008 0.002
4178.85 0.001 0.001
4179.67 0.009 0.003
4180.60 0.011 0.000
4181.10 0.035 0.001
4181.20 * *
4185.45 0.065 0.003
4186.90 0.082 0.003
4189.58 * *
4189.79 0.077 0.001
4192.51 0.001 0.001
4195.76 0.043 0.005
4195.97 0.004 0.004
4198.24 0.024 0.002
4199.83 0.253 0.007
4199.98 0.007 0.007
4199.89 * *
4200.10 0.078 0.014
4201.35 * *
4206.51 0.005 0.001
4206.60 * *
4207.50 0.001 0.001
4208.08 * *
4209.33 0.002 0.001
4212.41 0.001 0.001
4215.77 0.008 0.002
4217.17 0.011 0.002
4217.15 * *
4217.18 0.002 0.000
4219.37 * *
4219.74 0.053 0.011
4220.89 0.016 0.003
4222.76 0.003 0.000
4222.76 * *
4222.82 0.004 0.001
4224.47 0.007 0.000
4224.64 0.002 0.002
4227.19 0.015 0.000
4227.69 0.256 0.006
4231.53 * *
4231.55 * *
4231.64 0.026 0.004
4233.85 0.016 0.003
4236.91 0.051 0.006
4237.05 * *
4237.91 0.011 0.006
4239.91 0.016 0.002
4240.10 * *
4241.24 0.000 0.000
4241.78 0.030 0.011
4241.78 0.057 0.003
4242.04 * *
4242.49 0.002 0.000
4244.14 0.006 0.002
4244.17 * *
4243.97 * *
4244.81 0.003 0.002
4246.71 0.001 0.001
4247.20 0.004 0.001
4250.65 0.015 0.008
4251.44 0.009 0.002
4253.90 0.054 0.009
4253.91 * *
4254.12 * *
4255.41 0.004 0.004
4256.46 0.004 0.004
4257.80 0.015 0.012
4259.99 0.005 0.005
4263.27 0.004 0.000
4267.00 0.329 0.006
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4273.10 0.011 0.001
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4275.55 0.103 0.005
4275.99 0.023 0.001
4276.28 0.016 0.001
4276.62 0.015 0.001
4276.71 * *
4276.75 0.050 0.002
4277.43 0.032 0.002
4277.44 * *
4277.89 0.021 0.001
4280.44 * *
4280.59 * *
4281.32 0.020 0.001
4281.46 0.001 0.001
4282.02 * *
4282.96 0.039 0.001
4283.25 0.007 0.000
4283.73 0.021 0.000
4283.73 * *
4284.00 0.002 0.002
4284.39 0.001 0.001
4285.31 * *
4285.21 * *
4285.69 0.057 0.004
4288.82 0.017 0.001
4288.82 0.019 0.001
4291.25 0.055 0.005
4291.86 0.003 0.003
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4294.78 0.063 0.002
4294.92 0.018 0.001
4296.87 0.003 0.003
4297.02 * *
4303.61 0.020 0.001
4303.82 0.113 0.004
4304.08 0.005 0.000
4305.39 0.006 0.000
4307.23 0.027 0.003
4309.00 0.015 0.003
4309.00 * *
4312.11 0.015 0.003
4313.44 0.023 0.003
4315.39 0.004 0.000
4315.39 0.012 0.004
4315.40 0.006 0.001
4315.69 0.001 0.001
4315.83 0.009 0.000
4317.14 0.086 0.002
4317.70 0.015 0.000
4319.63 0.059 0.003
4322.45 0.001 0.001
4325.76 0.027 0.002
4327.59 0.005 0.002
4329.43 0.013 0.013
4331.13 0.022 0.000
4332.33 * *
4332.71 0.055 0.001
4333.88 0.007 0.000
4334.19 0.008 0.000
4334.03 * *
4334.33 0.002 0.002
4335.36 0.002 0.002
4336.86 0.050 0.001
4338.67 0.341 0.004
4340.33 0.080 0.001
4340.46 45.520 0.519
4342.00 0.198 0.002
4344.42 0.029 0.000
4344.68 * *
4344.96 0.001 0.001
4345.55 0.032 0.001
4345.56 0.133 0.002
4346.16 0.000 0.000
4346.85 0.049 0.007
4347.22 0.001 0.001
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4351.26 0.011 0.000
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4351.81 0.013 0.000
4352.78 0.002 0.002
4353.59 0.024 0.005
4354.18 0.001 0.001
4357.25 * *
4357.25 0.024 0.001
4357.52 * *
4358.36 * *
4358.45 0.002 0.000
4359.33 0.028 0.002
4359.39 * *
4363.21 6.941 0.404
4365.08 0.002 0.000
4365.64 * *
4365.75 * *
4366.52 0.000 0.000
4366.53 0.037 0.002
4366.79 * *
4366.89 0.081 0.009
4366.99 * *
4368.40 0.014 0.001
4368.26 * *
4369.28 0.003 0.001
4369.64 0.020 0.001
4371.62 0.032 0.013
4374.30 0.009 0.006
4374.27 * *
4376.54 0.031 0.008
4376.56 * *
4377.98 0.036 0.020
4379.11 0.348 0.022
4379.58 * *
4379.55 0.047 0.031
4379.40 * *
4385.06 0.030 0.005
4384.70 * *
4384.98 * *
4385.33 * *
4387.93 0.568 0.010
4391.99 0.071 0.004
4392.00 * *
4395.94 0.007 0.001
4397.99 0.023 0.003
4398.42 0.002 0.002
4401.67 0.004 0.004
4401.88 * *
4405.99 0.000 0.000
4408.29 0.007 0.002
4409.30 0.057 0.005
4409.78 * *
4412.20 0.004 0.004
4412.59 0.013 0.005
4413.22 0.027 0.001
4413.11 * *
4413.11 * *
4414.85 0.008 0.003
4414.90 0.095 0.002
4416.76 0.024 0.003
4416.77 * *
4416.97 0.061 0.001
4417.07 0.004 0.004
4417.83 0.002 0.002
4421.39 0.008 0.000
4427.24 0.009 0.002
4427.22 * *
4427.96 0.006 0.001
4428.52 * *
4428.41 * *
4428.52 * *
4428.64 0.042 0.003
4430.06 * *
4430.90 * *
4430.94 0.038 0.038
4431.11 * *
4431.82 0.003 0.001
4432.45 0.002 0.002
4432.74 0.034 0.006
4433.48 0.008 0.002
4434.60 0.023 0.002
4437.54 0.001 0.000
4437.55 0.062 0.045
4439.25 0.013 0.002
4439.46 * *
4442.02 0.019 0.002
4442.02 * *
4442.69 * *
4446.81 0.005 0.002
4447.03 * *
4448.14 0.037 0.007
4448.19 0.002 0.001
4452.10 0.013 0.002
4452.37 0.013 0.002
4454.03 0.011 0.005
4457.05 0.025 0.002
4457.24 * *
4457.24 * *
4457.36 * *
4457.95 * *
4458.55 0.017 0.006
4461.14 0.012 0.003
4466.42 0.031 0.010
4466.59 0.031 0.010
4469.46 0.295 0.295
4468.91 * *
4469.48 0.036 0.036
4471.02 0.005 0.005
4471.04 * *
4471.50 4.580 0.445
4476.11 0.004 0.004
4475.17 * *
4477.90 0.029 0.016
4477.93 * *
4477.91 * *
4481.20 0.029 0.017
4482.83 0.011 0.006
4487.72 0.013 0.013
4488.20 0.014 0.014
4488.20 * *
4489.49 0.021 0.009
4491.23 0.055 0.018
4494.52 0.003 0.001
4496.24 0.004 0.001
4498.92 0.013 0.001
4499.12 0.003 0.001
4503.09 0.003 0.000
4508.13 0.018 0.003
4510.91 0.161 0.006
4510.91 * *
4510.92 * *
4514.86 0.046 0.003
4514.88 * *
4516.66 0.011 0.003
4517.40 * *
4517.83 * *
4518.15 0.043 0.003
4522.31 * *
4522.52 * *
4523.58 0.044 0.003
4530.41 0.045 0.007
4530.86 0.006 0.006
4534.31 * *
4534.52 * *
4534.58 0.065 0.006
4534.64 * *
4535.37 * *
4535.57 * *
4537.20 * *
4538.99 * *
4539.71 0.024 0.003
4541.59 0.549 0.006
4544.12 * *
4544.85 0.048 0.003
4547.30 0.005 0.003
4552.53 0.032 0.000
4552.62 0.017 0.000
4553.17 * *
4553.40 * *
4554.10 0.001 0.001
4558.57 0.003 0.001
4561.99 0.007 0.005
4562.60 0.025 0.008
4564.70 0.003 0.001
4567.82 0.011 0.002
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4571.10 0.084 0.003
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4587.72 0.004 0.003
4588.14 0.006 0.003
4590.97 0.085 0.005
4593.30 0.006 0.002
4595.96 * *
4596.18 0.060 0.002
4600.16 0.007 0.002
4601.48 0.016 0.004
4602.13 0.050 0.004
4607.03 0.035 0.002
4607.16 * *
4609.44 0.125 0.004
4610.20 0.040 0.005
4611.07 0.012 0.002
4612.93 0.004 0.004
4613.14 0.005 0.005
4613.68 0.011 0.010
4613.87 0.002 0.002
4615.56 0.005 0.001
4616.09 0.007 0.001
4618.40 0.002 0.002
4618.39 * *
4619.23 0.002 0.002
4620.11 0.012 0.005
4621.27 0.019 0.013
4621.39 * *
4622.14 0.000 0.000
4627.44 0.009 0.009
4627.98 * *
4630.54 0.065 0.014
4634.14 1.107 0.018
4637.63 * *
4638.86 0.327 0.016
4638.91 * *
4639.07 * *
4640.64 2.211 0.029
4641.81 0.427 0.072
4641.85 0.221 0.004
4643.09 * *
4647.42 0.164 0.004
4649.13 0.652 0.009
4650.25 0.099 0.003
4650.84 0.172 0.002
4651.47 0.033 0.001
4658.30 0.143 0.058
4658.05 * *
4661.63 0.213 0.014
4665.86 0.004 0.004
4667.01 0.007 0.004
4669.27 0.006 0.006
4669.25 0.009 0.003
4673.73 0.051 0.004
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4680.58 0.002 0.002
4680.77 0.001 0.001
4685.68 15.165 0.185
4694.64 0.018 0.002
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4699.22 0.024 0.009
4701.53 0.045 0.009
4705.35 0.021 0.004
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4713.20 0.579 0.037
4714.17 0.052 0.052
4715.66 0.014 0.014
4718.89 0.003 0.003
4724.17 0.023 0.010
4725.67 0.019 0.010
4733.91 0.021 0.005
4740.17 3.970 0.052
4741.71 0.007 0.007
4751.27 0.007 0.007
4752.68 0.006 0.006
4753.06 * *
4754.69 0.024 0.005
4756.70 0.009 0.001
4760.87 0.006 0.001
4762.31 0.003 0.000
4762.54 0.015 0.000
4764.86 0.017 0.001
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4772.93 0.011 0.001
4774.24 0.008 0.001
4775.91 0.003 0.001
4777.68 0.009 0.001
4777.79 * *
4779.72 0.004 0.001
4781.19 0.004 0.001
4782.12 0.005 0.001
4784.43 0.003 0.001
4785.86 0.004 0.001
4788.51 0.024 0.001
4788.13 * *
4789.45 0.016 0.016
4790.72 0.017 0.003
4792.12 0.018 0.012
4793.12 0.012 0.010
4793.65 0.003 0.001
4793.83 * *
4794.49 0.023 0.013
4796.08 0.026 0.002
4798.27 0.019 0.002
4799.45 0.026 0.002
4800.70 0.026 0.002
4802.70 0.033 0.003
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4805.02 0.010 0.001
4806.99 0.009 0.001
4810.31 0.001 0.001
4814.53 0.003 0.001
4815.62 0.015 0.001
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4821.61 0.005 0.001
4823.24 0.008 0.001
4825.05 0.005 0.002
4826.38 0.012 0.002
4828.97 0.005 0.001
4829.11 0.000 0.000
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4851.32 0.013 0.013
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4911.27 0.001 0.001
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4921.66 0.130 0.130
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4924.53 0.075 0.006
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4933.18 0.014 0.010
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4943.00 0.012 0.005
4958.91 391.683 0.118
4967.14 0.286 0.028
4971.48 0.008 0.001
4971.71 * *
4972.47 0.129 0.013
4980.09 0.050 0.005
4987.37 0.007 0.001
5006.84 1175.760 0.823
5015.68 1.513 0.463
5016.39 0.231 0.231
5025.66 0.059 0.023
5030.63 0.040 0.024
5033.59 0.043 0.026
5040.72 0.102 0.078
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5093.77 0.020 0.003
5093.98 * *
5104.00 0.014 0.003
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5110.40 0.006 0.006
5115.06 0.009 0.003
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5172.35 * *
5173.39 0.001 0.000
5173.64 0.003 0.000
5174.46 0.008 0.001
5176.04 0.005 0.001
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5346.02 0.022 0.009
5355.87 0.005 0.005
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5359.24 * *
5363.53 0.016 0.016
5366.80 0.007 0.007
5368.10 0.008 0.008
5370.29 0.019 0.019
5376.45 0.025 0.017
5383.25 0.009 0.009
5391.24 0.008 0.008
5396.59 0.011 0.006
5411.52 1.214 0.031
5411.98 * *
5423.90 0.002 0.000
5426.70 0.003 0.001
5429.99 0.004 0.001
5432.04 0.005 0.001
5437.54 0.003 0.001
5452.08 0.003 0.001
5453.83 * *
5454.22 0.006 0.001
5457.44 0.003 0.001
5460.51 0.007 0.001
5462.59 * *
5467.72 0.006 0.001
5467.80 * *
5470.87 0.004 0.001
5474.51 0.003 0.001
5473.62 * *
5478.59 0.001 0.001
5478.10 * *
5480.06 0.009 0.003
5483.35 0.002 0.002
5484.84 0.004 0.004
5485.90 0.000 0.000
5488.47 0.017 0.004
5495.67 0.007 0.001
5497.20 0.006 0.001
5500.17 0.006 0.001
5508.25 0.004 0.004
5509.72 * *
5514.16 0.043 0.009
5517.72 0.480 0.007
5526.24 0.009 0.003
5530.24 0.012 0.004
5535.36 0.048 0.015
5537.89 0.579 0.008
5540.06 0.005 0.002
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5660.58 0.012 0.003
5659.83 * *
5666.63 0.068 0.005
5676.02 0.038 0.005
5679.56 0.139 0.007
5683.70 0.003 0.002
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5692.00 0.017 0.003
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5710.77 0.021 0.003
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5756.74 0.000 0.000
5765.97 0.007 0.002
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5784.94 0.003 0.003
5789.65 0.007 0.001
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5811.98 0.041 0.003
5813.19 0.011 0.007
5820.10 0.015 0.003
5820.43 0.012 0.008
5828.60 0.010 0.002
5827.85 * *
5830.61 0.004 0.003
5830.76 * *
5832.89 0.005 0.003
5836.50 0.014 0.001
5840.08 0.003 0.001
5843.62 0.004 0.001
5847.10 0.018 0.001
5857.27 0.017 0.017
5861.00 0.041 0.041
5869.00 0.014 0.000
5868.89 * *
5875.60 15.629 0.152
5882.14 0.016 0.000
5886.05 0.029 0.029
5885.40 * *
5905.50 0.014 0.001
5913.26 0.017 0.002
5912.58 * *
5927.81 0.008 0.001
5931.83 0.016 0.016
5931.78 0.013 0.013
5941.65 0.032 0.003
5940.24 * *
5945.37 0.002 0.001
5952.93 0.024 0.001
5952.39 * *
5957.46 0.003 0.001
5966.33 0.005 0.001
5969.93 0.008 0.001
5977.03 0.032 0.001
5986.66 0.004 0.001
5990.10 0.015 0.001
6004.72 0.031 0.002
6004.69 * *
6004.72 * *
6024.40 0.012 0.001
6036.78 0.033 0.002
6036.55 * *
6043.38 0.003 0.001
6049.02 0.003 0.001
6065.92 0.009 0.001
6074.10 0.038 0.002
6081.87 * *
6083.20 0.025 0.002
6096.30 0.166 0.001
6101.83 0.009 0.002
6101.42 * *
6107.80 0.009 0.001
6111.02 0.006 0.001
6114.47 0.009 0.002
6114.60 * *
6118.26 0.044 0.001
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6229.35 * *
6233.75 0.042 0.001
6233.82 0.016 0.001
6234.00 * *
6238.39 0.005 0.002
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6300.30 0.623 0.005
6310.80 0.100 0.000
6312.10 1.549 0.006
6343.60 0.028 0.004
6343.40 * *
6347.10 0.055 0.004
6346.80 * *
6347.03 * *
6363.78 0.216 0.004
6371.36 0.084 0.004
6371.47 * *
6387.77 0.004 0.001
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6401.40 0.007 0.001
6401.44 * *
6406.38 0.078 0.001
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6471.30 0.012 0.001
6471.42 * *
6478.72 0.005 0.002
6482.31 0.016 0.002
6482.05 * *
6486.14 0.026 0.002
6495.65 0.018 0.002
6495.74 * *
6498.74 0.021 0.003
6501.41 0.038 0.004
6510.28 0.036 0.002
6516.15 0.022 0.002
6527.24 0.090 0.002
6527.11 * *
6533.02 0.007 0.001
6539.14 0.058 0.006
6539.33 * *
6548.04 6.360 0.100
6560.10 3.819 0.300
6562.80 301.357 0.060
6578.05 0.531 0.348
6582.88 0.265 0.174
6583.46 17.717 0.500
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6667.72 0.020 0.014
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6678.15 4.188 0.322
6683.20 0.226 0.226
6682.20 * *
6701.70 0.006 0.006
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6709.90 0.017 0.004
6716.44 1.572 0.010
6721.40 0.016 0.003
6730.82 2.609 0.020
6731.04 * *
6739.80 0.018 0.003
6744.74 0.019 0.003
6747.50 0.008 0.002
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6786.94 * *
6792.54 0.007 0.002
6792.67 * *
6795.10 0.053 0.003
6800.82 0.004 0.002
6847.86 0.013 0.003
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6865.16 0.009 0.003
6890.90 0.106 0.005
6891.32 * *
6934.63 0.020 0.005
6934.46 * *
6990.70 0.022 0.005
7005.67 0.048 0.005
7006.19 * *
7047.99 0.024 0.004
7065.71 5.070 0.200
7102.66 0.025 0.005
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7170.90 0.125 0.010
7170.62 * *
7177.50 0.156 0.010
7191.30 0.035 0.008
7190.82 * *
7198.17 0.028 0.005
7214.71 0.025 0.005
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7236.42 * *
7237.17 * *
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7486.35 * *
7499.85 0.051 0.010
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7519.86 0.036 0.010
7519.50 * *
7519.86 * *
7530.80 0.452 0.010
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8101.31 * *
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8237.15 * *
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8260.93 0.008 0.008
8264.28 0.026 0.010
8265.71 * *
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8680.53 * *
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8822.73 * *
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8914.77 0.016 0.002
8929.11 0.040 0.003
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8970.83 * *
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9095.94 * *
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9598.78 * *
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9713.99 0.017 0.003
9720.13 0.014 0.003
9741.50 0.010 0.002
9748.40 0.013 0.002
9762.15 0.053 0.004
9790.52 0.012 0.004
9794.01 0.014 0.004
9799.26 0.009 0.004
9808.85 0.007 0.004
9816.40 0.006 0.003
9824.13 0.010 0.003
9833.39 0.005 0.005
9850.26 0.036 0.003
9849.96 * *
9868.21 0.012 0.004
9891.09 0.012 0.003
9903.46 0.265 0.010
9903.39 * *
9903.45 * *
9911.46 0.006 0.006
9963.77 0.038 0.005
9969.34 0.015 0.003
9969.43 * *
9982.42 0.032 0.004
9990.27 0.152 0.010
9990.27 * *
9993.30 0.033 0.010
10004.46 0.023 0.010
10010.22 0.057 0.010
10013.89 0.218 0.013
10023.10 0.080 0.010
10027.72 0.312 0.011
10030.20 0.013 0.005
10038.70 0.131 0.011
10049.37 5.734 0.062
10083.80 0.153 0.015
10098.09 0.083 0.013
10110.70 0.097 0.013
10123.61 3.781 0.068
10160.60 0.061 0.011
10191.73 0.075 0.012
10203.60 0.088 0.015
10212.11 0.107 0.020
10292.08 0.099 0.018
10311.00 0.099 0.018
10374.40 0.224 0.025
10389.80 0.070 0.026
10404.00 0.095 0.040
10420.71 0.449 0.080
10471.30 0.229 0.060
10491.40 0.071 0.071
10530.70 0.196 0.084
10623.00 0.165 0.085
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/ngc7009_cels.dat���������������������������������������������������������������0000664�0000000�0000000�00000031505�12714613141�0017507�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Galactic planetary nebula
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3587.27 0.292 0.005
3599.32 0.020 0.003
3613.64 0.244 0.010
3634.23 0.453 0.014
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3651.82 0.014 0.005
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3682.81 0.622 0.037
3686.83 0.712 0.008
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3711.97 1.379 0.040
3715.16 0.021 0.010
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3726.03 11.809 0.020
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3750.15 2.481 0.063
3768.81 0.028 0.001
3769.08 0.026 0.001
3770.63 3.277 0.071
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3797.90 4.340 0.071
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4432.45 0.002 0.002
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5977.03 0.032 0.001
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6004.72 * *
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7319.99 1.403 0.050
7330.73 1.308 0.050
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8260.93 0.008 0.008
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8480.85 0.025 0.005
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8545.38 0.513 0.014
8561.99 0.008 0.002
8566.92 0.026 0.004
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8598.39 0.611 0.015
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8616.95 0.020 0.003
8626.19 0.028 0.003
8632.97 0.013 0.004
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8728.90 0.023 0.003
8733.43 0.094 0.010
8739.97 0.009 0.005
8750.47 0.889 0.016
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8816.64 0.011 0.002
8845.37 0.093 0.005
8862.78 1.455 0.018
8914.77 0.016 0.002
8929.11 0.040 0.003
8997.02 0.082 0.005
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9068.60 29.171 0.149
9108.54 0.022 0.002
9123.60 0.027 0.003
9162.53 0.019 0.003
9174.49 0.017 0.003
9210.33 0.137 0.010
9229.01 3.188 0.022
9289.40 0.013 0.002
9303.19 0.008 0.003
9344.93 0.108 0.005
9367.03 0.017 0.003
9391.70 0.010 0.003
9436.63 0.032 0.004
9463.58 0.094 0.004
9479.00 0.035 0.004
9486.98 0.020 0.004
9516.63 0.079 0.005
9530.60 55.715 0.802
9545.97 1.876 0.025
9579.60 0.013 0.004
9603.44 0.026 0.003
9625.70 0.021 0.003
9645.10 0.015 0.003
9652.70 0.033 0.003
9669.66 0.013 0.002
9702.71 0.035 0.004
9762.15 0.053 0.004
9824.13 0.010 0.003
9850.26 0.036 0.003
10013.89 0.218 0.013
10023.10 0.080 0.010
10027.72 0.312 0.011
10049.37 5.734 0.062
10098.09 0.083 0.013
10123.61 3.781 0.068
10212.11 0.107 0.020
10311.00 0.099 0.018
�������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/examples/smc_n66.dat��������������������������������������������������������������������0000664�0000000�0000000�00000003674�12714613141�0016673�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#SMC HII region
#from Tsamis et al., 2003, MNRAS, 338, 687
3703.86 2.390
3711.97 1.830
3721.63 3.550
3726.03 47.700
3728.82 68.000
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3750.15 2.830
3770.63 3.860
3797.90 5.170
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4535.96 0.057
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4683.25 0.039
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4722.83 0.057
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4754.83 0.058
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4834.70 0.041
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4861.33 100.000
4889.63 0.079
4893.75 0.033
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4914.84 0.045
4921.93 0.045
4921.93 1.070
4924.53 0.070
4931.80 0.048
4934.52 0.037
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4958.91 170.000
5006.84 512.000
5517.66 0.357
5537.60 0.441
5754.60 0.131
6136.36 0.597
6166.00 0.597
6197.92 0.257
6231.09 2.160
6254.30 1.650
6300.34 15.600
6312.10 1.730
6461.95 2.050
6492.97 2.050
6516.12 2.250
6529.41 2.040
6548.10 2.950
6562.77 305.000
6583.50 4.080
6678.16 3.170
6716.44 8.450
6730.82 6.190
7065.25 2.460
7135.80 9.680
7159.07 1.390
7070.62 0.361
7186.58 0.250
7281.35 5.730
7318.92 1.920
7329.67 1.680
��������������������������������������������������������������������NEAT-master/examples/vs24.dat�����������������������������������������������������������������������0000664�0000000�0000000�00000002516�12714613141�0016210�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#Extragalactic HII region
#from Esteban et al. 2009, ApJ, 700,654
3613.64 0.3 0.1
3634.25 0.3 0.1
3666.1 0.3 0.1
3667.68 0.3 0.1
3669.47 0.3 0.1
3671.48 0.4 0.1
3673.76 0.4 0.1
3676.37 0.4 0.1
3679.36 0.4 0.1
3682.81 0.6 0.1
3686.83 0.7 0.1
3691.56 0.8 0.1
3697.15 0.8 0.1
3703.86 0.9 0.1
3705.04 0.3 0.1
3711.97 1.1 0.1
3721.83 1.7 0.1
3726.03 65 1
3728.82 78 1
3734.37 1.6 0.1
3750.15 2.1 0.1
3770.63 2.7 0.1
3797.9 3.6 0.1
3819.61 0.6 0.1
3835.39 6.0 0.2
3868.75 5.5 0.2
3889.05 15.8 0.3
3964.73 0.41 0.09
3967.46 1.0 0.1
3970.07 12.7 0.2
4026.21 1.5 0.1
4068.6 0.9 0.1
4076.35 0.27 0.09
4101.74 24.9 0.4
4287.4 0.27 0.08
4340.47 46.1 0.6
4363.21 0.43 0.08
4387.93 0.29 0.08
4471.09 3.4 0.1
4658.1 0.34 0.04
4713.14 0.21 0.03
4861.33 100 1
4881 0.11 0.03
4921.93 0.82 0.05
4958.91 48.1 0.5
4985.9 0.33 0.04
5006.84 145 2
5015.68 1.79 0.06
5041.03 0.14 0.03
5047.74 0.09 0.03
5055.98 0.15 0.03
5197.9 0.27 0.03
5200.26 0.20 0.03
5270.4 0.17 0.03
5517.71 0.35 0.04
5537.88 0.27 0.04
5754.64 0.35 0.04
5875.64 10.0 0.2
6300.3 0.88 0.05
6312.1 0.86 0.05
6363.78 0.30 0.04
6371.36 0.11 0.03
6548.03 13.1 0.4
6562.82 280 8
6578.05 0.16 0.04
6583.41 39 1
6678.15 2.7 0.1
6716.47 14.2 0.4
6730.85 10.9 0.3
7065.28 1.57 0.08
7135.78 5.8 0.2
7281.35 0.31 0.04
7318.39 0.45 0.05
7319.99 0.86 0.06
7329.66 0.57 0.05
7330.73 0.46 0.05
7451.87 1.65 0.09
7457.3 2.0 0.1
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#from Esteban et al. 2009, ApJ, 700,654
3691.56 0.41 0.08
3697.15 0.52 0.09
3703.86 0.60 0.09
3711.97 0.9 0.1
3721.83 1.5 0.1
3726.03 45.7 0.8
3728.82 61 1
3734.37 1.5 0.1
3750.15 2.0 0.1
3770.63 2.3 0.1
3797.9 3.0 0.1
3819.61 0.7 0.1
3835.39 6.0 0.2
3868.75 5.3 0.2
3889.05 18.0 0.3
3964.73 0.48 0.08
3967.46 1.6 0.1
3970.07 13.1 0.3
4026.21 1.7 0.1
4068.6 0.66 0.09
4101.74 26.7 0.4
4267.15 0.20 0.06
4340.47 47.2 0.6
4363.21 0.60 0.08
4387.93 0.31 0.07
4471.09 3.9 0.1
4658.1 0.21 0.04
4713.14 0.25 0.04
4861.33 100 1
4921.93 0.76 0.06
4958.91 50.2 0.6
4985.9 0.30 0.03
5006.84 151 2
5015.68 1.98 0.08
5197.9 0.13 0.03
5200.26 0.11 0.03
5517.71 0.28 0.04
5537.88 0.14 0.03
5754.64 0.23 0.04
5875.64 11.2 0.2
6300.3 0.38 0.03
6312.1 0.55 0.04
6363.78 0.17 0.02
6548.03 9.4 0.2
6562.82 275 6
6578.05 0.17 0.02
6583.41 27.5 0.7
6678.15 2.85 0.09
6716.47 10.7 0.3
6730.85 7.8 0.2
7065.28 1.16 0.06
7135.78 5.9 0.2
7281.35 0.23 0.03
7318.39 0.22 0.03
7319.99 0.61 0.04
7329.66 0.46 0.04
7330.73 0.23 0.03
7451.87 1.93 0.08
7457.3 2.4 0.1
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#from Esteban et al. 2009, ApJ, 700,654
3587.28 0.22 0.06
3613.64 0.23 0.06
3671.48 0.27 0.06
3673.76 0.28 0.06
3676.37 0.33 0.07
3679.36 0.52 0.07
3682.81 0.62 0.08
3686.83 0.77 0.08
3691.56 0.47 0.07
3697.15 0.66 0.08
3703.86 0.70 0.08
3705.04 0.28 0.06
3711.97 0.73 0.08
3721.83 1.6 0.1
3726.03 58 1
3728.82 75 1
3734.37 1.21 0.09
3750.15 1.5 0.1
3770.63 2.2 0.1
3797.9 2.7 0.1
3819.61 0.57 0.07
3835.39 5.4 0.2
3856.02 0.25 0.06
3862.59 0.19 0.05
3868.75 6.8 0.2
3889.05 15.2 0.3
3964.73 0.58 0.07
3967.46 2.1 0.1
3970.07 12.6 0.3
4009.22 0.13 0.05
4026.21 1.6 0.1
4068.6 1.16 0.08
4076.35 0.39 0.06
4101.74 25.1 0.4
4120.82 0.13 0.05
4143.76 0.19 0.05
4267.15 0.10 0.04
4340.47 45.9 0.6
4359.34 0.12 0.04
4363.21 0.62 0.06
4387.93 0.38 0.06
4471.09 3.9 0.1
4638.86 0.04 0.02
4640.64 0.07 0.02
4641.81 0.04 0.02
4649.13 0.06 0.02
4650.84 0.06 0.02
4658.1 0.59 0.03
4661.63 0.10 0.02
4701.53 0.14 0.02
4713.14 0.33 0.03
4754.83 0.11 0.02
4861.33 100 1
4881 0.19 0.02
4921.93 0.96 0.03
4958.91 64.4 0.7
4985.9 0.64 0.03
5006.84 193 2
5015.68 1.85 0.04
5041.03 0.14 0.02
5047.74 0.09 0.02
5055.98 0.15 0.02
5197.9 0.38 0.03
5200.26 0.27 0.02
5261.61 0.014 0.006
5270.4 0.28 0.02
5517.71 0.35 0.03
5537.88 0.26 0.02
5754.64 0.33 0.03
5875.64 10.5 0.2
5957.56 0.08 0.02
5978.93 0.09 0.02
6300.3 1.39 0.05
6312.1 0.96 0.05
6347.11 0.11 0.03
6363.78 0.48 0.04
6371.36 0.09 0.02
6548.03 10.5 0.3
6562.82 281 8
6578.05 0.09 0.02
6583.41 30.5 0.8
6678.15 2.9 0.1
6716.47 16.4 0.5
6730.85 12.5 0.4
7065.28 1.81 0.08
7135.78 6.7 0.2
7281.35 0.47 0.04
7318.39 1.41 0.07
7319.99 0.33 0.03
7329.66 0.92 0.05
7330.73 0.44 0.04
7451.87 1.77 0.09
7457.3 1.78 0.09
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.TH man 1 "9 May 2016" "2.0" "neat man page"
.SH NAME
\fBneat\fR \- nebular empirical analysis tool
.SH SYNOPSIS
\fBneat\fR [option1] [value1] ...
.SH DESCRIPTION
\fBneat\fR carries out a comprehensive empirical analysis on a list of nebular emission line fluxes. If uncertainties are required, it evaluates them using a Monte Carlo approach. \fBneat\fR's philosophy is that abundance determinations should be as objective as possible, and so user input should be minimised. A number of choices can be made by the user, but the default options should yield meaningful results.
.SH OPTIONS
.TP
.B \-i, \-\-input [FILENAME]
The line list to be analysed. Plain text files containing two, three or four columns of numbers can be understood by \fBneat\fR. Full details of the input format are given in the "methodology" section below.
.TP
.B \-u, \-\-uncertainties
Calculate uncertainties, using 10,000 iterations. If this option is specified, the \-n option will be ignored
.TP
.B \-n, \-\-n\-iterations [VALUE]
Number of iterations. Default: 1
.TP
.B \-e, \-\-extinction\-law [VALUE]
Extinction law to use for dereddening.
Valid values are:
\fBHow\fR: Galactic law of Howarth (1983, MNRAS, 203, 301)
\fBCCM\fR: Galactic law of Cardelli, Clayton, Mathis (1989, ApJ, 345, 245)
\fBFitz\fR: Galactic law of Fitzpatrick & Massa (1990, ApJS, 72, 163)
\fBLMC\fR: LMC law of Howarth (1983, MNRAS, 203, 301)
\fBSMC\fR: SMC law of Prevot et al. (984, A&A, 132, 389)
Default: How
.TP
.B \-c [VALUE]
The logarithmic extinction at H beta. By default, this is calculated from the Balmer line ratios.
.TP
.B \-nelow, \-nemed, \-nehigh, \-telow, \-temed, \-tehigh [VALUE]
By default, electron densities and temperatures are calculated from the available diagnostics, but their values can be overridden with these commands. The required units are cm\-3 for densities and K for temperatures.
.TP
.B \-he, \-\-helium\-data [VALUE]
The atomic data to use for He I abundances
Valid values are:
\fBS96\fR: Smits, 1996, MNRAS, 278, 683
\fBP12\fR: Porter et al., 2012, MNRAS, 425, 28
Default: P12
.TP
.B \-icf, \-\-ionisation\-correction\-scheme [VALUE]
The ICF scheme to be used to correct for unseen ions
Valid values are:
\fBKB94\fR: Kingsburgh & Barlow (1994, MNRAS, 271, 257)
\fBPT92\fR: Peimbert, Torres\-Peimbert & Ruiz (1992, RMxAA, 24, 155)
\fBDI14\fR: Delgado\-Inglada, Morisset & Stasinska (2014, MNRAS, 440, 536)
Default: DI14
.TP
.B \-v, \-\-verbosity [VALUE]
Amount of output to write for each derived quantity. This option has no effect unless \-n or \-u is specified.
Valid values are:
1: write out summary files, binned results and complete results
2: write out summary files and binned results
3: write out summary files only
Default: 3
.TP
.B \-id, \-\-identify
This option triggers an algorithm which attempts to convert observed wavelengths into rest wavelengths. If the option is not present, \fBneat\fR assumes that the input line list already has rest wavelengths in the first column
.TP
.B \-rp
When calculating Monte Carlo uncertainties, \fBneat\fR's default behaviour is to assume that all uncertainties are Gaussian. If \-rp is specified, it will compensate for the upward bias affecting weak lines described by Rola and Pelat (1994), assuming log normal probability distributions for weaker lines.
Until version 1.8, the default behaviour was the opposite; log normal probability distributions were assumed unless \fB-norp\fR was specified. This was changed after our discovery that the effect described by Rola and Pelat only occurred under extremely specific conditions: see Wesson et al. 2016 for details.
.TP
.B \-cf, \-\-configuration-file [FILE]
Since version 2.0, NEAT's analysis scheme is specified in a configuration file which is read in at run time, rather than being hard coded. If this option is omitted the default configuration file is used, which is intended to be suitable for any line list and should only really need changing if particular lines need to be excluded from the analysis. The configuration file contains a series of weights to be applied when calculating diagnostics and abundances, and the format of the default file should be clear enough that editing it is straightforward. A negative value for a weight means that the line will be weighted by its observed intensity; a positive value means that the line will be weighted by the given value.
.SH USING NEAT
.SS Input file format
\fBneat\fR requires as input a plain text file containing a list of emission line fluxes. The file can contain two, three or four columns. If two columns are found, the code assumes they contain the the laboratory wavelength of the line (λ0) and its flux (F). Three columns are assumed to be λ0, F, and the uncertainty on F (ΔF). Four columns are assumed to be the observed wavelength of the line, λobs, λ0, F, and ΔF. The rest wavelengths should correspond exactly to those listed in the file /usr/share/neat/complete_line_list. The flux column can use any units, and the uncertainty on the flux should be given in the same units. Examples can be found in the /usr/share/neat/example/ directory.
.SS Rest wavelengths
\fBneat\fR identifies lines by comparing the quoted wavelength to its list of rest wavelengths. However, rest wavelengths of lines can differ by up to a few tenths of an Angstrom depending on the source. Making sure that \fBneat\fR is identifying your lines properly is probably the most important step in using the code, and misidentifications are the first thing to suspect if you get unexpected results. To assist with preparing the line list, the command line option \fB-id\fR can be used. This applies a very simple algorithm to the input line list to determine their rest wavelengths, which works as follows:
1. A reference list of 10 rest wavelengths of common bright emission lines is compared to the wavelengths of the 20 brightest lines in the observed spectrum.
2. Close matches are identified and the mean offset between observed and rest wavelengths is calculated.
3. The shift is applied, and then an RMS scatter between shifted and rest wavelengths is calculated.
4. This RMS scatter is then used as a tolerance to assign line IDs based on close coincidences between shifted observed wavelengths and the full catalogue of rest wavelengths listed in utilities/complete_line_list
The routine is not intended to provide 100% accuracy and one should always check very carefully whether the lines are properly identified, particularly in the case of high resolution spectra.
.SS Line blends
In low resolution spectra, lines of comparable intensity may be blended into a single feature. These can be indicated with an asterisk instead of a flux in the input line list. Currently, \fBneat\fR has only limited capabilities for dealing with blends: lines marked as blends are not used in any abundance calculations, and apart from a few cases, it assumes that all other line fluxes represent unblended or deblended intensities. The exceptions are some collisionally excited lines which are frequently blended, such as the [O II] lines at 3727/3729Ã…. In these cases the blended flux can be given with the mean wavelength of the blend, and the code will treat it properly. These instances are indicated in the utilities/complete_line_list file by a "b" after the ion name.
.SS Uncertainties
The uncertainty column of the input file is of crucial importance if you want to estimate uncertainties on the results you derive. Points to bear in mind are that the more realistic your estimate of the line flux measurement uncertainties, the more realistic the estimate of the uncertainties on the results will be, and that in all cases, the final reported uncertainties are a lower limit to the actual uncertainty on the results, because they account only for the propagation of the statistical errors on the line fluxes and not on sources of systematic uncertainty.
In some cases you may not need or wish to propagate uncertainties. In this case you can run just one iteration of the code, and the uncertainty values are ignored if present.
.SH RUNNING THE CODE
Assuming you have a line list prepared as above, you can now run the code. In line with our philosophy that \fBneat\fR should be as simple and objective as possible, this should be extremely straightforward. To use the code in its simplest form on one of the example linelists, you would type
% cp /usr/share/neat/example/ngc6543_3cols.dat .
% neat \-i ngc6543_3cols.dat
This would run a single iteration of the code, not propagating uncertainties. You'll see some logging output to the terminal, and the calculated results will have been written to the file ngc6543_3cols.dat_results. If this is all you need, then the job's done and you can write a paper now.
Your results will be enhanced greatly, though, if you can estimate the uncertainty associated with them. To do this, invoke the code as follows:
% neat \-i ngc6543_3cols.dat \-u
The \-u switch causes the code to run 10,000 times. In each iteration, the line flux is drawn from a normal distribution with a mean of the quoted flux and a standard deviation of the quoted uncertainty. By repeating this randomisation process lots of times, you build up a realistic picture of the uncertainties associated with the derived quantities. The more iterations you run, the more accurate the results; 10,000 is a sensible number to achieve well sampled probability distributions. If you want to run a different number of iterations for any reason, you can use the \-n command line option to specify your preferred value
If the \fB-rp\fR option is specified, then for lines with a signal to noise ratio of less than 6, the line flux is drawn from a log-normal distribution which becomes more skewed the lower the signal to noise ratio is. This corrects the low SNR lines for the upward bias in their measurement described by Rola & Pelat (1994). The full procedure is described in Wesson et al. (2012). However, use of this option is no longer recommended as the bias is highly dependent on the fitting procedure \- see Wesson et al. (2016).
.SH METHODOLOGY
.SS Extinction correction
The code corrects for interstellar reddening using the ratios of the Hα, Hβ, Hγ and Hδ lines. Intrinsic ratios of the lines are first calculated assuming a temperature of 10,000K and a density of 1000cm-3. The line list is then dereddened, and temperatures and densities are then calculated as described below. The temperatures and densities are then used to recalculate the intrinsic Balmer line ratios, and the original line list is then dereddened using this value.
.SS Temperatures and densities
\fBneat\fR determines temperatures, densities and abundances by dividing emission lines into low, medium and high excitation lines. In each zone, the diagnostics are calculated as follows:
1. A temperature of 10000K is initially assumed, and the density is then calculated from the line ratios relevant to the zone.
2. The temperature is then calculated from the temperature diagnostic line ratios, using the derived density.
3. The density is recalculated using the appropriately weighted average of the temperature diagnostics.
4. The temperature is recalculated using this density.
This iterative procedure is carried out successively for low-, medium- and high-ionization zones, and in each case if no diagnostics are available, the temperature and/or density will be taken to be that derived for the previous zone. Temperatures and densities for each zone can also be specified on the command line with the \fB-telow, \-temed, \-tehigh\fR and \fB-nelow, \-nemed, \-nehigh\fR options.
\fBneat\fR also calculates a number of diagnostics from recombination line diagnostics. These are:
1. The Balmer jump temperature is calculated using equation 3 of Liu et al. (2001)
2. The Paschen jump temperature is calculated using equation 7 of Fang et al. (2011)
3. A density is derived from the Balmer and Paschen decrements if any lines from H10-H25 or P10-P25 are observed. Their ratios relative to Hβ are compared to theoretical ratios from Storey & Hummer (1995), and a density for each line calculated by linear interpolation. The final density is calculated as the weighted average of all the densities.
4. Temperatures are estimated from helium line ratios, using equations derived from fits to tabulated values of 5876/4471 and 6678/4471. The tables are calculated at ne=5000cm-3 only. We plan to improve this calculation in future releases.
5. OII recombination line ratios are used to derive a temperature and density, using the diagnostic diagram in Figure 1. of McNabb et al. (2013). Values are found by linearly interpolating the logarithmic values.
6. Recomination line contributions to CELs of N+, O+ and O2+ are estimated using equations 1-3 of Liu et al. (2000).
These recombination line diagnostics are not used in abundance calculations. Nor are the temperature diagnostics corrected for the recombination line contributions. Whether or not to do so is an unfortunately subjective choice which we leave to the user.
.SS Ionic abundances
Ionic abundances are calculated from collisionally excited lines (CELs) using the temperature and density appropriate to their ionization potential. Where several lines from a given ion are present, the ionic abundance adopted is a weighted average of the abundances from each ion.
Recombination lines (RLs) are also used to derive ionic abundances for helium and heavier elements. The method by which the helium abundance is determined depends on the atomic data set being used; \fBneat\fR includes atomic data from Smits (1996) and from Porter et al. (2012, 2013). The Smits data is given for seven temperatures between 312.5K and 20000K, and for densities of 1e2, 1e4 and 1e6 cm-3; we fitted fourth order polynomials to the coefficient for each line at each density. \fBneat\fR then calculates the emissivities for each density using these equations, and interpolates logarithmically to the correct density.
For the Porter et al. data, the emissivities are tabulated between 5000 and 25000K, and for densities up to 1e14cm-3. \fBneat\fR interpolates logarithmically in temperature and density between the tabulated values to determine the appropriate emissivity.
In deep spectra, many more RLs may be available than CELs. The code calculates the ionic abundance from each individual RL intensity using the atomic data listed in Table 1 of Wesson et al. (2012). Then, to determine the ionic abundance to adopt, it first derives an ionic abundance for each individual multiplet from the multiplet’s co-added intensity, and then averages the abundances derived for each multiplet to obtain the ionic abundance used in subsequent calculations.
.SS Total abundances
Total elemental abundances are estimated using the ionisation correction scheme selected from Kingsburgh and Barlow (1994), Peimbert, Torres-Peimbert and Ruiz (1992), or Delgado-Inglada et al. (2014). Total oxygen abundances estimated from several strong line methods are also reported.
Where ionic or total abundances are available from both collisionally excited lines and recombination lines, the code calculates the measured discrepancy between the two values.
.SH OUTPUTS
The code prints some logging messages to the terminal, so that you can see which iteration it is on, and if anything has gone wrong. The results are written to a summary file, and a linelist file, the paths to which are indicated in the terminal output. In the case of a single iteration, these files are the only output.
If you have run multiple iterations, you can also use the \fB-v\fR option to tell the code to create additional results files for each quantity calculated: \fB \-v 1\fR tells the code to write out for each quantity all the individual results, and a binned probability distribution file; with \fB-v 2\fR, only the binned distributions are written out, and with \fB-v 3\fR \- the default \- no additional results files are created.
.SS Normality test
The code now applies a simple test to the probability distributions to determine whether they are well described by a normal, log-normal or exp-normal distribution. The test applied is that the code calculates the mean and standard deviation of the measured values, their logarithm and their exponent, and calculates in each case the fraction of values lying within 1, 2 and 3σ of the mean. If the fractions are close to the expected values of 68.3%, 95.5% and 99.7%, then the relevant distribution is considered to apply. In these cases, the summary file contains the calculated mean and reports the standard deviation as the 1σ uncertainty.
If the file is not well described by a normal-type distribution, then the code reports the median of the distribution and takes the values at 15.9% and 84.1% of the distribution as the lower and upper limits.
.SS Inspecting the output
It is often useful to directly inspect the probability distributions. In the utilities directory there is a small shell script, utilities/plot.sh, which will plot the histogram of results together with a bar showing the value and its uncertainty as derived above. It will create PNG graphics files for easy inspection.
The script requires that you ran the code with \fB-v 1\fR or \fB-v 2\fR, and that you have gnuplot installed. It takes one optional parameter, the prefix of the files generated by neat. So, for example, if you've run 10,000 iterations on example/ngc6543_3cols.dat, then there will now be roughly 150 files in the example directory, with names like example/ngc6543_3cols.dat_mean_cHb, example/ngc6543_3cols.dat_Oii_abund_CEL, etc. You can then generate plots of the probability distributions for the results by typing:
% /usr/share/neat/utilities/plot.sh ngc6453.dat
Running the code without the optional parameter will generate plots for all files with names ending in "binned" in the working directory.
.SH SEE ALSO
alfa, equib06, mocassin
.SH BUGS
No known bugs.
.SH AUTHOR
Roger Wesson, Dave Stock, Peter Scicluna
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/neatstats.py����������������������������������������������������������������������������0000664�0000000�0000000�00000022451�12714613141�0015462�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������import numpy as np
import scipy.interpolate as interpol
import matplotlib.pyplot as plt
from matplotlib.backends.backend_pdf import PdfPages
import math as mt
import glob
import sys
import os
import argparse
class fitdata:
average=np.zeros(1,dtype=np.float64)
CI=np.zeros(2,dtype=np.float64)
mode=np.zeros(1,dtype=np.float64)
imode=np.zeros(1,dtype=np.int)
sigmamode=np.zeros(2,dtype=np.float64)
median=np.zeros(1,dtype=np.float64)
imed=np.zeros(1,dtype=np.int)
iavg=np.zeros(1,dtype=np.int)
mean=np.zeros(1,dtype=np.float64)
imean=np.zeros(1,dtype=np.int)
sigmamean=np.zeros(2,dtype=np.float64)
sigmasymmetric=np.zeros(2,dtype=np.float64)
nmodes=np.zeros(1,dtype=np.int)
modes=np.zeros(1,dtype=np.float64)
pdf=np.ndarray([])
fit=np.ndarray([])
flags=""
def statsfit(data,datap,cdf,niter,average,smooth=0.0075):
#create object to contain correct values
fits=fitdata()
#first compute cubic spline fit
splinefit=interpol.splrep(datap,cdf,s=smooth)
fits.CI=getci(datap,cdf,0.683)
#now find maximum
fits.fit=interpol.splev(datap,splinefit)
firstderivative=interpol.splev(datap,splinefit,der=1) #stick with old routinefor now, pchip doesn't help,
secondderivative=interpol.splev(datap,splinefit,der=2) #but at some point need to find a way to constrain the
mode=datap[np.argmax(firstderivative)] #spline such that the first derivative is non-negative
imode=np.argmax(firstderivative)
fits.mode=mode
fits.imode=imode
fits.pdf=firstderivative
fits.mean=np.mean(data)
fits.imean=np.abs(datap-fits.mean).argmin()
#tbd: find all maxima of curve to flag bi-/multimodal distributions
# imed=niter/2 #no longer works due to array pruning
if (niter % 2) == 0: #find median
imed=np.abs(cdf-0.5).argmin() #find where cdf=0.5 => median
if cdf[imed] > 0.5: #check that it's not more than half-way through
imed-=1
median=(datap[imed]+datap[imed+1])/2.
else:
imed=np.abs(cdf-0.5).argmin() #find where cdf=0.5 => median
if cdf[imed] > 0.5: #check that it's not more than half-way through
imed-=1
median=datap[imed]
fits.median=median
fits.imed=imed
if fits.CI[0] == np.min(data):
fits.flags+='l'
if fits.CI[1] == np.max(data):
fits.flags+='u'
fits.average=fits.mode
fits.iavg=fits.imode
if average == 1:
fits.average=fits.median
fits.iavg=fits.imed
if average == 2:
fits.average=fits.mean
fits.iavg=fits.imean
if (average == 0) & (np.isnan(fits.pdf[0])):
fits.average=fits.median
fits.iavg=fits.imed
#return only the important stuff :)
return fits
def getintervalsym(data,cdf,imed,fraction):
#for possible future use
pass
def getinterval(data,cdf,point,fraction):
#finds the smallest interval of data that contains fraction fraction of the cdf, and point point is inside it.
interval=np.array([np.min(data),np.max(data)])
width=interval[1]-interval[0]
ipoint=np.argmin(np.abs(data-point)) #get location of value that must lie within interval interval
for i in range(ipoint+1):
integ=np.float64(0)
j=np.argmin(np.abs(cdf-cdf[i]-np.float64(fraction)))
if ((j < len(data)) & (j > ipoint)):
newwidth=data[j]-data[i]#j-i#
if newwidth < width:
width=newwidth
interval=[data[i],data[j]]
return interval
def getci(data,cdf,fraction):
#finds the smallest interval of data that contains fraction fraction of the cdf.
interval=np.array([np.min(data),np.max(data)])
width=interval[1]-interval[0]
for i in range(int((1.-fraction)*len(data))):
integ=np.float64(0)
j=np.argmin(np.abs(cdf-cdf[i]-np.float64(fraction)))
if ((j < len(data)) & (j > i)):
newwidth=data[j]-data[i]
if newwidth < width:
width=newwidth
interval=[data[i],data[j]]
return interval
def progressbar(percent):
sys.stdout.write("%3d%%\r" % percent)
sys.stdout.flush()
def readcdf(infile,niter):
data=np.zeros(niter, np.float64)
f=open(infile,'r')
for i in range(niter):
data[i]=np.float64(f.readline())
datap,index=np.unique(data,return_index=True) #prune out repeated values
cdf=index[1:]
cdf=np.r_[cdf,len(data)]
cdf=np.float64(cdf)/np.float64(niter) #convert counter to cdf
return data,datap, cdf
def neatstats(infilepattern,niter,smooth=0.0075,avg=0,plots=0,verb=0):
scale=np.linspace(0,1,num=101)
ones=np.ones(101,dtype=np.float64)
infilelist=glob.glob(infilepattern+'*_binned')
infilelist.sort() #see if you can find a better way of ordering them
outfile=infilepattern+'_stats' #output file
output=open(outfile,'w')
#write stats header
output.write("Quantity \t\t\t\t Average \t Confidence interval \t\t flags \n \n")
i=-1
for infile in infilelist:
i+=1
progressbar(100.*np.float(i)/np.float(len(infilelist)))
infile=infile[:-7] #remove '_binned' from file name to get unbinned data
#read data
data, data_pruned, cdf =readcdf(infile,niter)
#fit data with cubic spline
fit=statsfit(data,data_pruned,cdf,niter,avg,smooth)
#print
outline='{:<45} {:>10.5g} {:>+10.5g} {:>+10.5g} {:>} \n'.format(infile,fit.average,fit.CI[1]-fit.average,fit.CI[0]-fit.average,fit.flags)
output.write(outline)
#output data if requested :)
if verb > 0:
pdffile=open(infile+'_cdfpdf','w')
outline='{:>10.5g} {:>+10.5g} {:>+10.5g} {:>} \n'.format(fit.average,fit.CI[1]-fit.average,fit.CI[0]-fit.average,fit.flags)
pdffile.write(outline)
for j in range(len(data_prune)):
outline='{:>10.5g} {:>+10.5g} {:>+10.5g}\n'.format(data_prune[j],cdf[i],fit.pdf[i])
pdffile.write(outline)
pdffline.close
#begin plotting :)
if plots > 0:
if (plots == 2) | (len(fit.flags) > 0):
plotfile=PdfPages(infile+'_plot.pdf')
fig=plt.figure()
cdfplot=fig.add_subplot(1,1,1)
cdfplot.plot(data_pruned,cdf,color='blue')
cdfplot.fill_between(data_pruned, cdf, 0, where=((data_pruned > fit.CI[0])&(data_pruned < fit.CI[1])), facecolor='blue', label='1 sigma region',alpha=0.35)
cdfplot.plot(data_pruned[fit.iavg]*ones,cdf[fit.iavg]*scale,'--',color='black')
cdfplot.plot(data_pruned[fit.iavg],cdf[fit.iavg],'o',color='black')
plotfile.savefig()
fig=plt.figure()
pdfplot=fig.add_subplot(1,1,1)
pdfplot.plot(data_pruned,fit.pdf,color='blue')
pdfplot.fill_between(data_pruned, fit.pdf, 0, where=((data_pruned > fit.CI[0])&(data_pruned < fit.CI[1])), facecolor='blue', label='1 sigma region',alpha=0.35)
pdfplot.plot(data_pruned[fit.iavg]*ones,fit.pdf[fit.iavg]*scale,'--',color='black')
pdfplot.plot(data_pruned[fit.iavg],fit.pdf[fit.iavg],'o',color='black')
plotfile.savefig()
plotfile.close()
plt.close('all')
output.close
print "Done."
return 1 #replace with a proper status variable at some point :)
if __name__=="__main__":
#use argparse to add lots of arguments and options :)
parser=argparse.ArgumentParser(description='Reads the output from NEAT (using maxmimum verbosity) and attempts to approximate the cumulative distribution and probability density functions of the output quantities using spline fits. It then extracts an average (default: mode) and the smallest 68.3% confidence interval.')
parser.add_argument('infilepattern',help='The name of the linelist analysed with NEAT. This can contain wildcards.',metavar='Linelist')
parser.add_argument('niter',type=int,help='The number of Monte Carlo iterations used when running NEAT on the above linelist')
parser.add_argument('-s','--smooth',default=0.0075,type=float,help='The value of the smoothing co-efficient to use in the spline fitting. Increasing this reduces oscillations in the derivatives of the spline, giving a smoother pdf. (Default: %(default)s)')
parser.add_argument('-a','--average',default=0,type=int,choices=[0,1,2],help='Selects whether to use the mode (0), the median (1), or the mean (2) as the represenative average. If the mode has been chosen, but the pdf (and hence the mode) is not well defined it will default to the median. (Default: %(default)s)')
parser.add_argument('-p','--plots',default=0,type=int,choices=[0,1,2],help='Controls whether plots of the CDF and PDF are generated. 0=No plots, 1=Only flagged distributions are plotted, 2=Plot everything. (Default: %(default)s)')
parser.add_argument('-v','--verb',default=0,type=int,choices=[0,1],help='Controls output verbosity. For a value of 0, only a summary file is generated, while higher values produce ascii output of the cdf and fitted pdf in case you wish to generate your own plots of the distributions. (Default: %(default)s)')
args=parser.parse_args()
#arguments
plots=args.plots
smooth=args.smooth
verb=args.verb
avg=args.average
infilepattern=args.infilepattern
niter=args.niter
a=neatstats(infilepattern,niter,smooth,avg,plots,verb)
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/���������������������������������������������������������������������������������0000775�0000000�0000000�00000000000�12714613141�0014376�5����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/Ilines_levs����������������������������������������������������������������������0000664�0000000�0000000�00000012770�12714613141�0016604�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������82
ariii5192 [Ar III] 5191.82 4,5/ med [Ar~{\sc iii}]
ariii7135 [Ar III] 7135.80 1,4/ med [Ar~{\sc iii}]
ariii7751 [Ar III] 7751.43 2,4/ med [Ar~{\sc iii}]
ariii9um [Ar III] 09.0000 1,2/ med [Ar~{\sc iii}]
ariii21p8um [Ar III] 21.8000 2,3/ med [Ar~{\sc iii}]
ariv4711 [Ar IV] 4711.37 1,3/ med [Ar~{\sc iv}]
ariv4740 [Ar IV] 4740.17 1,2/ med [Ar~{\sc iv}]
arv7p90um [Ar V] 07.9000 2,3/ high [Ar~{\sc v}]
arv13p10um [Ar V] 13.1000 1,2/ high [Ar~{\sc v}]
arv4625 [Ar V] 4624.92 4,5/ high [Ar~{\sc v}]
arv6435 [Ar V] 6434.73 2,4/ high [Ar~{\sc v}]
arv7005 [Ar V] 7005.40 3,4/ high [Ar~{\sc v}]
ci8727 [C I] 8727.12 4,5/ low [C~{\sc i}]
ci9824 [C I] 9824.13 2,4/ low [C~{\sc i}]
ci9850 [C I] 9850.26 3,4/ low [C~{\sc i}]
cii2325 [C II] 2325.00 1,3,1,4,2,3,2,4,2,5/ low [C~{\sc ii}]
ciii1907 [C III] 1906.68 1,4/ med [C~{\sc iii}]
ciii1909 [C III] 1908.73 1,3/ med [C~{\sc iii}]
ciii1909b [C III] 1909.00 1,3,1,4/ med [C~{\sc iii}]
civ1548 [C IV] 1549.00 1,2,1,3/ high [C~{\sc iv}]
cliii5517 [Cl III] 5517.66 1,3/ med [Cl~{\sc iii}]
cliii5537 [Cl III] 5537.60 1,2/ med [Cl~{\sc iii}]
neii12p8um [Ne II] 12.8000 1,2/ low [Ne~{\sc ii}]
neiii15p5um [Ne III] 15.5000 1,2/ med [Ne~{\sc iii}]
neiii36p0um [Ne III] 36.0000 2,3/ med [Ne~{\sc iii}]
neiii3342 [Ne III] 3342.44 4,5/ med [Ne~{\sc iii}]
neiii3868 [Ne III] 3868.75 1,4/ med [Ne~{\sc iii}]
neiii3967 [Ne III] 3967.46 2,4/ med [Ne~{\sc iii}]
neiv2423 [Ne IV] 2422.36 1,2/ high [Ne~{\sc iv}]
neiv2425 [Ne IV] 2425.01 1,3/ high [Ne~{\sc iv}]
neiv2424b [Ne IV] 2424.00 1,2,1,3/ high [Ne~{\sc iv}]
neiv4714 [Ne IV] 4714.17 3,5/ high [Ne~{\sc iv}]
neiv4715 [Ne IV] 4715.66 3,4/ high [Ne~{\sc iv}]
neiv4724 [Ne IV] 4724.15 2,5/ high [Ne~{\sc iv}]
neiv4725 [Ne IV] 4725.62 2,4/ high [Ne~{\sc iv}]
neiv4714b [Ne IV] 4715.21 3,4,3,5/ high [Ne~{\sc iv}]
neiv4725b [Ne IV] 4724.89 2,4,2,5/ high [Ne~{\sc iv}]
nev2975 [Ne V] 2975.00 4,5/ high [Ne~{\sc v}]
nev14p3um [Ne V] 14.3000 2,3/ high [Ne~{\sc v}]
nev24p3um [Ne V] 24.3000 1,2/ high [Ne~{\sc v}]
nev3345 [Ne V] 3345.40 2,4/ high [Ne~{\sc v}]
nev3426 [Ne V] 3425.50 3,4/ high [Ne~{\sc v}]
nii5754 [N II] 5754.60 4,5/ low [N~{\sc ii}]
nii6548 [N II] 6548.10 2,4/ low [N~{\sc ii}]
nii6584 [N II] 6583.50 3,4/ low [N~{\sc ii}]
nii122um [N II] 122.000 2,3/ low [N~{\sc ii}]
nii205um [N II] 205.000 1,2/ low [N~{\sc ii}]
niii1751 [N III] 1751.00 1,3,1,4,2,3,2,4,2,5/ med [N~{\sc iii}]
niii57um [N III] 57.0000 1,2/ med [N~{\sc iii}]
niv1483 [N IV] 1483.32 1,4/ high [N~{\sc iv}]
niv1487 [N IV] 1486.50 1,3/ high [N~{\sc iv}]
niv1485b [N IV] 1485.00 1,3,1,4/ high [N~{\sc iv}]
nv1240 [N V] 1240.00 1,2,1,3/ high [N~{\sc v}]
oi5577 [O I] 5577.34 4,5/ low [O~{\sc i}]
oi6300 [O I] 6300.30 1,4/ low [O~{\sc i}]
oi6364 [O I] 6363.77 2,4/ low [O~{\sc i}]
oii3726 [O II] 3726.03 1,3/ low [O~{\sc ii}]
oii3729 [O II] 3728.82 1,2/ low [O~{\sc ii}]
oii3728b [O II] 3727.00 1,2,1,3/ low [O~{\sc ii}]
oii7319 [O II] 7318.92 2,5/ low [O~{\sc ii}]
oii7320 [O II] 7319.99 2,4/ low [O~{\sc ii}]
oii7330 [O II] 7329.67 3,5/ low [O~{\sc ii}]
oii7331 [O II] 7330.73 3,4/ low [O~{\sc ii}]
oii7319b [O II] 7319.45 2,4,2,5/ low [O~{\sc ii}]
oii7330b [O II] 7330.20 3,4,3,5/ low [O~{\sc ii}]
oiii4363 [O III] 4363.21 4,5/ med [O~{\sc iii}]
oiii4959 [O III] 4958.91 2,4/ med [O~{\sc iii}]
oiii5007 [O III] 5006.84 3,4/ med [O~{\sc iii}]
oiii1666 [O III] 1665.56 3,6/ med [O~{\sc iii}]
oiii52um [O III] 52.0000 2,3/ med [O~{\sc iii}]
oiii88um [O III] 88.0000 1,2/ med [O~{\sc iii}]
oiv25p9um [O III] 25.9000 1,2/ high [O~{\sc iv}]
sii4068 [S II] 4068.60 1,5/ low [S~{\sc ii}]
sii4076 [S II] 4076.35 1,4/ low [S~{\sc ii}]
sii6716 [S II] 6716.44 1,3/ low [S~{\sc ii}]
sii6731 [S II] 6730.82 1,2/ low [S~{\sc ii}]
siii18p7um [S III] 18.7000 2,3/ med [S~{\sc iii}]
siii33p5um [S III] 33.5000 1,2/ med [S~{\sc iii}]
siii6312 [S III] 6312.10 4,5/ med [S~{\sc iii}]
siii9069 [S III] 9068.60 2,4/ med [S~{\sc iii}]
siii9531 [S III] 9530.60 3,4/ med [S~{\sc iii}]
siv10p5um [S IV] 10.5000 1,2/ high [S~{\sc iv}]
��������NEAT-master/source/abundances.f90�������������������������������������������������������������������0000664�0000000�0000000�00000222633�12714613141�0017031�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������subroutine abundances(linelist, listlength, iteration_result, meanextinction, calculate_extinction, ILs, diagnostic_array,iion,atomicdata,maxlevs,maxtemps, heidata, switch_he, switch_icf, H_Balmer, H_Paschen, HeI_lines, HeII_lines, weights)
use mod_abundtypes
use mod_equib
use mod_abundIO
use mod_helium
use mod_recombination_lines
use mod_extinction
use mod_resultarrays
use mod_atomicdata
use mod_oii_diagnostics
use mod_hydrogen
implicit none
integer, parameter :: dp=kind(1.d0)
integer :: counter, i, j
integer, intent(in) :: listlength
type(line), dimension(listlength) :: linelist, linelist_orig
character :: switch_he !switch for helium atomic data
character :: switch_icf !switch for which ICF to use
type(resultarray), dimension(1) :: iteration_result
real(kind=dp), dimension(6), intent(in) :: diagnostic_array
real(kind=dp) :: flux_no1, flux_no2, flux_no3, flux_no4, flux_no5, flux_no6
real(kind=dp) :: oiiNratio, oiiDens, oiiiTratio, oiiiTemp, oiiiIRNratio, oiiiIRTratio, oiiiIRtemp, oiiiUVTratio, oiiiUVtemp, oiiiIRdens, niiTratio, niiTemp, ariiiIRNratio, ariiiIRdens, arivNratio, arivDens, cliiiNratio, cliiiDens, siiNratio, siiDens, siiTratio, siiTemp, siiiIRNratio, siiiIRdens, oiiTratio, oiiTemp, neiiiTratio, neiiiIRTratio, neiiiIRNratio, neiiiIRdens, neiiiTemp, neiiiIRTemp, oitemp, citemp
real(kind=dp) :: ciiiNratio,neivNratio,nevTratio,siiiTratio,ariiiTratio,arvTratio,lowtemp,lowdens,medtemp,ciiidens,meddens,siiitemp,ariiitemp,hightemp,neivdens,highdens,arvtemp,nevtemp,oiTratio,ciTratio
real(kind=dp) :: oiiRLabund, niiRLabund, ciiRLabund, cii4267rlabund, neiiRLabund, ciiiRLabund, niiiRLabund, RLabundtemp, weight
real(kind=dp) :: ciiiCELabund, niiCELabund, niiiIRCELabund, niiiUVCELabund, oiiCELabund, oiiiCELabund, oiiiIRCELabund, oivCELabund, neiiIRCELabund, neiiiIRCELabund, neiiiCELabund, neivCELabund, siiCELabund, siiiCELabund, siiiIRCELabund, sivIRCELabund, cliiCELabund, cliiiCELabund, clivCELabund, ariiiCELabund, arivCELabund, ariiiIRCELabund, nivCELabund, niiiCELabund, ciiCELabund, civCELabund, nvCELabund, nevCELabund, arvCELabund, ciCELabund, oiCELabund
real(kind=dp) :: fn4
real(kind=dp) :: CELicfO, CELicfC, CELicfN, CELicfNe, CELicfAr, CELicfS, CELicfCl
real(kind=dp) :: RLicfO, RLicfC, RLicfN, RLicfNe, RLicfHe
real(kind=dp) :: CabundRL, CabundCEL, NabundRL, NabundCEL, OabundRL, OabundCEL, NeabundRL, NeabundCEL, SabundCEL, ArabundCEL, NOabundCEL, NCabundCEL, ClabundCEL
real(kind=dp) :: adfC, adfN, adfO, adfNe
real(kind=dp) :: adfC2plus, adfN2plus, adfO2plus, adfNe2plus
real(kind=dp) :: c1, c2, c3, meanextinction
real(kind=dp) :: heiabund,heiiabund,Hetotabund, heICFfactor, OICFfactor, upsilon, upsilonprime
real(kind=dp) :: Te_balmer, Te_paschen
real(kind=dp) :: oii4649, oii4089,oii4662,oii_te,oii_ne
real(kind=dp) :: ratio_5876_4471, ratio_6678_4471, te_5876_4471, te_6678_4471
type(weightingarray) :: weights
logical :: calculate_extinction
type(line), dimension(2) :: Balmer_jump, Paschen_jump
! index arrays to locate lines of interest in the main line list
integer, dimension(3:40) :: H_Balmer
integer, dimension(4:39) :: H_Paschen
integer, dimension(44) :: HeI_lines
integer, dimension(20,2:6) :: HeII_lines
type(cel), dimension(82) :: ILs !todo: work out why this becomes undefined on entry if its shape is assumed
!atomic data
integer :: iion !# of ions in Ilines
integer :: maxlevs,maxtemps
type(atomic_data),dimension(22) :: atomicdata
real(kind=dp), dimension(21,14,44) :: heidata
! recombination line variables
type RLabund
character(len=7) :: Multiplet
real(kind=dp) :: Abundance
real(kind=dp) :: weight
end type RLabund
type (RLabund), dimension(12) :: oiimultiplets
type (RLabund), dimension(7) :: niimultiplets
real(kind=dp) :: balmerdec_density, paschendec_density
! strong line variables
real(kind=dp) :: X23,O_R23upper, O_R23lower, N2,O_N2, O3N2, O_O3N2, Ar3O3, O_Ar3O3, S3O3, O_S3O3, x23temp1, x23temp2, x23temp3, x23temp4
! recombination contribution to CEL line fluxes for both RL and CEL abundances
real(kind=dp) :: nii5754recCEL=0.d0, oii7325recCEL=0.d0, oiii4363recCEL=0.d0, nii5754recRL=0.d0, oii7325recRL=0.d0, oiii4363recRL=0.d0
! debugging
#ifdef CO
print *,"subroutine: abundances"
#endif
! initialise some variables
oiiRLabund = 0.d0
niiRLabund = 0.d0
ciiRLabund = 0.d0
cii4267rlabund = 0.d0
neiiRLabund = 0.d0
ciiiRLabund = 0.d0
niiiRLabund = 0.d0
CabundCEL = 0.d0
NabundCEL = 0.d0
OabundCEL = 0.d0
NeabundCEL = 0.d0
SabundCEL = 0.d0
ClabundCEL = 0.d0
ArabundCEL = 0.d0
CELicfCl = 0.d0
CELicfS = 0.d0
CELicfAr = 0.d0
CELicfNe = 0.d0
CELicfN = 0.d0
CELicfO = 0.d0
Ar3O3 = 0.D0
O_Ar3O3 = 0.D0
oiimultiplets(:)%abundance = 0.d0
niimultiplets(:)%abundance = 0.d0
linelist_orig = linelist
!store fluxes of blends for later retrieval
where (linelist%blend_intensity .gt. 0.d0)
linelist%intensity=0.d0
linelist%int_err=0.d0
endwhere
!is H beta detected? if not, we can't do anything.
!todo: the calculation of expected Hbeta from Halpha and c(Hb) needs fixing as Hb=0 now triggers an error outside the loop - 15/05/2015
if (linelist(H_Balmer(4))%intensity .eq. 0.D0) then
print *," No H beta found"
if (linelist(H_Balmer(3))%intensity .gt. 0.D0 .and. calculate_extinction .eqv. .false.) then
print *, " Estimating from observed H alpha and specified c(Hb)" !do we really want this to be printed out 10000 times?
print "(4X,F6.2,A5,F6.3,A13)",linelist(H_Balmer(3))%intensity," and ",meanextinction," respectively"
linelist(H_Balmer(4))%intensity=(linelist(H_Balmer(3))%intensity/2.85)*10.**(meanextinction*linelist(H_Balmer(3))%flambda)
print "(4X,A9,F6.2)","H beta = ",(linelist(H_Balmer(4))%intensity)
else
print *," Specify the extinction from the command line with the -c option to proceed"
stop
endif
endif
! note that extinction is recalculated later on after diagnostics are known, so
! changes here may also need to be made in the subsequent section too
if (calculate_extinction) then
call calc_extinction_coeffs(linelist,H_Balmer, c1, c2, c3, meanextinction, dble(10000.),dble(1000.),weights%ha,weights%hg,weights%hd)
if (meanextinction .lt. 0.0 .or. isnan(meanextinction)) then
meanextinction = 0.d0
endif
! NaN can happen if the code tries to calculate the extinction but there is no
! H alpha line
! ideally an error message should be written here, but as it's inside the loop
! this would result in 10,000 error messages when uncertainties are being
! calculated
! to be improved...
endif
!actual dereddening
call deredden(linelist, meanextinction)
!diagnostics
call get_diag("ciii1909 ","ciii1907 ", ciiiNratio) ! ciii ratio
call get_diag("oii3729 ","oii3726 ", oiiNratio ) ! oii ratio
call get_diag("neiv2425 ","neiv2423 ", neivNratio ) ! neiv ratio
call get_diag("sii6731 ","sii6716 ", siiNratio ) ! s ii ratio
call get_diag("cliii5537 ","cliii5517 ", cliiiNratio ) ! Cl iii ratio
call get_diag("ariv4740 ","ariv4711 ", arivNratio ) ! Ar iv ratio
call get_diag("oiii88um ","oiii52um ", oiiiIRNratio ) ! oiii ir ratio
call get_diag("siii33p5um ","siii18p7um ", siiiIRNratio ) ! siii ir ratio
call get_diag("neiii15p5um","neiii36p0um", neiiiIRNratio ) ! neiii ir ratio
call get_diag("ariii9um ","ariii21p8um", ariiiIRNratio ) ! ariii ir ratio
! temperature ratios:
!For diagnostic ratios with the sum of two lines on top, the get_Tdiag
!subroutine will properly calculate the ratio if one of the two lines is
!missing, from the theoretical expected line strengths.
call get_Tdiag("nii6548 ","nii6584 ","nii5754 ", "[N II] ", niiTratio) ! N II
call get_Tdiag("oiii5007 ","oiii4959 ","oiii4363 ", "[O III] ", oiiiTratio) ! O III
call get_Tdiag("neiii3868 ","neiii3967 ","neiii3342 ", "[Ne III] ", neiiiTratio) ! Ne III
call get_Tdiag("neiii3868 ","neiii3967 ","neiii15p5um", "[Ne III] ", neiiiIRTratio)! Ne III ir
call get_Tdiag("nev3426 ","nev3345 ","nev2975 ", "[Ne V] ", nevTratio) !!ne v
call get_Tdiag("siii9069 ","siii9531 ","siii6312 ", "[S III] ", siiiTratio) !s iii
call get_Tdiag("ariii7135 ","ariii7751 ","ariii5192 ", "[Ar III] ", ariiiTratio) !ar iii
call get_Tdiag("arv6435 ","arv7005 ","arv4625 ", "[Ar V] ", arvTratio) !ar v
call get_Tdiag("ci9850 ","ci9824 ","ci8727 ", "[C I] ", ciTratio) !C I
call get_Tdiag("oi6364 ","oi6300 ","oi5577 ", "[O I] ", oiTratio) !O I
call get_Tdiag("oiii5007 ","oiii4959 ","oiii52um ", "[O III] ", oiiiIRTratio) ! OIII ir
call get_Tdiag("oiii5007 ","oiii4959 ","oiii1666 ", "[O III] ", oiiiUVTratio) ! OIII UV
!Fixed, DJS
! O II
if(get_cel_flux("oii7319b ",linelist,ILs) .gt. 0.d0) then
flux_no1 = get_cel_flux("oii7319b ",linelist,ILs)
flux_no2 = get_cel_flux("oii7330b ",linelist,ILs)
flux_no3 = get_cel_flux("oii3726 ",linelist,ILs)
flux_no4 = get_cel_flux("oii3729 ",linelist,ILs)
if (flux_no1 .gt. 0 .and. flux_no2 .gt. 0 .and. flux_no3 .gt. 0 .and. flux_no4 .gt. 0) then
oiiTratio = (flux_no1+flux_no2)/(flux_no3+flux_no4)
else
oiiTratio = 0.d0
endif
elseif(get_cel_flux("oii7319 ",linelist,ILs) .gt. 0)then
flux_no1 = get_cel_flux("oii7319 ",linelist,ILs)
flux_no2 = get_cel_flux("oii7320 ",linelist,ILs)
flux_no3 = get_cel_flux("oii7330 ",linelist,ILs)
flux_no4 = get_cel_flux("oii7331 ",linelist,ILs)
flux_no5 = get_cel_flux("oii3726 ",linelist,ILs)
flux_no6 = get_cel_flux("oii3729 ",linelist,ILs)
if (flux_no1 .gt. 0 .and. flux_no2 .gt. 0 .and. flux_no3 .gt. 0 .and. flux_no4 .gt. 0 .and. flux_no5 .gt. 0 .and. flux_no6 .gt. 0) then
oiiTratio = ((flux_no1+flux_no2)+(flux_no3+flux_no4))/(flux_no5+flux_no6)
else
oiiTratio = 0.d0
endif
!add condition for 3727 blend
else
oiiTratio=0.d0
endif
! S II
flux_no1 = get_cel_flux("sii6716 ",linelist,ILs)
flux_no2 = get_cel_flux("sii6731 ",linelist,ILs)
flux_no3 = get_cel_flux("sii4068 ",linelist,ILs)
flux_no4 = get_cel_flux("sii4076 ",linelist,ILs)
if (flux_no1 .gt. 0 .and. flux_no2 .gt. 0 .and. flux_no3 .gt. 0 .and. flux_no4 .gt. 0) then
siiTratio = (flux_no1+flux_no2)/(flux_no3+flux_no4)
elseif (flux_no1 .gt. 0 .and. flux_no2 .gt. 0 .and. flux_no3 .gt. 0 .and. flux_no4 .eq. 0.d0) then
! if 4076 is not seen, assume that 4076/4068 = 0.338. This is not an exact value but for 50000.775)
ratio_5876_4471=0.d0
ratio_6678_4471=0.d0
Te_5876_4471=0.d0
Te_6678_4471=0.d0
if (HeI_lines(10) .gt. 0 .and. HeI_lines(15) .gt.0) then
ratio_5876_4471=linelist(HeI_lines(15))%int_dered/linelist(HeI_lines(10))%int_dered
if (ratio_5876_4471.lt. 4.2 .and. ratio_5876_4471.gt. 2.84) then
Te_5876_4471 = 6858*ratio_5876_4471**4 - 99452.0*ratio_5876_4471**3 + 541944.8*ratio_5876_4471**2 - 1317918.7*ratio_5876_4471 + 1210016.1 + 23.21/(ratio_5876_4471-2.833)
endif
endif
if (HeI_lines(10) .gt. 0 .and. HeI_lines(16) .gt.0) then
ratio_6678_4471=linelist(HeI_lines(16))%int_dered/linelist(HeI_lines(10))%int_dered
if (ratio_6678_4471 .lt. 0.775 .and. ratio_6678_4471 .gt. 0.59) then
Te_6678_4471 = -64152.4*ratio_6678_4471**2 + 33203.3*ratio_6678_4471 + 22553.1
elseif (ratio_6678_4471 .ge. 0.775 .and. ratio_6678_4471 .lt. 1.2) then
Te_6678_4471 = 1.06363e+06*ratio_6678_4471**4 - 4.4416e+06*ratio_6678_4471**3 + 6.96343e+06*ratio_6678_4471**2 - 4.86749e+06*ratio_6678_4471 + 1.28347e+06
endif
endif
iteration_result%ratio_5876_4471=ratio_5876_4471
iteration_result%ratio_6678_4471=ratio_6678_4471
iteration_result%Te_5876_4471=Te_5876_4471
iteration_result%Te_6678_4471=Te_6678_4471
! get te and ne from OII RL diagnostics if we have them
oii4089=0.d0
oii4649=0.d0
oii4662=0.d0
do i=1,listlength
if (abs(linelist(i)%wavelength-4089.29) .lt. 0.005) oii4089=linelist(i)%int_dered
if (abs(linelist(i)%wavelength-4649.13) .lt. 0.005) oii4649=linelist(i)%int_dered
if (abs(linelist(i)%wavelength-4661.63) .lt. 0.005) oii4662=linelist(i)%int_dered
enddo
if (oii4089.gt.0 .and. oii4649.gt.0 .and. oii4662.gt.0) then
call oii_rl_diagnostics(oii4649/oii4089,oii4649/oii4662,oii_te,oii_ne)
iteration_result%oii_te=oii_te
iteration_result%oii_ne=oii_ne
else
iteration_result%oii_te=0.d0
iteration_result%oii_ne=0.d0
endif
! get abundances for all CELs
do i = 1,size(ILs)
if (ILs(i)%location .gt. 0) then !the line is in the spectrum
linelist(ILs(i)%location)%name=ILs(i)%ion
if (ILs(i)%zone .eq. "low ") then
call get_abundance(ILs(i)%ion, ILs(i)%transition, lowtemp, lowdens,linelist(ILs(i)%location)%int_dered, linelist(ILs(i)%location)%abundance,maxlevs,maxtemps,atomicdata,iion)
elseif (ILs(i)%zone .eq. "med ") then
call get_abundance(ILs(i)%ion, ILs(i)%transition, medtemp, meddens,linelist(ILs(i)%location)%int_dered, linelist(ILs(i)%location)%abundance,maxlevs,maxtemps,atomicdata,iion)
elseif (ILs(i)%zone .eq. "high") then
call get_abundance(ILs(i)%ion, ILs(i)%transition, hightemp, highdens,linelist(ILs(i)%location)%int_dered, linelist(ILs(i)%location)%abundance,maxlevs,maxtemps,atomicdata,iion)
endif
if ((linelist(ILs(i)%location)%abundance .ge. 10 ) .or. (linelist(ILs(i)%location)%abundance .lt. 1E-10)) then !filter out bad results
linelist(ILs(i)%location)%abundance = 0
endif
endif
enddo
!we currently don't calculate clii or cliv so they are set to zero
cliiCELabund = 0.d0
clivCELabund = 0.d0
! calculate averages
call get_average_abundance("nii5754 ","nii6584 ", niiCELabund)
niiiIRCELabund = get_cel_abundance("niii57um ",linelist,ILs)
niiiUVCELabund = get_cel_abundance("niii1751 ",linelist,ILs)
call get_average_abundance("niii1751 ","niii57um ",niiiCELabund)
call get_average_abundance("niv1483 ","niv1485b ",nivCELabund) !would screw up if blend and non blends were both in linelist
nvCELabund = get_cel_abundance("nv1240 ",linelist,ILs)
call get_average_abundance("oii3726 ","oii7330b ",oiiCELabund)
call get_average_abundance("oiii4363 ","oiii5007 ",oiiiCELabund)
call get_average_abundance("oiii52um ","oiii88um ",oiiiIRCELabund)
oivCELabund = get_cel_abundance("oiv25p9um ",linelist,ILs)
neiiIRCELabund = get_cel_abundance("neii12p8um ",linelist,ILs)
neiiiIRCELabund = get_cel_abundance("neiii15p5um ",linelist,ILs)
call get_average_abundance("neiii3868 ","neiii3967 ",neiiiCELabund)
call get_average_abundance("neiv2423 ","neiv4725b ",neivCELabund) ! would screw up if blends and non blends were given
call get_average_abundance("sii4068 ","sii6731 ",siiCELabund)
!SIII is a special case due to telluric absorption of one or the other of 9069/9531. Which one is affected is deduced by the fix_siii subroutine, which sets the weight of the affected line to zero.
call fix_siii
call get_average_abundance("siii18p7um ","siii9531 ",siiiCELabund)
siiiIRCELabund = get_cel_abundance("siii18p7um ",linelist,ILs)
sivIRCELabund = get_cel_abundance("siv10p5um ",linelist,ILs)
call get_average_abundance("cliii5517 ","cliii5537 ",cliiiCELabund)
call get_average_abundance("ariii7135 ","ariii7751 ",ariiiCELabund)
call get_average_abundance("ariv4711 ","ariv4740 ",arivCELabund)
ariiiIRCELabund = get_cel_abundance("ariii9um ",linelist,ILs)
ciiCELabund = get_cel_abundance("cii2325 ",linelist,ILs)
civCELabund = get_cel_abundance("civ1548 ",linelist,ILs)
call get_average_abundance("ciii1907 ","ciii1909b ",ciiiCELabund) ! would break if blend and individual lines were both specified
call get_average_abundance("neiv2423 ","neiv2424b ",neivCELabund) ! would break if blend and individual lines were both specified
call get_average_abundance("nev3345 ","nev3426 ",nevCELabund)
call get_average_abundance("arv6435 ","arv7005 ",arvCELabund)
call get_average_abundance("ci9824 ","ci9850 ",ciCELabund)
NCabundCEL = ciCELabund
call get_average_abundance("oi6300 ","oi6364 ",oiCELabund)
NOabundCEL = oiCELabund
! now get abundances for ORLs
! o2+
call oii_rec_lines(medtemp,meddens,1.d0,oiiRLs)
do i = 1,listlength
do j = 1,size(oiiRLs)
if (abs(linelist(i)%wavelength-oiiRLs(j)%Wave) .le. 0.005) then
oiiRLs(j)%Obs = linelist(i)%int_dered
if (oiiRLs(j)%Int .eq. 0.0) then
oiiRLs(j)%abundance = 0.D0
else
oiiRLs(j)%abundance = oiiRLs(j)%obs/oiiRLs(j)%Int
endif
linelist(i)%abundance = oiiRLs(j)%abundance
linelist(i)%name="O II "
linelist(i)%latextext="O~{\sc ii} "
endif
enddo
enddo
!N2+
call nii_rec_lines(medtemp,meddens,1.d0,niiRLs)
do i = 1,listlength
do j = 1,size(niiRLs)
if (abs(linelist(i)%wavelength-niiRLs(j)%Wave) .le. 0.005) then
niiRLs(j)%Obs = linelist(i)%int_dered
niiRLs(j)%abundance = niiRLs(j)%obs/niiRLs(j)%Int
linelist(i)%abundance = niiRLs(j)%abundance
linelist(i)%name="N II "
linelist(i)%latextext="N~{\sc ii} "
endif
enddo
enddo
!C2+
call cii_rec_lines(medtemp,meddens,1.d0,ciiRLs)
do i = 1,listlength
do j = 1,size(ciiRLs)
if (abs(linelist(i)%wavelength-ciiRLs(j)%Wave) .le. 0.005) then
ciiRLs(j)%Obs = linelist(i)%int_dered
ciiRLs(j)%abundance = ciiRLs(j)%obs/ciiRLs(j)%Int
linelist(i)%abundance = ciiRLs(j)%abundance
linelist(i)%name="C II "
linelist(i)%latextext="C~{\sc ii} "
endif
enddo
enddo
!Ne2+
call neii_rec_lines(medtemp,meddens,1.d0,neiiRLs)
do i = 1,listlength
do j = 1,size(neiiRLs)
if (abs(linelist(i)%wavelength-neiiRLs(j)%Wave) .le. 0.005) then
neiiRLs(j)%Obs = linelist(i)%int_dered
neiiRLs(j)%abundance = neiiRLs(j)%obs/neiiRLs(j)%Int
linelist(i)%abundance = neiiRLs(j)%abundance
linelist(i)%name="Ne II "
linelist(i)%latextext="Ne~{\sc ii} "
endif
enddo
enddo
!C3+, N3+
call xiii_rec_lines(medtemp,meddens,1.d0,xiiiRLs)
do i = 1,listlength
do j = 1,size(xiiiRLs)
if (abs(linelist(i)%wavelength-xiiiRLs(j)%Wave) .le. 0.005) then
xiiiRLs(j)%Obs = linelist(i)%int_dered
xiiiRLs(j)%abundance = xiiiRLs(j)%obs/xiiiRLs(j)%Int
linelist(i)%abundance = xiiiRLs(j)%abundance
if (j .le. 4) then
linelist(i)%name="C III "
linelist(i)%latextext="C~{\sc iii} "
else
linelist(i)%name="N III "
linelist(i)%latextext="N~{\sc iii} "
endif
endif
enddo
enddo
rlabundtemp = 0.d0
weight = 0.d0
!cii recombination lines
do i = 1,size(ciiRLs)
if (ciiRLs(i)%wave .eq. 4267.15D0) then
cii4267rlabund = ciiRLs(i)%abundance
endif
enddo
if (sum(ciiRLs%obs) .gt. 0.d0) ciirlabund = sum(ciiRLs%obs)/sum(ciiRLs%int)
!nii recombination lines
if (sum(niiRLs%int) .gt. 0) then
! print "(ES9.2)",rlabundtemp / weight
niimultiplets%Multiplet = (/"V3 ","V5 ","V8 " ,"V12 ","V20 ","V28 ","3d-4f "/)
niimultiplets%weight = (/ weights%niiV3,weights%niiV5,weights%niiV8,weights%niiV12,weights%niiV20,weights%niiV28,weights%nii3d4f /)
! get multiplet abundances from coadded intensity
do j = 1,6
rlabundtemp = 0.d0
weight = 0.d0
do i = 1,size(niiRLs)
if (niiRLs(i)%Mult .eq. niimultiplets(j)%Multiplet .and. niiRLs(i)%obs .gt. 0) then
! rlabundtemp = rlabundtemp + (niiRLs(i)%obs * niiRLs(i)%abundance)
! weight = weight + niiRLs(i)%obs
rlabundtemp = rlabundtemp + niiRLs(i)%obs
weight = weight + niiRLs(i)%Int
endif
enddo
if (weight.eq.0.d0) then
niimultiplets(j)%Abundance = 0.d0
else
niimultiplets(j)%Abundance = rlabundtemp/weight
endif
enddo
!3d-4f transitions
rlabundtemp = 0.d0
weight = 0.d0
do i = 1,size(niiRLs)
if (niiRLs(i)%obs .gt. 0 .and. (niiRLs(i)%Mult(4:4) .eq. "a" .or. niiRLs(i)%Mult(4:4).eq."b")) then
! rlabundtemp = rlabundtemp + (niiRLs(i)%obs * niiRLs(i)%abundance)
! weight = weight + niiRLs(i)%obs
rlabundtemp = rlabundtemp + niiRLs(i)%obs
weight = weight + niiRLs(i)%Int
endif
enddo
if (weight.eq.0.d0) then
niimultiplets(7)%abundance = 0
else
niimultiplets(7)%abundance = rlabundtemp/weight
endif
! average the multiplet abundances to get the final abundance
where (niimultiplets%abundance .eq. 0.d0)
niimultiplets%weight = 0
endwhere
if (sum(niimultiplets%weight).gt.0.d0) then
niiRLabund = sum(niimultiplets%abundance*niimultiplets%weight)/sum(niimultiplets%weight)
else
niiRLabund = 0.D0
endif
endif
!oii recombination lines
rlabundtemp = 0.00
weight = 0.00
if (sum(oiiRLs%Int).gt. 0) then
! print "(ES9.2)",rlabundtemp/weight
oiimultiplets%Multiplet = (/" V1 "," V2 "," V5 " ," V10 "," V11 "," V12 "," V19 "," V20 "," V25 "," V28 "," V33 "," 3d-4f "/)
oiimultiplets%weight = (/ weights%oiiV1, weights%oiiV2, weights%oiiV5, weights%oiiV10, weights%oiiV11, weights%oiiV12, weights%oiiV19, weights%oiiV20, weights%oiiV25, weights%oiiV28, weights%oiiV33, weights%oii3d4f /)
! get multiplet abundances from coadded intensity
do j = 1,11
rlabundtemp = 0.d0
weight = 0.d0
do i = 1,size(oiiRLs)
if (oiiRLs(i)%Mult .eq. oiimultiplets(j)%Multiplet .and. oiiRLs(i)%obs .gt. 0) then
! rlabundtemp = rlabundtemp + (oiiRLs(i)%obs * oiiRLs(i)%abundance)
! weight = weight + oiiRLs(i)%obs
rlabundtemp = rlabundtemp + oiiRLs(i)%obs
weight = weight + oiiRLs(i)%Int
endif
enddo
if (weight .gt. 0) then
oiimultiplets(j)%Abundance = rlabundtemp/weight
else
oiimultiplets(j)%Abundance = 0.d0
endif
enddo
rlabundtemp = 0.d0
weight = 0.d0
do i=1,size(oiiRLs)
if (oiiRLs(i)%Term1(4:5) .eq. "3d" .and. oiiRLs(i)%Term2(3:4) .eq. "4f" .and. oiiRLs(i)%Mult .ne. " " .and. oiiRLs(i)%obs .gt. 0) then
rlabundtemp = rlabundtemp + oiiRLs(i)%obs
weight = weight + oiiRLs(i)%Int
endif
enddo
if (weight.eq.0.d0) then
oiimultiplets(12)%abundance = 0
else
oiimultiplets(12)%abundance = rlabundtemp/weight
endif
where (oiimultiplets%abundance .eq. 0.d0)
oiimultiplets%weight = 0
endwhere
if (sum(oiimultiplets%weight).gt.0.d0) then
oiiRLabund = sum(oiimultiplets%abundance*oiimultiplets%weight)/sum(oiimultiplets%weight)
else
oiiRLabund = 0.D0
endif
endif
!neii recombination lines
rlabundtemp = 0.d0
weight = 0.d0
if (sum(neiiRLs%Int, mask=neiiRLs%obs.gt.0.d0) .gt. 0) then
neiiRLabund = sum(neiiRLs%obs)/sum(neiiRLs%Int, mask=neiiRLs%obs.gt.0.d0)
else
neiiRLabund = 0.D0
endif
!N3+ and C3+
rlabundtemp=0.d0
weight=0.d0
do i=1,4
rlabundtemp = rlabundtemp + xiiiRLs(i)%obs
weight = weight + xiiiRLs(i)%Int
enddo
if (weight .gt. 0) then
ciiiRLabund = rlabundtemp/weight
else
ciiiRLabund = 0.d0
endif
do i=5,6
rlabundtemp = rlabundtemp + xiiiRLs(i)%obs
weight = weight + xiiiRLs(i)%Int
enddo
if (weight .gt. 0) then
niiiRLabund = rlabundtemp/weight
else
niiiRLabund = 0.d0
endif
! calculate recombination contributions to CELs using equations 1-3 from Liu et al. 2000
! equations give recombination flux relative to Hb=1
if (get_cel_flux("nii5754 ",linelist,ILs) .gt. 0.d0) then
if (niiicelabund .gt. 0.d0) then
nii5754recCEL=10000.*(3.19*(medtemp/1.e4)**0.30*niiicelabund)/get_cel_flux("nii5754 ",linelist,ILs)
endif
if (niirlabund .gt. 0.d0) then
nii5754recRL=10000.*(3.19*(medtemp/1.e4)**0.30*niirlabund)/get_cel_flux("nii5754 ",linelist,ILs)
endif
endif
if (get_cel_flux("oii7319b ",linelist,ILs) .gt. 0 .and. get_cel_flux("oii7330b ",linelist,ILs) .gt. 0) then
if (oiiicelabund .gt. 0) then
oii7325recCEL=10000.*(9.36*(medtemp/1.e4)**0.44*oiiicelabund)/(get_cel_flux("oii7319b ",linelist,ILs)+get_cel_flux("oii7330b ",linelist,ILs))
endif
if (oiiRLabund .gt. 0) then
oii7325recRL=10000.*(9.36*(medtemp/1.e4)**0.44*oiirlabund)/(get_cel_flux("oii7319b ",linelist,ILs)+get_cel_flux("oii7330b ",linelist,ILs))
endif
endif
if (get_cel_flux("oiii4363 ",linelist,ILs) .gt. 0 .and. heiabund .gt. 0) then
oiii4363recCEL=10000.*12.4*(hightemp/1.e4)**0.59*(((hetotabund/heiabund)**0.66666)-1)*(oiicelabund+oiiicelabund)/get_cel_flux("oiii4363 ",linelist,ILs)
oiii4363recRL=10000.*12.4*(hightemp/1.e4)**0.59*(((hetotabund/heiabund)**0.66666)-1)*(oiiRLabund)/get_cel_flux("oiii4363 ",linelist,ILs)
endif
! ICFs
! first calculate the helium factor that appears in the ORL ICFs and several KB94 ICFS
! if no he lines are seen set this factor to zero, so that abundances relying on
! this ratio are not calculated.
if (heiabund .gt. 0.) then
heICFfactor = (heiabund + heiiabund)/heiabund
elseif (heiabund .eq.0. .and. heiiabund .eq.0.0) then
heICFfactor = 0.d0
endif
! now apply the scheme chosen by the user
if (switch_icf .eq. "K") then
! ICFs (Kingsburgh + Barlow 1994)
! oxygen - complete
OabundCEL = 0.d0
if (oiiCELabund .ge. 1e-20 .and. oiiiCELabund .ge. 1e-20 .and. oivCELabund .ge. 1e-20 .and. nvCELabund .ge. 1e-20)then ! O3+ and N4+
fn4 = (nvCELabund)/(niiCELabund + niiiCELabund + nivCELabund + nvCELabund) !A4
CELicfO = 1./(1.-0.95*fn4) !A5
OabundCEL = CELicfO * (oiiCELabund + oiiiCELabund + oivCELabund) !A6
elseif (oiiCELabund .ge. 1e-20 .and. oiiiCELabund .ge. 1e-20 .and. oivCELabund .ge. 1e-20 .and. nvCELabund .lt. 1e-20) then ! O3+ but no N4+
CELicfO = 1
OabundCEL = oiiCELabund + oiiiCELabund + oivCELabund !sum of visible ionisation stages
elseif (oiiCELabund .ge. 1e-20 .and. oiiiCELabund .ge. 1e-20 .and. oivCELabund .lt. 1e-20 .and. nvCELabund .ge. 1e-20) then !no O3+ but N4+
CELicfO = (niiCELabund + niiiCELabund + nivCELabund + nvCELabund) / (niiCELabund + niiiCELabund) ! A7
OabundCEL = CELicfO * (oiiCELabund + oiiiCELabund) ! A8
elseif (oiiCELabund .ge. 1e-20 .and. oiiiCELabund .ge. 1e-20 .and. oivCELabund .lt. 1e-20 .and. nvCELabund .lt. 1e-20)then !no O3+ or N4+ seen
CELicfO = heICFfactor**(2./3.) !KB94 A9
OabundCEL = CELicfO * (oiiCELabund + oiiiCELabund) !A10
endif
! nitrogen - complete
NabundCEL = 0.d0
if (niiCELabund .ge. 1e-20 .and. niiiUVCELabund .ge. 1e-20 .and. nivCELabund .ge. 1e-20) then !all ionisation stages seen
CELicfN = 1.
NabundCEL = niiCELabund + niiiCELabund + nivCELabund
elseif (niiCELabund .ge. 1e-20 .and. niiiUVCELabund .lt. 1e-20 .and. nivCELabund .ge. 1e-20) then !no N2+ seen
CELicfN = 1.5
NabundCEL = 1.5*(niiCELabund + nivCELabund)
elseif (niiCELabund .ge. 1e-20 .and. niiiUVCELabund .lt. 1e-20 .and. nivCELabund .lt. 1e-20) then !Only N+ seen
CELicfN = OabundCEL/oiiCELabund
NabundCEL = niiCELabund * CELicfN
endif
! carbon - complete
CabundCEL = 0.d0
if (ciiCELabund .ge. 1e-20 .and. ciiiCELabund .ge. 1e-20 .and. civCELabund .ge. 1e-20 .and. heiiabund .lt. 1e-20) then !No C4+ but all other seen
CELicfC = 1.
CabundCEL = ciiCELabund + ciiiCELabund + civCELabund
elseif (ciiCELabund .lt. 1e-20 .and. ciiiCELabund .ge. 1e-20 .and. civCELabund .ge. 1e-20 .and. heiiabund .lt. 1e-20) then !No C4+, and no CII lines seen
CELicfC = (oiiCELabund + oiiiCELabund) / oiiiCELabund !A11
CabundCEL = CELicfC * (ciiCELabund + ciiiCELabund) !A12
elseif (ciiCELabund .lt. 1e-20 .and. ciiiCELabund .ge. 1e-20 .and. civCELabund .lt. 1e-20 .and. oiiiCELabund .ge. 1e-20) then !Only C2+ seen, but O2+ also seen
CELicfC = OabundCEL/oiiiCELabund !A13
CabundCEL = CELicfC * ciiiCELabund !A14
elseif (nvCELabund .ge. 1e-20 .and. heiiabund .ge. 1e-20) then !N4+ and He2+
fn4 = (nvCELabund)/(niiCELabund + niiiCELabund + nivCELabund + nvCELabund) !A4, A15
if (fn4 .lt. 0.29629) then !condition in KB94 is if icf(C)>5, but eqn A16 can go negative at high fn4 so this is a better check for the high-excitation case
CELicfC = 1/(1-(2.7*fn4))!A16
else
CELicfC = (niiCELabund + niiiCELabund + nivCELabund + nvCELabund) / (niiCELabund + niiiCELabund + nivCELabund) !A18
endif
CabundCEL = CELicfC * (ciiCELabund + ciiiCELabund + civCELabund) !A19
elseif (ciiCELabund .ge. 1e-20 .and. ciiiCELabund .ge. 1e-20 .and. civCELabund .ge. 1e-20 .and. heiiabund .ge. 1e-20 .and. nvCELabund .lt. 1e-20) then !PN is hot enough for He2+ but not for N4+
CELicfC = heICFfactor**(1./3.) !A20
CabundCEL = CELicfC * (ciiCELabund + ciiiCELabund + civCELabund) !A21
elseif (ciiCELabund .lt. 1e-20 .and. ciiiCELabund .ge. 1e-20 .and. civCELabund .ge. 1e-20) then !C+ not seen
CELicfC = 1/(1 - (niiCELabund/NabundCEL) - 2.7*(nvCELabund/NabundCEL)) !A22
if (CELicfC .gt. 5) then !if ICF is greater than 5
CELicfC = (niiCELabund + niiiCELabund + nivCELabund + nvCELabund)/(niiiCELabund + nivCELabund) !A23
endif
CabundCEL = CELicfC * (ciiiCELabund+ civCELabund) !A24
elseif (ciiCELabund .ge. 1e-20 .and. ciiiCELabund .ge. 1e-20 .and. civCELabund .ge. 1e-20 .and. heiiabund .ge. 1e-20 .and. (nivCELabund .lt. 1e-20 .or. nvCELabund .lt. 1e-20)) then !final case i think.
CELicfC = ((oiiCELabund + oiiiCELabund)/oiiiCELabund)*heICFfactor**(1./3.) !A25
CabundCEL = CELicfC * (ciiCELabund + ciiiCELabund + civCELabund) !A26
else
CabundCEL = 0.D0 ! nothing at all seen
CELicfC = 1.0
endif
! Neon - complete
NeabundCEL = 0.d0
if (neiiiCELabund .ge. 1e-20 .and. neivCELabund .ge. 1e-20 .and. nevCELabund .ge. 1e-20) then !all stages seen
CELicfNe = 1.
NeabundCEL = neiiiCELabund + neivCELabund + nevCELabund
elseif (neiiiCELabund .ge. 1e-20 .and. neivCELabund .lt. 1e-20 .and. nevCELabund .ge. 1e-20) then !no Ne IV seen
CELicfNe = 1.5
NeabundCEL = CELicfNe * (neiiiCELabund + nevCELabund) !KB94 A27
elseif (neiiiCELabund .ge. 1e-20 .and. neivCELabund .lt. 1e-20 .and. nevCELabund .lt. 1e-20) then !Only Ne2+ seen
CELicfNe = OabundCEL / oiiiCELabund !KB94 A28
NeabundCEL = CELicfNe * neiiiCELabund
endif
! Argon - complete
if (ariiiCELabund .ge. 1e-20 .and. arivCELabund .lt. 1e-20 .and. arvCELabund .lt. 1e-20) then !only Ar2+ seen
CELicfAr = 1.87 !KB94 A32
ArabundCEL = CELicfAr * ariiiCELabund !KB94 A33
elseif (ariiiCELabund .lt. 1e-20 .and. arivCELabund .ge. 1e-20 .and. arvCELabund .lt. 1e-20 .and. neiiiCELabund.gt.0.d0) then !Only Ar3+ seen
CELicfAr = NeabundCEL / neiiiCELabund !KB94 A34
ArabundCEL = CELicfAr * arivCELabund !KB94 A35
elseif (ariiiCELabund .ge. 1e-20 .and. arivCELabund .ge. 1e-20 .and. NabundCEL.gt.0.d0) then !Ar 2+ and 3+ seen
CELicfAr = 1./(1.-(niiCELabund/NabundCEL))
ArabundCEL = ariiiCELabund + arivCELabund + arvCELabund !KB94 A31
else
CELicfAR = 1.0
ArabundCEL = 0.d0
endif
! Sulphur
if (siiCELabund .ge. 1e-20 .and. siiiCELabund .ge. 1e-20 .and. sivIRCELabund .lt. 1e-20) then !both S+ and S2+
CELicfS = (1 - ( (1-(oiiCELabund/OabundCEL))**3.0 ) )**(-1.0/3.0) !KB94 A36
SabundCEL = CELicfS * (siiCELabund + siiiCELabund) !KB94 A37
elseif (siiCELabund .ge. 1e-20 .and. siiiCELabund .ge. 1e-20 .and. sivIRCELabund .ge. 1e-20) then !all states observed
CELicfS = 1.
SabundCEL = siiCELabund + siiiCELabund + sivIRCELabund
elseif (siiCELabund .ge. 1e-20 .and. siiiCELabund .lt. 1e-20 .and. sivIRCELabund .lt. 1e-20 .and. OabundCEL .gt. 0.d0) then !Only S+ observed
CELicfS = (((oiiiCELabund/oiiCELabund)**0.433) * 4.677) * (1-(1-((oiiCELabund/OabundCEL)**3)))**(-1./3.) ! KB94 A37 with S2+/S+ from A38
SabundCEL = CELicfS * siiCELabund
else
SabundCEL = 0.d0
CELicfS=1.d0
endif
!very high excitation cases, all He is doubly ionised
if (heiabund .lt. 1e-20 .and. heiiabund .ge. 1e-20) then
CELicfO = NeabundCEL / neiiiCELabund !A39
CELicfC = CELicfO !A39
OabundCEL = CELicfO * (oiiCELabund + oiiiCELabund + oivCELabund) !A40
CabundCEL = CELicfC * (ciiiCELabund + civCELabund) !A41
endif
!Chlorine - not included in KB94, this prescription is from Liu et al. (2000)
ClabundCEL = 0.d0
if (cliiiCELabund .ge. 1e-20 .and. siiiCELabund .ge. 1e-20) then
CELicfCl = SabundCEL/siiiCELabund
ClabundCEL = CELicfCl * cliiiCELabund
endif
elseif (switch_icf .eq. "P") then
!PTPR92 ICF - equation numbers in the paper are given in brackets
!CELs
!Carbon - no ICF specified
CabundCEL = 0.d0
CELicfC = 0.d0
!Chlorine - no ICF specified
ClabundCEL = 0.d0
CELicfCl = 0.d0
!Oxygen
OabundCEL = 0.d0
OabundCEL = oiiCELabund + oiiiCELabund ! (13)
!Nitrogen
NabundCEL = 0.d0
if (oiiCELabund .gt. 1e-20) then
CELicfN = OabundCEL/oiiCELabund
NabundCEL = niiCELabund * CELicfN ! (14)
endif
!Neon
NeabundCEL = 0.d0
if (oiiiCELabund .gt. 1e-20) then
CELicfNe = (oiiCELabund + oiiiCELabund)/oiiiCELabund
NeabundCEL = CELicfNe * NeiiiCELabund ! (15)
endif
!Sulphur - no ICF given in paper, see discussion on P168
SabundCEL = SiiCELabund + SiiiCELabund
!Argon - no ICF given in paper, see discussion on P168
ArabundCEL = AriiiCELabund + ArivCELabund
!Iron - TODO - to be added once we've added iron ionic abundance calculations
! if (niiCELabund .gt. 1.e-20) then
! CELicfFe = NabundCEL/niiCELabund
! FeabundCEL = CELicfFe * FeiiCELabund ! (16)
! endif
!Helium
RLicfHe = 1.0
if (SabundCEL - SiiCELabund .gt. 1.e-20) then
RLicfHe = 1+(SiiCELabund/(SabundCEL-SiiCELabund))
Hetotabund = RLicfHe * Heiabund ! (21) - note that this icf is not meaningful if only S+ is seen
endif
elseif (switch_icf .eq. "D") then
!Delgado-Inglada 2014
!starting definitions
!Equation 4:
if (heiabund+heiiabund .gt. 0.D0) then
upsilon = heiiabund/(heiabund+heiiabund)
else
upsilon=0.d0
endif
!Equation 5:
if (oiiCELabund + oiiiCELabund .gt. 0.D0) then
OICFfactor = oiiiCELabund/(oiiCELabund + oiiiCELabund)
else
oICFfactor = 0.d0
endif
!helium - no ICF for neutral so it's already been calculated earlier in this
!routine
!oxygen
!equation 12:
if (oiiCELabund .gt. 0.D0 .and. oiiiCELabund .gt. 0.D0) then
celICFO = 10.**((0.08*upsilon + 0.006*upsilon**2)/(0.34-0.27*upsilon)) !should check if upsilon is greater than 0.95 before using
oabundCEL = celICFO * (oiiCELabund + oiiiCELabund)
else
celICFO = 1.0
oabundCEL = 0.D0
endif
!nitrogen
!equation 14:
if (niiCELabund .gt. 0.D0 .and. oiiCELabund .gt. 0.D0 .and. upsilon .gt. 0.D0) then
CELicfN = 10.**(-0.16*oICFfactor*(1+log10(upsilon)))
nabundCEL = CELicfN * niiCELabund * OabundCEL / oiiCELabund
elseif (niiCELabund .gt. 0.D0 .and. oiiCELabund .gt. 0.D0 .and. upsilon .eq. 0.D0) then
CELicfN = 0.64*Oicffactor
nabundCEL = CELicfN * niiCELabund * OabundCEL / oiiCELabund
else
CELicfN = 1.0
nabundCEL = 0.D0
endif
!neon
if (neiiiCELabund .gt. 0.D0 .and. oiiiCELabund .gt. 0.D0 .and. nevCELabund .eq. 0.D0) then
if (heiiabund .eq. 0.D0) then
upsilonprime = 0.01
elseif (heiiabund .gt. 0.D0 .and. upsilon .lt. 0.015) then
upsilonprime = 0.015
else
upsilonprime = upsilon
endif
!equation 17:
CELicfNe = oICFfactor + ((0.014/upsilonprime + 2*upsilonprime**2.7)**3 * (0.7 + 0.2*oICFfactor-0.8*oICFfactor**2))
NeabundCEL = CELicfne * OabundCEL * (neiiiCELabund / oiiiCELabund)
!equation 20:
elseif (neiiiCELabund .gt. 0.D0 .and. nevCELabund .gt. 0.D0) then
CELicfNe = (1.31+12.68*upsilon**2.57)**0.27
NeabundCEL = CELicfNe * OabundCEL * (neiiiCELabund + nevCELabund)
else
NeabundCEL = 0.D0
CELicfNe = 1.0
endif
!sulphur
CELicfS = 1.0
SabundCEL = 0.D0
if (oiiCELabund .gt. 0.d0) then
if (siiiCELabund .eq. 0.D0 .and. siiCELabund .gt. 0.D0) then !equation 23:
CELicfS = 10.**(0.31-0.51*upsilon)
SabundCEL = CELicfS * OabundCEL * (siiCELabund/oiiCELabund)
elseif (siiiCELabund .gt. 0.D0 .and. siiCELabund .gt. 0.D0) then !equation 26:
CELicfS = 10.**((-0.02 - 0.03*OICFfactor - 2.31*OICFfactor**2 + 2.19*OICFfactor**3) / (90.69 + 2.09*OICFfactor - 2.69*OICFfactor**2))
SabundCEL = CELicfS * OabundCEL * (siiCELabund+siiiCELabund)/oiiCELabund
endif
endif
!chlorine
if (cliiCELabund .gt. 0.D0 .and. cliiiCELabund .gt. 0.D0 .and. clivCELabund .gt. 0.D0) then !equation 32:
CELicfCl = 0.98+(0.56-0.57*upsilon)**7.64
ClabundCEL = CELicfCl * (cliiCELabund + cliiiCELabund + clivCELabund)
elseif (OICFfactor .le. 0.02 .and. cliiCELabund .gt. 0.D0 .and. cliiiCELabund .gt. 0.D0) then
CELicfCl = 1.0
ClabundCEL = cliiCELabund + cliiiCELabund
elseif (OICFfactor .gt. 0.02 .and. OICFfactor .lt. 0.95 .and. cliiiCELabund .gt. 0.D0 .and. oiiCELabund .gt. 0.D0) then !equation 29:
CELicfCL = (4.1620 - (4.1622*OICFfactor**0.21))**0.75
ClabundCEL = CELicfCL * (cliiiCELabund / oiiCELabund)
else
CELicfCl = 1.0
CLabundCEL = 0.D0
endif
!argon
if ((oiiCELabund+oiiiCELabund) .gt. 0.D0 .and. ariiiCELabund .gt. 0.D0 .and. OICFfactor .le. 0.5) then !equation 35
CELicfAr = 10.**(0.05/(0.06+OICFfactor) - 0.07)
ArabundCEL = CELicfAr * OabundCEL * ariiiCELabund/(oiiCELabund+oiiiCELabund)
elseif ((oiiCELabund+oiiiCELabund) .gt. 0.D0 .and. ariiiCELabund .gt. 0.D0 .and. OICFfactor .gt. 0.5) then !equation 36
CELicfAr = 10.**(0.03/(0.4-0.3*OICFfactor) - 0.05)
ArabundCEL = CELicfAr * OabundCEL * ariiiCELabund/(oiiCELabund+oiiiCELabund)
else
CELicfAr = 1.0
ArabundCEL = 0.D0
endif
!carbon
!none given for CELs, D-I 2014 is for optical lines only
celICFC = 1.0
cabundCEL = 0.D0
endif
!ORLs - not from KB94 but based on Liu et al. 2000
!redefine He ICF factor, we use the same variable name for different things in DI14 and KB94
!todo: fix this ugly workaround
if (heiabund .gt. 0.) then
heICFfactor = (heiabund + heiiabund)/heiabund
elseif (heiabund .eq.0. .and. heiiabund .eq.0.0) then
heICFfactor = 0.d0
endif
!Oxygen
if (oiiRLabund .ge. 1e-20) then
RLicfO = heICFfactor**(2./3.) * (1+(oiiCELabund/oiiiCELabund))
OabundRL = RLicfO * oiiRLabund
else
RLicfO = 1.0
OabundRL = 0
endif
!Nitrogen
RLicfN = 1.0
NabundRL = niiRLabund + niiiRLabund
!Carbon
if (switch_icf .eq. "D") then !equation 39
RLicfC = 0.05 + 2.21*OICFfactor - 2.77*OICFfactor**2 + 1.74*OICFfactor**3
if (oiiRLabund .gt. 0.d0) CabundRL = RLicfC * ciiRLabund / oiiRLabund
else
RLicfC = 1.0
CabundRL = ciiRLabund + ciiiRLabund
endif
!Neon
if (oiiRLabund .ge. 1e-20) then
RLicfNe = OabundRL / oiiRLabund
NeabundRL = RLicfNe * neiiRLabund
else
RLicfNe = 1.0
NeabundRL = 0.d0
endif
!rewrite all the ICFs so that they are simply the factor by which the summed ionic abundances are multipled to get the total elemental abundance
if (ciiCELabund + ciiiCELabund + civCELabund .gt. 0.d0) CELicfC = CabundCEL/(ciiCELabund + ciiiCELabund + civCELabund)
if (niiCELabund + niiiCELabund + nivCELabund + nvCELabund .gt. 0.d0) CELicfN = NabundCEL/(niiCELabund + niiiCELabund + nivCELabund + nvCELabund)
if (oiiCELabund + oiiiCELabund + oiiiIRCELabund + oivCELabund .gt. 0.d0) CELicfO = OabundCEL/(oiiCELabund + oiiiCELabund + oiiiIRCELabund + oivCELabund)
if (neiiiCELabund + neivCELabund + nevCELabund .gt. 0.d0) CELicfNe = NeabundCEL/(neiiiCELabund + neivCELabund + nevCELabund)
if (siiCELabund + siiiCELabund + siiiIRCELabund + sivIRCELabund .gt. 0.d0) CELicfS = SabundCEL/(siiCELabund + siiiCELabund + siiiIRCELabund + sivIRCELabund)
if (cliiCELabund + cliiiCELabund + clivCELabund .gt. 0.d0) CELicfCl = ClabundCEL/(cliiCELabund + cliiiCELabund + clivCELabund)
if (ariiiCELabund + arivCELabund + arvCELabund .gt. 0.d0) CELicfAr = ArabundCEL/(ariiiCELabund + arivCELabund + arvCELabund)
!carbon
iteration_result(1)%NC_abund_CEL = NCabundCEL
iteration_result(1)%cii_abund_CEL = ciiCELabund
iteration_result(1)%ciii_abund_CEL = ciiiCELabund
iteration_result(1)%civ_abund_CEL = civCELabund
iteration_result(1)%c_icf_CEL = CELicfC
iteration_result(1)%C_abund_CEL = CabundCEL
!nitrogen
iteration_result(1)%Nii_abund_CEL = niiCELabund
iteration_result(1)%Niii_abund_CEL = niiiCELabund
iteration_result(1)%Niv_abund_CEL = nivCELabund
iteration_result(1)%Nv_abund_CEL = nvCELabund
iteration_result(1)%N_icf_CEL = CELicfN
iteration_result(1)%N_abund_CEL = NabundCEL
!oxygen
iteration_result(1)%NO_abund_CEL = NOabundCEL
iteration_result(1)%Oii_abund_CEL = oiiCELabund
iteration_result(1)%Oiii_abund_CEL = oiiiCELabund
iteration_result(1)%Oiv_abund_CEL = oivCELabund
iteration_result(1)%O_icf_CEL = CELicfO
iteration_result(1)%O_abund_CEL = OabundCEL
!neon
iteration_result(1)%Neii_abund_CEL = neiiIRCELabund
iteration_result(1)%Neiii_abund_CEL = neiiiCELabund
iteration_result(1)%Neiv_abund_CEL = neivCELabund
iteration_result(1)%Nev_abund_CEL = nevCELabund
iteration_result(1)%Ne_icf_CEL = CELicfNe
iteration_result(1)%Ne_abund_CEL = NeabundCEL
!argon
iteration_result(1)%Ariii_abund_CEL = ariiiCELabund
iteration_result(1)%Ariv_abund_CEL = arivCELabund
iteration_result(1)%Arv_abund_CEL = arvCELabund
iteration_result(1)%Ar_icf_CEL = CELicfAr
iteration_result(1)%Ar_abund_CEL = ArabundCEL
!sulphur
iteration_result(1)%Sii_abund_CEL = siiCELabund
iteration_result(1)%Siii_abund_CEL = siiiCELabund
iteration_result(1)%S_icf_CEL = CELicfS
iteration_result(1)%S_abund_CEL = SabundCEL
!chlorine
iteration_result(1)%Cliii_abund_CEL = cliiiCELabund
iteration_result(1)%Cl_icf_CEL = CELicfCl
iteration_result(1)%Cl_abund_CEL = ClabundCEL
!ORLs
iteration_result(1)%Hei_abund_ORL = Heiabund
iteration_result(1)%Heii_abund_ORL = Heiiabund
iteration_result(1)%He_abund_ORL = Hetotabund
iteration_result(1)%Cii_abund_ORL = ciiRLabund
iteration_result(1)%Ciii_abund_ORL = ciiiRLabund
iteration_result(1)%C_icf_ORL = RLicfC
iteration_result(1)%C_abund_ORL = CabundRL
iteration_result(1)%Nii_abund_ORL = niiRLabund
iteration_result(1)%Niii_abund_ORL = niiiRLabund
iteration_result(1)%N_icf_ORL = RLicfN
iteration_result(1)%N_abund_ORL = NabundRL
iteration_result(1)%Oii_abund_ORL = oiiRLabund
iteration_result(1)%O_icf_ORL = RLicfO
iteration_result(1)%O_abund_ORL = OabundRL
iteration_result(1)%Neii_abund_ORL = NeiiRLabund
iteration_result(1)%Ne_icf_ORL = RLicfNe
iteration_result(1)%Ne_abund_ORL = NeabundRL
!recombination contributions
iteration_result(1)%nii5754recCEL = nii5754recCEL
iteration_result(1)%oii7325recCEL = oii7325recCEL
iteration_result(1)%oiii4363recCEL = oiii4363recCEL
iteration_result(1)%nii5754recRL = nii5754recRL
iteration_result(1)%oii7325recRL = oii7325recRL
iteration_result(1)%oiii4363recRL = oiii4363recRL
!multiplet abundances
iteration_result(1)%oii_v1_abund_orl = oiimultiplets(1)%abundance
iteration_result(1)%oii_v2_abund_orl = oiimultiplets(2)%abundance
iteration_result(1)%oii_v5_abund_orl = oiimultiplets(3)%abundance
iteration_result(1)%oii_v10_abund_orl = oiimultiplets(4)%abundance
iteration_result(1)%oii_v11_abund_orl = oiimultiplets(5)%abundance
iteration_result(1)%oii_v12_abund_orl = oiimultiplets(6)%abundance
iteration_result(1)%oii_v19_abund_orl = oiimultiplets(7)%abundance
iteration_result(1)%oii_v20_abund_orl = oiimultiplets(8)%abundance
iteration_result(1)%oii_v25_abund_orl = oiimultiplets(9)%abundance
iteration_result(1)%oii_v28_abund_orl = oiimultiplets(10)%abundance
iteration_result(1)%oii_v33_abund_orl = oiimultiplets(11)%abundance
iteration_result(1)%oii_3d4f_abund_orl = oiimultiplets(12)%abundance
iteration_result(1)%nii_v3_abund_orl = niimultiplets(1)%abundance
iteration_result(1)%nii_v5_abund_orl = niimultiplets(2)%abundance
iteration_result(1)%nii_v8_abund_orl = niimultiplets(3)%abundance
iteration_result(1)%nii_v12_abund_orl = niimultiplets(4)%abundance
iteration_result(1)%nii_v20_abund_orl = niimultiplets(5)%abundance
iteration_result(1)%nii_v28_abund_orl = niimultiplets(6)%abundance
iteration_result(1)%nii_3d4f_abund_orl = niimultiplets(7)%abundance
!Strong line methods
!O R23 Pilyugin 2000
x23temp1 = get_cel_flux("oii3726 ",linelist,ILs)
x23temp2 = get_cel_flux("oii3729 ",linelist,ILs)
x23temp3 = get_cel_flux("oiii4959 ",linelist,ILs)
x23temp4 = get_cel_flux("oiii5007 ",linelist,ILs)
if (get_cel_flux("oii3728b ",linelist,ILs) .gt. 0 .and. x23temp3 .gt. 0 .and. x23temp4 .gt. 0) then ! OII blended
X23 = log10(get_cel_flux("oii3728b ",linelist,ILs)/(x23temp3 + x23temp4))
elseif (x23temp1 .gt. 0 .and. x23temp2 .gt. 0 .and. x23temp3 .gt. 0 .and. x23temp4 .gt. 0) then
X23 = log10((x23temp1+x23temp2)/(x23temp3+x23temp4))
else
X23 = 0.d0
endif
if (X23 .gt. 0) then
O_R23upper = 9.50 - (1.4 * X23)
O_R23lower = 6.53 + (1.45 * X23)
iteration_result(1)%O_R23_upper = O_R23upper
iteration_result(1)%O_R23_lower = O_R23lower
endif
!O N2 Pettini + Pagel 2004
flux_no1 = get_cel_flux("nii6584 ",linelist,ILs)
if (flux_no1 .gt. 0 .and. H_Balmer(3) .gt. 0) then
N2 = flux_no1 / linelist(H_Balmer(3))%int_dered
O_N2 = 8.90 + (0.57 * N2)
iteration_result(1)%O_N2 = O_N2
endif
!O O3N2 Pettini + Pagel 2004
flux_no2 = get_cel_flux("oiii5007 ",linelist,ILs)
if (flux_no1 .gt. 0 .and. flux_no2 .gt. 0 .and. H_Balmer(3) .gt. 0) then
O3N2 = log10((flux_no2*linelist(H_Balmer(3))%int_dered)/(flux_no1 * linelist(H_Balmer(3))%int_dered))
O_O3N2 = 8.73 - (0.32*O3N2)
iteration_result(1)%O_O3N2 = O_O3N2
endif
!O Ar3O3 Stasinska 2006
flux_no1 = get_cel_flux("ariii7135 ",linelist,ILs)
flux_no2 = get_cel_flux("oiii5007 ",linelist,ILs)
if (flux_no1 .gt. 0 .and. flux_no2 .gt. 0) then
Ar3O3 = flux_no1 / flux_no2
O_Ar3O3 = 8.91 + (0.34*Ar3O3) + (0.27*Ar3O3**2) + (0.2*Ar3O3**3)
iteration_result(1)%O_Ar3O3 = O_Ar3O3
endif
!O S3O3 Stasinska 2006
flux_no1 = get_cel_flux("siii9069 ",linelist,ILs)
if (flux_no1 .gt. 0 .and. flux_no2 .gt. 0) then
S3O3 = flux_no1 / flux_no2
O_S3O3 = 9.37 + (2.03*S3O3) + (1.26*S3O3**2) + (0.32*S3O3**3)
iteration_result(1)%O_S3O3 = O_S3O3
endif
!abundance discrepancy factors
if (oiiiCELabund .gt. 0) then
adfO2plus = oiiRLabund/oiiiCELabund
else
adfO2plus = 0.d0
endif
if (oabundCEL .gt. 0) then
adfO = OabundRL/OabundCEL
else
adfO = 0.d0
endif
if (ciiiCELabund .gt. 0) then
adfC2plus = ciiRLabund/ciiiCELabund
else
adfC2plus = 0.d0
endif
if (CabundCEL .gt. 0) then
adfC = CabundRL/CabundCEL
else
adfC = 0.d0
endif
if (NiiiCELabund .gt. 0) then
adfN2plus = NiiRLabund/NiiiCELabund
else
adfN2plus = 0.d0
endif
if (NabundCEL .gt. 0) then
adfN = NabundRL/NabundCEL
else
adfN = 0.d0
endif
if (NeiiiCELabund .gt. 0) then
adfNe2plus = NeiiRLabund/NeiiiCELabund
else
adfNe2plus = 0.d0
endif
if (NeabundCEL .gt. 0) then
adfNe = NeabundRL/NeabundCEL
else
adfNe = 0.d0
endif
iteration_result(1)%adf_o2plus = adfo2plus
iteration_result(1)%adf_O = adfO
iteration_result(1)%adf_n2plus = adfn2plus
iteration_result(1)%adf_n = adfn
iteration_result(1)%adf_c2plus = adfc2plus
iteration_result(1)%adf_c = adfc
iteration_result(1)%adf_ne2plus = adfne2plus
iteration_result(1)%adf_ne = adfne
!copy blend fluxes back into their original location
where (linelist%blend_intensity .gt. 0.d0)
linelist%intensity=linelist%blend_intensity
linelist%int_dered=linelist%blend_int_dered
linelist%int_err=linelist%blend_int_err
endwhere
contains
subroutine get_diag(name1, name2, diag)
implicit none
integer, parameter :: dp = kind(1.d0)
character(len=11) :: name1, name2
real(kind=dp) :: flux_no1, flux_no2
real(kind=dp) :: diag
!debugging
#ifdef CO
print *,"subroutine: get_diag. lines=",name1,name2
#endif
flux_no1 = get_cel_flux(name1, linelist, ILs)
flux_no2 = get_cel_flux(name2, linelist, ILs)
if (flux_no1 .gt. 0 .and. flux_no2 .gt. 0) then
diag = flux_no1 / flux_no2
else
diag = 0.d0
endif
end subroutine get_diag
subroutine get_Tdiag(name1, name2, name3, ion, ratio)
!this routine gets the ratio for nebular to auroral diagnostics. In case one of nebular pair is not observed, it assumes the intensity of the other is given by the theoretical ratio
implicit none
integer, parameter :: dp = kind(1.d0)
character(len=11) :: name1, name2, name3
character(len=20) :: ion
integer :: ion_no1, ion_no2, ion_no3
real(kind=dp) :: flux1, flux2, flux3
real(kind=dp) :: factor1, factor2, ratio, ratio2
integer :: level1, level2, level3 !level2 is the upper level, level1 the lower of the two lower levels
!debugging
#ifdef CO
print *,"subroutine: get_Tdiag. lines=",name1, name2, name3
#endif
ion_no1 = get_ion(name1, ILs)
ion_no2 = get_ion(name2, ILs)
ion_no3 = get_ion(name3, ILs)
flux1 = get_cel_flux(name1, linelist, ILs)
flux2 = get_cel_flux(name2, linelist, ILs)
flux3 = get_cel_flux(name3, linelist, ILs)
!get the levels of the transitions. upper level is common to both transitions
read (ILs(ion_no1)%transition(1:index(ILs(ion_no1)%transition,',')-1),"(i2)") level1
read (ILs(ion_no1)%transition(index(ILs(ion_no1)%transition,',')+1:index(ILs(ion_no1)%transition,'/')-1),"(i2)") level2
read (ILs(ion_no2)%transition(1:index(ILs(ion_no2)%transition,',')-1),"(i2)") level3
!now, in possibly the ugliest lines of code in all of NEAT, get the theoretical ratio, which is ratio of A values multiplied by ratio of wavelengths
factor1=1.+(atomicdata(get_atomicdata(ion,atomicdata))%A_coeffs(level2,level3)/atomicdata(get_atomicdata(ion,atomicdata))%A_coeffs(level2,level1) * (atomicdata(get_atomicdata(ion,atomicdata))%waveno(level2)-atomicdata(get_atomicdata(ion,atomicdata))%waveno(level3))/(atomicdata(get_atomicdata(ion,atomicdata))%waveno(level2)-atomicdata(get_atomicdata(ion,atomicdata))%waveno(level1)))
factor2=1.+(1./(factor1-1.))
!now calculate the diagnostic ratio
if(((flux1 .gt. 0) .and. (flux2 .gt. 0)) .and. (flux3 .gt. 0 ))then
ratio = (flux1 + flux2) / flux3
if(name1 .eq. "siii9069 ")then
ratio2 = (flux1 / flux2)
!print*, ratio2
if(ratio2 .gt. (factor2-1)*0.95 .and. ratio2 .lt. (factor2-1)*1.05)then
!PRINT*, ratio2, " ", factor2-1, " 1 ", name1
ratio = (flux1 + flux2) / flux3
else if(ratio2 .lt. (factor2-1)*0.95)then
!PRINT*, ratio2, " ", factor2-1, " 2 ", name1
ratio = (factor2 * flux2) / flux3
!PRINT*, (factor2 * flux2), " ", (flux1 + flux2)
else if(ratio2 .gt. (factor2-1)*1.05)then
!PRINT*, ratio2, " ", factor2-1, " 3 ", name1
ratio = (factor1 * flux1) / flux3
else
ratio = 0.d0
endif
endif
elseif(((flux1 .gt. 0) .and. (flux2 .eq. 0)) .and. (flux3 .gt. 0 ))then
ratio = (flux1 * factor1) / flux3
elseif(((flux1 .eq. 0) .and. (flux2 .gt. 0)) .and. (flux3 .gt. 0 ))then
ratio = (flux2 * factor2) / flux3
else
ratio = 0.d0
endif
end subroutine get_Tdiag
subroutine get_average_abundance(startion,endion,abundance)
!calculates the average abundance given by a set of CELs using the chosen weighting scheme
implicit none
character(len=11) :: startion,endion
real(kind=dp) :: abundance
real(kind=dp), dimension(9) :: weights, abundances ! Ilines_levs contains at most 9 lines per ion. this might need updating in the future
integer :: i,j
!debugging
#ifdef CO
print *,"subroutine: get_average_abundance. ",startion,endion
#endif
weights=0.d0
abundances=0.d0
abundance=0.d0
j=1
! weights have already been processed to correctly replace -1 with observed intensity, and set to zero if line is not present.
! so it's really easy.
do i=get_ion(startion,ILs),get_ion(endion,ILs)
if (ILs(i)%location .gt. 0) then
abundances(j)=linelist(ILs(i)%location)%abundance
weights(j)=linelist(ILs(i)%location)%weight
endif
j=j+1
enddo
if (sum(weights).gt.0.d0) then
abundance=sum(abundances*weights)/sum(weights)
endif
end subroutine get_average_abundance
subroutine fix_siii
!SIII 9069 and 9531 doublet is a special case due to absorption lines. See Liu, Barlow etc 1995 (Far Red IR Lines in a PN), one of 9069/9531 is ALWAYS absorbed but the other is then always fine. We can tell which is is by looking at the ratio 9069/9531.
implicit none
real(kind=dp) :: ratio!,factor
!debugging
#ifdef CO
print *,"subroutine: fix_siii."
#endif
if (get_cel_abundance("siii9069 ",linelist,ILs) .ne. 0 .and. get_cel_abundance("siii9531 ",linelist,ILs) .ne. 0) then
!observed ratio
ratio = get_cel_flux("siii9069 ",linelist,ILs) / get_cel_flux("siii9531 ",linelist,ILs)
!theoretical ratio is 0.403 using the default atomic data. todo: calculate it as is done in the get_Tdiag routine
if (ratio .gt. (1.1 * 0.403)) then ! 9531 is affected, use 9069 only
linelist(ILs(get_ion("siii9531 ",ILs))%location)%weight = 0.d0
elseif(ratio .lt. (0.9 * 0.403)) then ! 9069 is affected, use 9531 only
linelist(ILs(get_ion("siii9069 ",ILs))%location)%weight = 0.d0
endif
endif
end subroutine fix_siii
end subroutine abundances
�����������������������������������������������������������������������������������������������������NEAT-master/source/bashcompletion�������������������������������������������������������������������0000775�0000000�0000000�00000003077�12714613141�0017342�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������# neat(1) completion
# rw@nebulousresearch.org
_neat()
{
local cur prev words cword opts helium_options icf_options extinction_options verbosity_options
_init_completion || return
COMPREPLY=()
cur="${COMP_WORDS[COMP_CWORD]}"
prev="${COMP_WORDS[COMP_CWORD-1]}"
opts="-i -u -n -e -c -nelow -nemed -nehigh -telow -temed -tehigh -he -icf -v -id -rp --input --uncertainties --n-iterations --extinction-law --helium-data --ionisation-correction-scheme --verbosity --identify -cf --configuration-file"
COMPREPLY=( $(compgen -W "${opts}" -- ${cur}) )
case "${prev}" in
--helium-data|-he)
helium_options="P12 S96"
COMPREPLY=( $( compgen -W "$helium_options" -- "$cur" ) )
return 0
;;
--ionisation-correction-scheme|-icf)
icf_options="DI14 KB94 PT92"
COMPREPLY=( $( compgen -W "$icf_options" -- "$cur" ) )
return 0
;;
--extinction-law|-e)
extinction_options="How Fitz CCM LMC SMC"
COMPREPLY=( $( compgen -W "$extinction_options" -- "$cur" ) )
return 0
;;
--verbosity|-v)
verbosity_options="1 2 3"
COMPREPLY=( $( compgen -W "$verbosity_options" -- "$cur" ) )
return 0
;;
--input|-i|--configuration-file|-cf)
COMPREPLY=()
_filedir
return 0
;;
-c|-nehigh|-nelow|-nemed|-n|--n-iterations|-tehigh|-telow|-temed)
COMPREPLY=()
return 0
;;
esac
}
complete -F _neat neat
�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/equib_routines.f90���������������������������������������������������������������0000664�0000000�0000000�00000104043�12714613141�0017755�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������! For input atomic data file formats see Readme file attached at the end
! **********************************************************************
! Program EQUIB (FORTRAN 77)
!
! Programming history:
!
! 1981 May 3 IDH Version 1
! 1981 May 5 IDH Minibug fixed!
! 1981 May 7 IDH Now takes collision rates or strengths
! 1981 Aug 3 SA Interpolates collision strengths
! 1981 Aug 7 SA Input method changed
! 1984 Nov 19 RESC SA files entombed in scratch disk. Logical
! filenames given to SA's data files.
! 1995 Aug DPR Changed input file format. Increased matrices.
! 1996 Feb XWL Tidy up. SUBROUTINES SPLMAT, HGEN, CFY and CFD
! modified such that matrix sizes (i.e. maximum
! of Te and maximum no of levels) can now be cha
! by modifying the parameters NDIM1, NDIM2 and N
! in the Main program. EASY!
! Now takes collision rates as well.
! All variables are declared explicitly
! Generate two extra files (ionpop.lis and ionra
! of plain stream format for plotting
! 1996 June CJP Changed input data format for cases IBIG=1,2.
! Fixed readin bug for IBIG=2 case.
! Now reads reformatted upsilons (easier to see
! and the 0 0 0 data end is excluded for these c
! The A values have a different format for IBIG=
! 2009 April RW Converted to F90, inputs from cmd line, version
! written purely to do diagnostics.
! 2012 February RW Tidying up, combining into simpler routines for NEAT
! ***** N.B!! NO TRAPS FOR BAD DATA!! TAKE CARE!! ****C
!
module mod_equib
contains
subroutine get_diagnostic(ion,levu,levl,inratio,diagtype,fixedq,result,ndim2,ndim1,atomicdata,iion)
use mod_atomicdata
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: NDIM1, NDIM2, NDIM1T3, MAXND
!Maximum no of Te & levels
!NDIM1T3 should be at least 3*NDIM1
!Maximum no. of Ne increments
parameter (MAXND=100)
integer :: G(NDIM2), &
& ITRANA(2,NDIM2),ITRANB(2,NDIM2),ITRANC(2,NDIM2),LOOP
type(atomic_data),dimension(:),intent(in) :: atomicdata
integer :: iion,nion
real(kind=dp) :: N(NDIM2)
real(kind=dp) :: & !TDRAT(2,MAXND)
& TNIJ(NDIM2,NDIM2), FINTIJ(NDIM2,NDIM2), &
& WAVA(NDIM2), WAVB(NDIM2), WAVC(NDIM2), CS(NDIM2,NDIM2), &
& QEFF(NDIM2,NDIM2), QQ(NDIM1), &
& QOM(NDIM1,NDIM2,NDIM2), A(NDIM2,NDIM2), E(NDIM2), T(NDIM1), &
& ROOTT(NDIM1), X(NDIM2,NDIM2), Y(NDIM2), &
& X2(NDIM2,NDIM2), XKEEP(NDIM2,NDIM2), Y2(NDIM2), YKEEP(NDIM2), &
& HMH(NDIM1,NDIM1), D(NDIM1)
character(len=20) :: LABEL(NDIM2)
character(len=10) :: ION
integer :: I, I1, I2, J, KK, LL, JT, JJD, &
& NLEV, NTEMP, IBIG, IRATS, &
& NLEV1, INT, IND, IOPT, IT, IM1, JM1, IP1, &
& IAPR, IBPR, ICPR, IKT, IA, IB, IC, IA1, IA2, IB1, IB2, IC1, IC2
real(kind=dp) :: TEMPI, TINC, DENSI, DINC, DENS, DLOGD, TEMP, TLOGT, &
& TEMP2, DD, DELTEK, EXPE, VALUE, SUMN, TTT, TTP, AHB, EJI, WAV, &
& RLINT, FINT, SUMA, SUMB, FRAT, DEE
real(kind=dp) :: fixedq
real(kind=dp) :: inratio,result
character(len=20) :: levu,levl
character(len=1) :: diagtype
real(kind=dp), DIMENSION(:,:), ALLOCATABLE :: RESULTS
real(kind=dp) :: valtest(3)
integer :: test
!debugging
#ifdef CO
print *,"subroutine: get_diagnostic. ion=",ion,levu,levl,inratio,diagtype,fixedq
#endif
! check if ratio is meaningful
if (inratio .le. 0.d0 .or. inratio .gt. 1.e10) then
result=0.d0
return
endif
ndim1t3=3*ndim1
g=0
itrana=0
itranb=0
itranc=0
valtest=0.d0
test=0
d=0.d0
read(levu,*) ((ITRANA(LL,KK),LL=1,2),KK=1,ndim2)!150)
read(levl,*) ((ITRANB(LL,KK),LL=1,2),KK=1,ndim2)!150)
!Transfer atomic data to local variables
nion = 0
do i = 1,iion
if(atomicdata(i)%ion .eq. ion) nion=i
enddo
if (nion .eq. 0) then
print *,"I'm afraid. I'm afraid, Dave."
nion = 1
endif
! print*,nion,atomicdata(nion)%ion,ion
nlev=atomicdata(nion)%nlevs
ntemp=atomicdata(nion)%ntemps
T(1:ntemp)= log10(atomicdata(nion)%Temps(1:ntemp))
ROOTT(1:ntemp)=atomicdata(nion)%rootT(1:ntemp)
Label(1:nlev)=atomicdata(nion)%labels(1:nlev)
QOM(1:ntemp,1:nlev,1:nlev)=atomicdata(nion)%col_str(1:ntemp,1:nlev,1:nlev)
A(1:nlev,1:nlev)=atomicdata(nion)%A_coeffs(1:nlev,1:nlev)
E(1:nlev)=atomicdata(nion)%Waveno(1:nlev)
G(1:nlev)=atomicdata(nion)%G(1:nlev)
irats=0
ibig=0
NLEV1 = NLEV - 1
ITRANC = 0
!*****LOOP STARTS HERE*************************
do LOOP = 1, 9
if (diagtype .eq. "t" .or. diagtype .eq. "T") then
if (LOOP .eq. 1) then
TEMPI=5000.
else
TEMPI= valtest(1)
endif
INT=4
TINC=(30000.)/((INT-1)**(LOOP))
densi=fixedq
dinc=0
ind=1
allocate(RESULTS(3,INT))
else
if (LOOP .eq. 1) then
densi=0
else
densi=valtest(2)
endif
IND=4
DINC=(100000.)/((IND-1)**(LOOP))
TempI=fixedq
TINC=0
INT=1
allocate(results(3,IND))
endif
if (densi .le. 0) densi=1
if (tempi .lt. 5000) tempi=5000
!Start of Te loop
do JT = 1, INT
TEMP=TEMPI+(JT-1)*TINC
!Start of Ne loop
do JJD = 1, IND
DENS=DENSI+(JJD-1)*DINC
if (TEMP.LE.0.D0.OR.DENS.LE.0.D0) then
write (6,6100)
print *,"Temp = ", TEMP, ", Dens = ", DENS, ", Ion = ",ion,diagtype
call exit(1)
endif
DLOGD = log10(DENS)
TLOGT = log10(TEMP)
TEMP2= sqrt(TEMP)
!Form matrices
X=0.0
CS=0.0
QEFF=0.0
TNIJ=0.0
Y=0.0
IOPT=0
if (NTEMP.EQ.1) then
write (6,*)
write (6,*) &
& 'Coll. strengths available for 1 Te only - assuming const'
elseif (NTEMP.EQ.2) then
write (6,*)
write (6,*) &
& 'Coll. strengths available for 2 Te only - linear interp'
else
call SPLMAT(T, NTEMP, IOPT, NDIM1, NDIM1T3, HMH)
call CFD(TLOGT,T,NTEMP,NDIM1,HMH,D)
endif
do I = 2, NLEV
do J = I, NLEV
!Negative!
DELTEK = (E(I-1)-E(J))*1.4388463D0
EXPE = EXP(DELTEK/TEMP)
do IT = 1, NTEMP
if (IRATS.EQ.0.D+00) then
QQ(IT) = QOM(IT,I-1,J)
else
!Take out the exp. depend.
QQ(IT) = QOM(IT,I-1,J) / EXPE
!before interpolation
endif
enddo
if (NTEMP.EQ.1) then
DD = QQ(1)
elseif (NTEMP.EQ.2) then
DD = QQ(1) + &
& (QQ(2) - QQ(1))/(T(2) - T(1)) * (TLOGT - T(1))
else
call CFY(TLOGT, DD, T, QQ, NTEMP, NDIM1, D)
endif
if (IRATS.EQ.0.D+00) then
CS(I-1,J) = DD
else
CS(I-1,J) = DD * EXPE
endif
if (IRATS .EQ. 0.D+00) then
QEFF(I-1,J) = 8.63D-06*CS(I-1,J) * EXPE / (G(I-1)*TEMP2)
QEFF(J,I-1) = 8.63D-06 * CS(I-1,J) / (G(J)*TEMP2)
else
QEFF(I-1,J) = CS(I-1,J) * 10. ** IRATS
!Be careful
QEFF(J,I-1) = G(I-1) * QEFF(I-1,J) / (EXPE * G(J))
!G integer!
endif
enddo
enddo
do I = 2, NLEV
do J = 1, NLEV
if (J.NE.I) then
X(I,J) = X(I,J) + DENS * QEFF(J,I)
X(I,I) = X(I,I) - DENS * QEFF(I,J)
if (J.GT.I) then
X(I,J) = X(I,J) + A(J,I)
else
X(I,I) = X(I,I) - A(I,J)
endif
endif
enddo
enddo
do I = 2, NLEV
IM1 = I - 1
VALUE = 0.D0 - X(I,1)
Y(IM1) = VALUE
Y2(IM1) = VALUE
YKEEP(IM1) = VALUE
do J = 2, NLEV
JM1 = J - 1
VALUE = X(I,J)
X(IM1,JM1) = VALUE
X2(IM1,JM1) = VALUE
XKEEP(IM1,JM1) = VALUE
enddo
enddo
!Solve matrices for populations
call LUSLV(X,Y,NLEV1,NDIM2)
do I = NLEV, 2, -1
N(I) = Y(I-1)
enddo
SUMN = 1.D0
do I = 2, NLEV
SUMN = SUMN + N(I)
enddo
do I = 2, NLEV
N(I) = N(I) / SUMN
enddo
N(1) = 1.D0 / SUMN
!Output data
TTT=TEMP*1.0D-4
TTP=TTT**(-0.87D0)
!Eff. recombination coef. of Hb
AHB=3.036D-14*TTP
do I = 1, NLEV1
IP1 = I + 1
do J = IP1, NLEV
if (A(J,I).NE.0.D0) then
EJI = E(J) - E(I)
WAV = 1.D8 / EJI
RLINT = A(J,I) * EJI
RLINT = RLINT *N(J)
TNIJ(I,J)=RLINT
FINT=N(J)*A(J,I)*4861.D0/(DENS*AHB*WAV)
FINTIJ(I,J)=FINT
endif
enddo
enddo
!Search ITRANA, ITRANB & ITRANC for transitions & sum up
SUMA=0.D0
SUMB=0.D0
IAPR=0
IBPR=0
ICPR=0
do IKT = 1, NDIM2
IA1=ITRANA(1,IKT)
IA2=ITRANA(2,IKT)
if (IA1.NE.0.AND.IA2.NE.0) then
SUMA=SUMA+TNIJ(IA1,IA2)
IAPR=IAPR+1
endif
IB1=ITRANB(1,IKT)
IB2=ITRANB(2,IKT)
if (IB1.NE.0.AND.IB2.NE.0) then
IBPR=IBPR+1
SUMB=SUMB+TNIJ(IB1,IB2)
endif
IC1=ITRANC(1,IKT)
IC2=ITRANC(2,IKT)
if (IC1.NE.0.AND.IC2.NE.0) then
ICPR=ICPR+1
endif
enddo
if (SUMB.eq.0.d0) then
FRAT= 0.d0
else
FRAT=SUMA/SUMB
endif
if (diagtype .eq. "t" .or. diagtype .eq. "T") then
RESULTS(1, JT) = TEMP
RESULTS(2, JT) = DENS
RESULTS(3, JT) = FRAT-inratio
else
RESULTS(1, JJD) = TEMP
RESULTS(2, JJD) = DENS
RESULTS(3, JJD) = FRAT-inratio
endif !End of the Ne loop
enddo
do IA = 1, IAPR
I1=ITRANA(1,IA)
I2=ITRANA(2,IA)
DEE=E(I2)-E(I1)
WAVA(IA)=1.D8/DEE
enddo
do IB = 1, IBPR
I1=ITRANB(1,IB)
I2=ITRANB(2,IB)
DEE=E(I2)-E(I1)
WAVB(IB)=1.D8/DEE
enddo
do IC = 1, ICPR
I1=ITRANC(1,IC)
I2=ITRANC(2,IC)
DEE=E(I2)-E(I1)
WAVC(IC)=1.D8/DEE
enddo
enddo !End of the Te loop
! here, find the value in RESULTS which is closest to zero
! sort values in results to find two lowest values
!print*,results
!print*," "
if (diagtype .eq. "D" .or. diagtype .eq. "d") then
INT = ind
endif
! loop through array and find out where the sign changes.
do I=2,INT
test=0
if (sign(results(3,I),results(3,1)) .ne. results(3,I)) then !when this condition is fulfilled, the values in the array are now a different sign to the first value in the array
valtest(:) = (results(:,I-1)) ! return the value before the sign change so that the next loop starts at a sensible value
test=1
exit
endif
enddo
if(test .eq. 0 .and. loop .lt. 9) then !test fails if no change of sign
!this kicks in then, and checks if it should be upper or lower limit
if(abs(results(3,1)) .lt. abs(results(3,INT))) then
valtest(:)=results(:,1)
elseif(abs(results(3,INT)) .lt. abs(results(3,1))) then
valtest(:)=results(:,INT-1)
else !A simplistic work-around for this problem:
result = -1d0 !it flags the value as ill-defined so that it
deallocate(results)!can be dealt with without breaking the code.
return !It's set to zero later and excluded from
!the averaging. Turns out long train rides
!are good for sorting such problems.
!print*,"Valtest failed"
!print*,ion,levu,levl,loop,inratio,diagtype
!print*,results
!call exit(1)
endif
elseif(test .eq. 0 .and. loop .eq. 9) then !test fails if no change of sign
!this kicks in then, and checks if it should be upper or lower limit
if(abs(results(3,1)) .lt. abs(results(3,INT))) then
valtest(:)=results(:,1)
elseif(abs(results(3,INT)) .lt. abs(results(3,1))) then
valtest(:)=results(:,INT)
else
result = -1d0
deallocate(results)
return
!print*,"Valtest failed"
!print*,ion,levu,levl,loop,inratio,diagtype
!print*,results
!call exit(1)
endif
endif
!LOOP = LOOP + 1
DEALLOCATE(RESULTS) !thanks Bruce!
enddo
!********LOOP WOULD END HERE**********************
if (diagtype .eq. "D" .or. diagtype .eq. "d") then
result = valtest(2)
else
result = valtest(1)
endif
return
6100 FORMAT (' PROCESSING COMPLETED'/ &
& ' GOODBYE!!'///)
end subroutine get_diagnostic
subroutine get_abundance(ion,levels,tempi,densi,iobs,abund,ndim2,ndim1,atomicdata,iion)
use mod_atomicdata
implicit none
integer, parameter :: dp = kind(1.d0)
!INTEGER maxlevs,maxtemps
integer :: NDIM1, NDIM2, NDIM1T3, MAXND
!Maximum no of Te & levels
!PARAMETER (NDIM1=maxtemps, NDIM2=maxlevs)!35, NDIM2=150)
!NDIM1T3 should be at least 3*NDIM1
!PARAMETER (NDIM1T3 = 3*NDIM1)!105)
!Maximum no. of Ne increments
PARAMETER (MAXND=100)
integer :: G(NDIM2), &
& ITRANA(2,NDIM2),ITRANB(2,NDIM2),ITRANC(2,NDIM2)
type(atomic_data),dimension(:),intent(in) :: atomicdata
integer :: nion,iion
real(kind=dp) :: N(NDIM2)
real(kind=dp) :: TDRAT(2,MAXND), TNIJ(NDIM2,NDIM2), FINTIJ(NDIM2,NDIM2), &
& WAVA(NDIM2), WAVB(NDIM2), WAVC(NDIM2), CS(NDIM2,NDIM2), &
& QEFF(NDIM2,NDIM2), QQ(NDIM1), &
& QOM(NDIM1,NDIM2,NDIM2), A(NDIM2,NDIM2), E(NDIM2), T(NDIM1), &
& ROOTT(NDIM1), X(NDIM2,NDIM2), Y(NDIM2), &
& X2(NDIM2,NDIM2), XKEEP(NDIM2,NDIM2), Y2(NDIM2), YKEEP(NDIM2), &
& HMH(NDIM1,NDIM1), D(NDIM1)
character(len=20) :: LABEL(NDIM2)
character(len=10) :: ION
integer :: I, I1, I2, J, KK, LL, JT, JJD, &
& NLEV, NTEMP, IBIG, IRATS, &
& NLEV1, INT, IND, IOPT, IT, IM1, JM1, IP1, &
& IAPR, IBPR, ICPR, IKT, IA, IB, IC, IA1, IA2, IB1, IB2, IC1, IC2
real(kind=dp) :: TEMPI, TINC, DENSI, DINC, DENS, DLOGD, TEMP, TLOGT, &
& TEMP2, DD, DELTEK, EXPE, VALUE, SUMN, TTT, TTP, AHB, EJI, WAV, &
& RLINT, FINT, SUMA, SUMB, SUMC, FRAT, DEE
character(len=20) :: levels
real(kind=dp) :: iobs, abund
!debugging
#ifdef CO
print *,"subroutine: get_abundance. ion=",ion
#endif
ndim1t3=3*ndim1
g=0
itrana=0
itranb=0
itranc=0
d=0.d0
read(levels,*) ((ITRANC(LL,KK),LL=1,2),KK=1,ndim2)!150)
tinc=0
dinc=0
int=1
ind=1
nion = 0
do i = 1,iion
if(atomicdata(i)%ion .eq. ion(1:10)) nion=i
enddo
if (nion .eq. 0) then
print *, "Dave, my mind is going. I can feel it."
nion = 1
endif
! print*,nion,atomicdata(nion)%ion,ion
nlev=atomicdata(nion)%nlevs
ntemp=atomicdata(nion)%ntemps
T(1:ntemp)=log10(atomicdata(nion)%Temps(1:ntemp))
ROOTT(1:ntemp)=atomicdata(nion)%rootT(1:ntemp)
Label(1:nlev)=atomicdata(nion)%labels(1:nlev)
QOM(1:ntemp,1:nlev,1:nlev)=atomicdata(nion)%col_str(1:ntemp,1:nlev,1:nlev)
A(1:nlev,1:nlev)=atomicdata(nion)%A_coeffs(1:nlev,1:nlev)
E(1:nlev)=atomicdata(nion)%Waveno(1:nlev)
G(1:nlev)=atomicdata(nion)%G(1:nlev)
irats=0
ibig=0
NLEV1 = NLEV - 1
!Start of Te loop
do JT = 1, INT
TEMP=TEMPI+(JT-1)*TINC
!Start of Ne loop
do JJD = 1, IND
DENS=DENSI+(JJD-1)*DINC
if (TEMP.LE.0.D0.OR.DENS.LE.0.D0) then
write (6,6100)
print *,"Temp = ", TEMP, ", Dens = ", DENS, ", Ion = ",ion
call exit(1)
endif
DLOGD = log10(DENS)
TLOGT = log10(TEMP)
TEMP2= sqrt(TEMP)
!Form matrices
X = 0.D0
CS=0.D0
QEFF=0.D0
TNIJ = 0.D0
Y=0.D0
IOPT=0
if (NTEMP.EQ.1) then
write (6,*)
write (6,*) &
& 'Coll. strengths available for 1 Te only - assuming const'
elseif (NTEMP.EQ.2) then
write (6,*)
write (6,*) &
& 'Coll. strengths available for 2 Te only - linear interp'
else
call SPLMAT(T, NTEMP, IOPT, NDIM1, NDIM1T3, HMH)
call CFD(TLOGT,T,NTEMP,NDIM1,HMH,D)
endif
do I = 2, NLEV
do J = I, NLEV
!Negative!
DELTEK = (E(I-1)-E(J))*1.4388463D0
EXPE = EXP(DELTEK/TEMP)
do IT = 1, NTEMP
if (IRATS.EQ.0.D+00) then
QQ(IT) = QOM(IT,I-1,J)
else
!Take out the exp. depend.
QQ(IT) = QOM(IT,I-1,J) / EXPE
!before interpolation
endif
enddo
if (NTEMP.EQ.1) then
DD = QQ(1)
elseif (NTEMP.EQ.2) then
DD = QQ(1) + &
& (QQ(2) - QQ(1))/(T(2) - T(1)) * (TLOGT - T(1))
else
call CFY(TLOGT, DD, T, QQ, NTEMP, NDIM1, D)
endif
if (IRATS.EQ.0.D+00) then
CS(I-1,J) = DD
else
CS(I-1,J) = DD * EXPE
endif
if (IRATS .EQ. 0.D+00) then
QEFF(I-1,J) = 8.63D-06*CS(I-1,J) * EXPE / (G(I-1)*TEMP2)
QEFF(J,I-1) = 8.63D-06 * CS(I-1,J) / (G(J)*TEMP2)
else
QEFF(I-1,J) = CS(I-1,J) * 10. ** IRATS
!Be careful
QEFF(J,I-1) = G(I-1) * QEFF(I-1,J) / (EXPE * G(J))
!G integer!
endif
enddo
enddo
do I = 2, NLEV
do J = 1, NLEV
if (J.NE.I) then
X(I,J) = X(I,J) + DENS * QEFF(J,I)
X(I,I) = X(I,I) - DENS * QEFF(I,J)
if (J.GT.I) then
X(I,J) = X(I,J) + A(J,I)
else
X(I,I) = X(I,I) - A(I,J)
endif
endif
enddo
enddo
do I = 2, NLEV
IM1 = I - 1
VALUE = 0.D0 - X(I,1)
Y(IM1) = VALUE
Y2(IM1) = VALUE
YKEEP(IM1) = VALUE
do J = 2, NLEV
JM1 = J - 1
VALUE = X(I,J)
X(IM1,JM1) = VALUE
X2(IM1,JM1) = VALUE
XKEEP(IM1,JM1) = VALUE
enddo
enddo
!Solve matrices for populations
call LUSLV(X,Y,NLEV1,NDIM2)
do I = NLEV, 2, -1
N(I) = Y(I-1)
enddo
SUMN = 1.D0
do I = 2, NLEV
SUMN = SUMN + N(I)
enddo
do I = 2, NLEV
N(I) = N(I) / SUMN
enddo
N(1) = 1.D0 / SUMN
!Output data
TTT=TEMP*1.0D-4
TTP=TTT**(-0.87D0)
!Eff. recombination coef. of Hb
AHB=3.036D-14*TTP
do I = 1, NLEV1
IP1 = I + 1
do J = IP1, NLEV
if (A(J,I).NE.0.D0) then
EJI = E(J) - E(I)
WAV = 1.D8 / EJI
RLINT = A(J,I) * EJI
RLINT = RLINT *N(J)
TNIJ(I,J)=RLINT
FINT=N(J)*A(J,I)*4861.D0/(DENS*AHB*WAV)
FINTIJ(I,J)=FINT
endif
enddo
enddo
!Search ITRANA, ITRANB & ITRANC for transitions & sum up
SUMA=0.D0
SUMB=0.D0
SUMC=0.D0
IAPR=0
IBPR=0
ICPR=0
do IKT = 1, NDIM2
IA1=ITRANA(1,IKT)
IA2=ITRANA(2,IKT)
if (IA1.NE.0.AND.IA2.NE.0) then
SUMA=SUMA+TNIJ(IA1,IA2)
IAPR=IAPR+1
endif
IB1=ITRANB(1,IKT)
IB2=ITRANB(2,IKT)
if (IB1.NE.0.AND.IB2.NE.0) then
IBPR=IBPR+1
SUMB=SUMB+TNIJ(IB1,IB2)
endif
IC1=ITRANC(1,IKT)
IC2=ITRANC(2,IKT)
if (IC1.NE.0.AND.IC2.NE.0) then
ICPR=ICPR+1
SUMC=SUMC+FINTIJ(IC1,IC2)
endif
enddo
if (sumb .gt. 0) then
FRAT=SUMA/SUMB
else
FRAT=0.d0
endif
if (SUMC.ne.0.d0) SUMC = 1./SUMC
TDRAT(1,JJD)=DENS
TDRAT(2,JJD)=FRAT
abund = sumc*iobs/100
!End of the Ne loop
enddo
do IA = 1, IAPR
I1=ITRANA(1,IA)
I2=ITRANA(2,IA)
DEE=E(I2)-E(I1)
WAVA(IA)=1.D8/DEE
enddo
do IB = 1, IBPR
I1=ITRANB(1,IB)
I2=ITRANB(2,IB)
DEE=E(I2)-E(I1)
WAVB(IB)=1.D8/DEE
enddo
do IC = 1, ICPR
I1=ITRANC(1,IC)
I2=ITRANC(2,IC)
DEE=E(I2)-E(I1)
WAVC(IC)=1.D8/DEE
enddo
!End of the Te loop
enddo
return
6100 FORMAT (' PROCESSING COMPLETED'/ &
& ' GOODBYE!!'///)
end subroutine get_abundance
!---- PROC LUSLV
!Solving linear equations
subroutine LUSLV(A,B,N,M)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: M, N
real(kind=dp) :: A(M,M),B(M)
#ifdef DEBUG
print *,"subroutine: luslv"
#endif
call LURED(A,N,M)
call RESLV(A,B,N,M)
return
end subroutine luslv
!
!---- PROC LURED
subroutine LURED(A,N,NR)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: N, NR, NM1, I, J, K, IP1
real(kind=dp) :: A(NR,NR), FACT
#ifdef DEBUG
print *,"subroutine: lured"
#endif
if (N.EQ.1) return
NM1=N-1
do I=1,NM1
IP1=I+1
do K=IP1,N
FACT=A(K,I)/A(I,I)
do J=IP1,N
A(K,J)=A(K,J)-A(I,J)*FACT
enddo
enddo
enddo
return
end subroutine lured
!
!---- PROC RESLV
!Resolve A with B
subroutine RESLV(A,B,N,NR)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: N, NR, NM1, I, J, K, L, IP1
real(kind=dp) :: A(NR,NR),B(NR)
#ifdef DEBUG
print *,"subroutine: reslv"
#endif
if (N.EQ.1) GOTO 1
NM1=N-1
do I=1,NM1
IP1=I+1
do J=IP1,N
B(J)=B(J)-B(I)*A(J,I)/A(I,I)
enddo
enddo
B(N)=B(N)/A(N,N)
do I=1,NM1
K=N-I
L=K+1
do J=L,N
B(K)=B(K)-B(J)*A(K,J)
enddo
B(K)=B(K)/A(K,K)
enddo
return
1 B(N)=B(N)/A(N,N)
return
end subroutine reslv
!
!---- PROC SPLMAT
subroutine SPLMAT(XX,NPT,IOPT,NDIM, NDIMT3, HMH)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: NDIM, NDIMT3, NPT, IOPT, NPM, NELEM
real(kind=dp) :: XX(NDIM),GH(NDIMT3),Y(NDIM), HMH(NDIM,NDIM)
#ifdef DEBUG
print *,"subroutine: splmat"
#endif
NPM=NPT-2
call GHGEN(GH,XX,NPT,IOPT,NDIM,NDIMT3)
NELEM=3*NPM-2
call ELU(GH,NPM,NDIMT3)
call HGEN(XX,GH,Y,NPT,IOPT,NDIM,NDIMT3,HMH)
return
end subroutine splmat
!
!---- PROC DERIV
! Calculate the first derivative of the lagrangian interpolator
! of a function F, tabulated at the N points XY(I), I=1 to N.
! The derivative is given as the coefficients of F(I), I=1 to N,
! in the array D(I), I=1 to N.
subroutine DERIV(XY,D,X,N,NDIM)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: N ,NDIM, I, J, K
real(kind=dp) :: XY(NDIM),D(NDIM), X, P1, P2, S
#ifdef DEBUG
print *,"subroutine: deriv"
#endif
do I=1,N
P1=1.
S=0.
do J=1,N
if (J.NE.I) then
P1=P1*(XY(I)-XY(J))
P2=1.
do K=1,N
if (K.NE.I.AND.K.NE.J) P2=P2*(X-XY(K))
enddo
S=S+P2
endif
enddo
D(I)=S/P1
enddo
return
end subroutine deriv
!
!---- PROC HGEN
! Cubic spline interpolation
! The equation for the second derivatives at internal points
! is of the form G*YPP=B, where G has been evaluated and LU
! decomposed.
! this routine writes B=HMH*Y and then solves YPP=G**(-1)*HMH*Y,
! =HMH*Y.
! Three options are provided for boundary conditions-
! IOPT = 0 YPP=0 at end points
! IOPT = 1 YP=0 at end points
! IOPT = 2 YP at end points from lagarnge interpolant of a set of
! internal points.
subroutine HGEN(XX,GH,Y,NPT,IOPT,NDIM,NDIMT3,HMH)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: NPT, IOPT, NDIM, NDIMT3, NDIM3, NIP, I, J, K, NPM, &
& INDX
real(kind=dp) :: XX(NDIM), GH(NDIMT3), Y(NDIM), HMH(NDIM,NDIM), &
& XY(5),D(5),C(2,5), A0, AN1, H1, H2
#ifdef DEBUG
print *,"subroutine: hgen"
#endif
if (IOPT.EQ.2) then !Case of derivative boundary condition, with
NDIM3=5 !derivatives from NIP-point Lagrange at
NIP=3 !internal points
do J=1,2
do I=1,NIP
K=(NPT-NIP)*(J-1)
XY(I)=XX(K+I)
enddo
K=1+(NPT-1)*(J-1)
call DERIV(XY,D,XX(K),NIP,NDIM3)
do I=1,NIP
C(J,I)=D(I)
enddo
enddo
endif
!Set up matrix equation G*YPP=HMH*Y
A0=XX(2)-XX(1)
AN1=XX(NPT)-XX(NPT-1)
NPM=NPT-2
hmh=0d0
do I=1,NPM
H1=6./(XX(I+1)-XX(I))
H2=6./(XX(I+2)-XX(I+1))
HMH(I,I)=H1
HMH(I,I+1)=-H1-H2
HMH(I,I+2)=H2
! do J=1,NPT
! HMH(I,J)=0.
! if (J.EQ.I) HMH(I,J)=H1
! if (J.EQ.I+2) HMH(I,J)=H2
! if (J.EQ.I+1) HMH(I,J)=-H1-H2
! enddo
enddo
!Correct matrix for case of
if (IOPT.EQ.1.OR.IOPT.EQ.2) then
!derivative boundary conditions
HMH(1,1)=HMH(1,1)+3/A0
HMH(1,2)=HMH(1,2)-3/A0
HMH(NPM,NPT-1)=HMH(NPM,NPT-1)-3/AN1
HMH(NPM,NPT)=HMH(NPM,NPT)+3/AN1
endif
if (IOPT.EQ.2) then
do J=1,NIP
HMH(1,J)=HMH(1,J)+3*C(1,J)
K=NPT+J-NIP
HMH(NPM,K)=HMH(NPM,K)-3*C(2,J)
enddo
endif
!Solve matrix equation with results in the form
do I=1,NPT
!YPP=HMH*Y. matrix g has been LU decomposed
Y(1)=HMH(1,I)
INDX=0
do J=2,NPM
INDX=INDX+3
Y(J)=HMH(J,I)-GH(INDX)*Y(J-1)
enddo
INDX=INDX+1
Y(NPM)=Y(NPM)/GH(INDX)
do J=2,NPM
K=NPM-J+1
INDX=INDX-3
Y(K)=(Y(K)-GH(INDX+1)*Y(K+1))/GH(INDX)
enddo
HMH(2:npm+1,I)=Y(1:npm)
!Insert values for second derivative at end
HMH(1,I)=0.
!points: first and last rows of the matrix
HMH(NPT,I)=0.
enddo
!Case of derivative boundary conditions
if (IOPT.GT.0) then
do J=1,NPT
HMH(1,J)=-0.5*HMH(2,J)
HMH(NPT,J)=-0.5*HMH(NPT-1,J)
enddo
HMH(1,1)=HMH(1,1)-3/(A0*A0)
HMH(1,2)=HMH(1,2)+3/(A0*A0)
HMH(NPT,NPT-1)=HMH(NPT,NPT-1)+3/(AN1*AN1)
HMH(NPT,NPT)=HMH(NPT,NPT)-3/(AN1*AN1)
endif
if (IOPT.EQ.2) then
do J=1,NIP
HMH(1,J)=HMH(1,J)-3*C(1,J)/A0
K=NPT+J-NIP
HMH(NPT,K)=HMH(NPT,K)+3*C(2,J)/AN1
enddo
endif
return
end subroutine hgen
!
!---- PROC GHGEN
subroutine GHGEN(GH,XX,NPT,IOPT,NDIM,NDIMT3)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: NPT, IOPT, NDIM, NDIMT3, INDX, NPTM, I, J, IP, JP, IK
real(kind=dp) :: XX(NDIM),GH(NDIMT3)
#ifdef DEBUG
print *,"subroutine: ghgen"
#endif
INDX=0
NPTM=NPT-1
do I=2,NPTM
IP=I-1
do J=1,3
JP=IP+J-2
if (JP.GE.1.AND.JP.LE.NPTM-1) then
INDX=INDX+1
if (J.EQ.2) then
GH(INDX)=2*(XX(I+1)-XX(I-1))
else
IK=I+(J-1)/2
GH(INDX)=XX(IK)-XX(IK-1)
endif
endif
enddo
enddo
if (IOPT.GE.1) then
GH(1)=GH(1)-(XX(2)-XX(1))/2.
GH(INDX)=GH(INDX)-(XX(NPT)-XX(NPT-1))/2.
endif
return
end subroutine ghgen
!
!---- PROC ELU
subroutine ELU(GH,N,NDIM)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: N, NDIM, INDX, I, J, JP
real(kind=dp) :: GH(NDIM)
#ifdef DEBUG
print *,"subroutine: elu"
#endif
INDX=0
do I=1,N
do J=1,3
JP=I+J-2
if (JP.GE.1.AND.JP.LE.N) then
INDX=INDX+1
if (I.GT.1) then
if (J.EQ.1) then
GH(INDX)=GH(INDX)/GH(INDX-2)
endif
if (J.EQ.2) then
GH(INDX)=GH(INDX)-GH(INDX-1)*GH(INDX-2)
endif
endif
endif
enddo
enddo
return
end subroutine elu
!
!---- PROC CFY
subroutine CFY(X,Y,XX,YY,NPT,NDIM,D)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: NPT, NDIM, J
real(kind=dp) :: XX(NDIM),YY(NDIM), D(NDIM), X, Y, TT
#ifdef DEBUG
print *,"subroutine: cfy"
#endif
if (X.LT.XX(1)) then
Y=YY(1)
endif
if (X.GT.XX(NPT)) then
Y=YY(NPT)
endif
TT=0.
do J=1,NPT
TT=TT+D(J)*YY(J)
enddo
Y=TT
return
end subroutine cfy
!
!---- PROC CFD
subroutine CFD(X,XX,NPT,NDIM, HMH, D)
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: NPT, NDIM, NPTM, I, J
real(kind=dp) :: X, XX(NDIM), HMH(NDIM,NDIM), D(NDIM), X1, X2, A1, A2, HI
#ifdef DEBUG
print *,"subroutine: cfd"
#endif
if (X.LT.XX(1)) then
!write(6,400) XX(1)
return
endif
if (X.GT.XX(NPT)) then
!write(6,401) XX(NPT)
return
endif
NPTM=NPT-1
do I=1,NPTM
if (X.LT.XX(I+1)) then
X1=XX(I+1)-X
X2=X-XX(I)
HI=XX(I+1)-XX(I)
A1=X1*(X1*X1/(6*HI)-HI/6)
A2=X2*(X2*X2/(6*HI)-HI/6)
do J=1,NPT
D(J)=(A1*HMH(I,J)+A2*HMH(I+1,J))
enddo
D(I)=D(I)+X1/HI
D(I+1)=D(I+1)+X2/HI
return
endif
enddo
end subroutine cfd
end module mod_equib
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use mod_abundtypes
implicit none
private :: dp
integer, parameter :: dp = kind(1.d0)
contains
subroutine calc_extinction_coeffs(linelist,H_Balmer, c1, c2, c3, meanextinction, temp, dens, weightha, weighthg, weighthd)
IMPLICIT NONE
integer, parameter :: dp = kind(1.d0)
type(line), dimension(:), intent(in) :: linelist
integer, dimension(3:40) :: H_Balmer
real(kind=dp) :: c1, c2, c3, weightha, weighthg, weighthd, meanextinction
real(kind=dp) :: temp, dens
!debugging
#ifdef CO
print *,"subroutine: calc_extinction_coeffs. Te=",temp,", ne=",dens,", weights=",weightha, weighthg, weighthd
#endif
!set up weights
if (weightha .eq. -1 .and. H_Balmer(3) .gt. 0) then
weightha = linelist(H_Balmer(3))%intensity
endif
if (weighthg .eq. -1 .and. H_Balmer(5) .gt. 0) then
weighthg = linelist(H_Balmer(5))%intensity
endif
if (weighthd .eq. -1 .and. H_Balmer(6) .gt. 0) then
weighthd = linelist(H_Balmer(6))%intensity
endif
!Section with interpolations for Balmer ratios for T_e (temp) and N_e (dens)
!interpolating over 6 Te points, 5,7.5,10,12.5,15,20kK and 3 Ne points 10^2, 10^3 10^4 cm^(-3)
if (H_Balmer(3) .gt. 0 .and. H_Balmer(4) .gt. 0) then
c1 = log10( ( linelist(H_Balmer(3))%intensity / linelist(H_Balmer(4))%intensity )/ calc_balmer_ratios(temp, dens, 1) )/(-linelist(H_Balmer(3))%flambda)
else
c1 = 0.d0
weightha = 0.d0
endif
if (H_Balmer(5) .gt. 0 .and. H_Balmer(4) .gt. 0) then
c2 = log10( ( linelist(H_Balmer(5))%intensity / linelist(H_Balmer(4))%intensity )/ calc_balmer_ratios(temp, dens, 2) )/(-linelist(H_Balmer(5))%flambda)
else
c2=0.d0
weighthg=0.d0
endif
if (H_Balmer(6) .gt. 0 .and. H_Balmer(4) .gt. 0) then
c3 = log10( ( linelist(H_Balmer(6))%intensity / linelist(H_Balmer(4))%intensity )/ calc_balmer_ratios(temp, dens, 3) )/(-linelist(H_Balmer(6))%flambda)
else
c3 = 0.d0
weighthd = 0.d0
endif
if (c1<0) then
! print *,"Warning: c(Ha) less than zero"
c1=0
endif
if (c2<0) then
! print *,"Warning: c(Hg) less than zero"
c2=0
endif
if (c3<0) then
! print *,"Warning: c(Hd) less than zero"
c3=0
endif
if ((weightha + weighthg + weighthd) .gt. 0) then
meanextinction = (c1*weightha + c2*weighthg + c3*weighthd) / (weightha + weighthg + weighthd)
else
meanextinction = 0.d0 ! todo: print a warning here
endif
end subroutine calc_extinction_coeffs
real(kind=dp) function calc_balmer_ratios(temp, dens, line)
implicit none
integer :: i, j, line
real(kind=dp) :: d1, d2, temp, dens
real(kind=dp), dimension(6,3,4) :: HS
!debugging
#ifdef CO
!print *,"function: calc_balmer_ratios"
#endif
!Ha/Hb
HS(1,1,:) = (/ 5000., 3.04, 3.02, 3.00/)
HS(2,1,:) = (/ 7500., 2.93, 2.92, 2.90/)
HS(3,1,:) = (/10000., 2.86, 2.86, 2.85/)
HS(4,1,:) = (/12500., 2.82, 2.82, 2.81/)
HS(5,1,:) = (/15000., 2.79, 2.79, 2.78/)
HS(6,1,:) = (/20000., 2.75, 2.75, 2.74/)
!Hg/Hb
HS(1,2,:) = (/ 5000., 0.458, 0.459, 0.460/)
HS(2,2,:) = (/ 7500., 0.465, 0.465, 0.466/)
HS(3,2,:) = (/10000., 0.468, 0.469, 0.469/)
HS(4,2,:) = (/12500., 0.471, 0.471, 0.472/)
HS(5,2,:) = (/15000., 0.473, 0.473, 0.473/)
HS(6,2,:) = (/20000., 0.475, 0.475, 0.476/)
!Hd/Hb
HS(1,3,:) = (/ 5000., 0.251, 0.252, 0.253/)
HS(2,3,:) = (/ 7500., 0.256, 0.256, 0.257/)
HS(3,3,:) = (/10000., 0.259, 0.259, 0.260/)
HS(4,3,:) = (/12500., 0.261, 0.261, 0.261/)
HS(5,3,:) = (/15000., 0.262, 0.263, 0.263/)
HS(6,3,:) = (/20000., 0.264, 0.264, 0.264/)
do i = 1,5
if(temp .ge. HS(i,line,1) .and. temp .lt. HS(i+1,line, 1) )then
exit
endif
enddo
do j = 2,3
if(dens .ge. 10**j .and. dens .le. 10**(j+1) )then
exit
endif
enddo
if(temp .lt. HS(1,line,1))then
if(dens .lt. 10**2)then
calc_balmer_ratios = HS(1,line,2)
return
elseif(dens .ge. 10**4)then
calc_balmer_ratios = HS(1,line,4)
return
endif
!print*, j
calc_balmer_ratios=( (HS(1,line,j+1)-HS(1,line,j)) / (10**(j+1)-10**j) )*(dens-(10**j))+HS(1,line,j)
return
elseif(temp .ge. HS(6,line,1))then
if(dens .lt. 10**2)then
calc_balmer_ratios = HS(6,line,2)
return
elseif(dens .gt. 10**4)then
calc_balmer_ratios = HS(6,line,4)
return
endif
calc_balmer_ratios =( ( HS(6,line,j+1)-HS(6,line,j) )/ (10**(j+1)-10**j) )*(dens-(10**j) ) + HS(6,line,j)
return
endif
if(dens .lt. 10**2)then
calc_balmer_ratios = ((HS(i+1,line,2)-HS(i,line,2))/(HS(i+1,line,1)-HS(i,line,1)))*(temp-HS(i,line,1))+HS(i,line,2)
return
elseif(dens .gt. 10**4)then
calc_balmer_ratios = ((HS(i+1,line,4)-HS(i,line,4))/(HS(i+1,line,1)-HS(i,line,1)))*(temp-HS(i,line,1))+HS(i,line,4)
return
endif
! print*, j
!PRINT*, i, j
d1=((HS(i+1,line,j)-HS(i,line,j))/(HS(i+1,line,1)-HS(i,line,1)))*(temp-HS(i,line,1))+HS(i,line,j)
d2=((HS(i+1,line,j+1)-HS(i,line,j+1))/(HS(i+1,line,1)-HS(i,line,1)))*(temp-HS(i,line,1))+HS(i,line,j+1)
!print*, d1, d2
calc_balmer_ratios = ( (d2-d1) /(10**(j+1) - 10**j))*(dens - (10**j) ) + d1 !(d1+d2)/2
end function
subroutine get_flambda(linelist, switch_ext, R)
!calculat flambda for the chosen law, or if it was not recognised, attempt to read in from file
!todo: change length of switch_ext variable to allow for a filename to be given
implicit none
type(line), dimension(:) :: linelist
character(len=1) :: switch_ext
real(kind=dp) :: R
real(kind=dp) :: x_0, c1, c2, c3, c4, gamma, F ! Fitzpatrick constants
!debugging
#ifdef CO
print *,"subroutine: get_flambda, switch=",switch_ext
#endif
c1 = -0.38
c2 = 0.74
c3 = 3.96
c4 = 0.26
x_0 = 4.596
gamma = 1.051
F = 0
where (linelist%wavelength.lt.500) ! allows line list to contain IR lines with wavelengths in microns.
linelist%freq = DBLE(1) / DBLE(linelist%wavelength)
elsewhere
linelist%freq = DBLE(10000) / DBLE(linelist%wavelength)
endwhere
if (switch_ext == "S") then !Howarth 1983 galactic law
where( (linelist%freq .gt. 7.14) .AND. (linelist%freq .le. 10.0)) !far UV
linelist%flambda = ((16.07 - (3.20 * linelist%freq) + (0.2975*linelist%freq**2))) !far UV
elsewhere((linelist%freq .gt. 3.65) .AND. (linelist%freq .le. 7.14)) ! mid UV
linelist%flambda = ((2.19 + (0.848*linelist%freq) + (1.01/(((linelist%freq-4.60)**2) + 0.280)))) !mid UV
elsewhere((linelist%freq .gt. 2.75) .AND. (linelist%freq .le. 3.65)) ! near UV
linelist%flambda = ((1.46 + (1.048*linelist%freq) + (1.01/(((linelist%freq-4.60)**2) + 0.280)))) !near UV
elsewhere((linelist%freq .gt. 1.83) .AND. (linelist%freq .le. 2.75)) ! optical
linelist%flambda = ((3.1 + (2.56*(linelist%freq-1.83)) - (0.993*(linelist%freq-1.83)**2) )) ! optical (3)
elsewhere(linelist%freq .le. 1.83) !IR
linelist%flambda = (( (1.86*linelist%freq**2) - (0.48*linelist%freq**3) - (0.1*linelist%freq))) ! IR (4)
elsewhere
! print *, "He's not the messiah!"
linelist%flambda = 0.d0
endwhere
linelist%flambda = (linelist%flambda / 3.63) - 1 ! R+0.53
elseif (switch_ext == "H") then !Howarth 1983 LMC law
where (linelist%freq .gt. 2.75) !UV
linelist%flambda = ( (3.1 - 0.236 + (0.462*linelist%freq) + (0.105*(linelist%freq**2)) + (0.454/((linelist%freq-4.557)**2 + 0.293))) )
elsewhere ((linelist%freq .gt. 1.83) .AND. (linelist%freq .lt. 2.75)) !Optical
linelist%flambda = ((3.1 + (2.04*(linelist%freq - 1.83)) + 0.094*(linelist%freq - 1.83)**2))
elsewhere(linelist%freq .lt. 1.83) !IR
linelist%flambda = (((1.86*(linelist%freq**2)) - (0.48*(linelist%freq**3)) - (0.1*linelist%freq)))
elsewhere
! print *,"Your mother was a hamster and your father smelt of elderberries."
linelist%flambda = 0.d0
endwhere
linelist%flambda = (linelist%flambda / 3.57) - 1 ! R+0.47
elseif (switch_ext == "C") then !CCM 1989 galactic law.
where(linelist%freq .gt. 8) !far UV
linelist%flambda = R* (0.137*((linelist%freq - 8)**2) - 1.073 - 0.628*(linelist%freq - 8) - 0.070*((linelist%freq - 8)**3)) &
& + 13.670 + 4.257*(linelist%freq - 8) - 0.420*((linelist%freq - 8)**2) + 0.374*((linelist%freq - 8)**3)
elsewhere((linelist%freq .gt. 5.9) .AND. (linelist%freq .lt. 8)) !UV
linelist%flambda = R* &
&(1.752 - 0.316*linelist%freq - (0.104/(((linelist%freq - 4.67)**2) + 0.341)) + ((-1)*0.04473*((linelist%freq - 5.9)**2) - 0.009779*((linelist%freq - 5.9)**3))) + &
&(1.825*linelist%freq + (1.206/(((linelist%freq - 4.62)**2) + 0.263)) + 0.2130*((linelist%freq - 5.9)**2) + 0.1207*((linelist%freq - 5.9)**3) - 3.090)
elsewhere((linelist%freq .gt. 3.3) .AND. (linelist%freq .lt. 5.9))
linelist%flambda = R* (1.752 - 0.316*linelist%freq - (0.104/(((linelist%freq - 4.67)**2) + 0.341))) &
& + (1.825*linelist%freq + (1.206/(((linelist%freq - 4.62)**2) + 0.263)) - 3.090)
elsewhere((linelist%freq .gt. 1.1) .AND. (linelist%freq .lt. 3.3)) !Optical & NIR
linelist%flambda = R* &
&(1 + (0.17699*(linelist%freq-1.82)) - (0.50447*((linelist%freq-1.82)**2)) - (0.02427*((linelist%freq-1.82)**3)) + (0.72085*((linelist%freq-1.82)**4)) + (0.01979*((linelist%freq-1.82)**5)) - (0.77530*((linelist%freq-1.82)**6)) + (0.32999*((linelist%freq-1.82)**7))) + &
&(1.41338*(linelist%freq-1.82) + 2.28305*((linelist%freq-1.82)**2) + 1.07233*((linelist%freq-1.82)**3) - 5.38434*((linelist%freq-1.82)**4) - 0.62251*((linelist%freq-1.82)**5) + 5.30260*((linelist%freq-1.82)**6) - 2.09002*((linelist%freq-1.82)**7))
elsewhere(linelist%freq .lt. 1.1) !IR
linelist%flambda = R* (0.574 * (linelist%freq**1.61)) + &
& ((-1)*(0.527)*(linelist%freq**1.61))
elsewhere
! print *, "What... is the air-speed velocity of an unladen swallow?"
linelist%flambda = 0.d0
endwhere
linelist%flambda = (linelist%flambda / ((1.015452*R) + 0.461000)) - 1 ! 1.015452R + 0.461000
elseif (switch_ext == "P") then !Prevot 1985 SMC law
where(linelist%freq .gt. 6.72)
linelist%flambda = 3.1 + ((3.184*linelist%freq) - 11.45) !Far UV
elsewhere((linelist%freq .gt. 1.83) .AND. (linelist%freq .lt. 6.72))
linelist%flambda = 3.1 + ((2.067*linelist%freq) - 4.110) !Optical/UV
elsewhere(linelist%freq .lt. 1.83)
linelist%flambda = (((1.86*(linelist%freq**2)) - (0.48*(linelist%freq**3)) - (0.1*linelist%freq))) !IR
elsewhere
! print *,"We interrupt this program to annoy you and make things generally irritating."
linelist%flambda = 0.d0
endwhere
linelist%flambda = (linelist%flambda / 3.242) - 1 ! R+0.142
elseif (switch_ext == "F") then !Fitzpatrick 1990 galactic law
where(linelist%freq .lt. 1.83)
linelist%flambda = (( (1.86*linelist%freq**2) - (0.48*linelist%freq**3) - (0.1*linelist%freq))) ! IR (4)
elsewhere((linelist%freq .gt. 1.83) .AND. (linelist%freq .lt. 2.75))
linelist%flambda = ((3.1 + (2.56*(linelist%freq-1.83)) - (0.993*(linelist%freq-1.83)**2) )) ! optical (3)
elsewhere((linelist%freq .gt. 2.75) .AND. (linelist%freq .lt. 3.65))
linelist%flambda = ((1.46 + (1.048*linelist%freq) + (1.01/(((linelist%freq-4.60)**2) + 0.280)))) !near UV
elsewhere((linelist%freq .gt. 3.65) .AND. (linelist%freq .lt. 3.70))
linelist%flambda = ((2.19 + (0.848*linelist%freq) + (1.01/(((linelist%freq-4.60)**2) + 0.280)))) !mid UV
elsewhere((linelist%freq .gt. 3.70) .AND. (linelist%freq .lt. 5.90))
linelist%flambda = 3.1 + c1 + c2*linelist%freq + c3*&
& (linelist%freq**2)/((((linelist%freq**2) + (x_0**2))**2) +((linelist%freq**2)*(gamma**2)))
elsewhere(linelist%freq .gt. 5.90)
linelist%flambda = 3.1 + c1 + c2*linelist%freq + &
& c3*(linelist%freq**2)/((((linelist%freq**2) + (x_0**2))**2) +((linelist%freq**2)*(gamma**2))) + &
& c4*(0.539*((linelist%freq-5.9)**2.0)) + (0.0564*((linelist%freq-5.9)**3.0))
elsewhere
! print *,"No-one expects the spanish inquisition."
linelist%flambda = 0.d0
endwhere
linelist%flambda = (linelist%flambda / 3.63) - 1 ! should be R+1.20, why is it same as Howarth galactic? RW
endif
end subroutine get_flambda
subroutine deredden(lines, extinction)
!this subroutine calls the appropriate dereddening subroutine so that in abundances.f90, we can just call a single routine
IMPLICIT NONE
TYPE(line), DIMENSION(:) :: lines
real(kind=dp) :: extinction
!debugging
#ifdef CO
print *,"subroutine: deredden"
#endif
where (lines%intensity .gt. 0.d0 .or. lines%blend_intensity .gt. 0.d0)
lines%int_dered = lines%intensity * 10**(extinction*lines%flambda)
lines%blend_int_dered = lines%blend_intensity * 10**(extinction*lines%flambda)
elsewhere
lines%int_dered = 0.d0
lines%blend_int_dered = 0.d0
endwhere
end subroutine deredden
end module mod_extinction
������������������������������������������������������������������������������������������������NEAT-master/source/filereading.f90������������������������������������������������������������������0000664�0000000�0000000�00000061026�12714613141�0017174�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������module mod_abundIO
use mod_abundtypes
use mod_atomicdata
implicit none
private :: dp
integer, parameter :: dp = kind(1.d0)
contains
subroutine read_linelist(filename,linelist,listlength,ncols,errstat)
implicit none
integer :: i, j, io, nlines, listlength, errstat, ncols
character(len=1) :: blank
type(line), dimension(:), allocatable :: linelist
character(len=512) :: filename, rowdata
character(len=15),dimension(4) :: invar !line fluxes and uncertainties are read as strings into these variables
real(kind=dp),dimension(5) :: rowdata2 !to check number of columns, first row of file is read as character, then read as real into this array
type neat_line
real(kind=dp) :: wavelength
character(len=85) :: linedata
end type neat_line
type(neat_line), dimension(:), allocatable :: neatlines
!debugging
#ifdef CO
print *,"subroutine: read_linelist"
#endif
! first get number of rows
errstat=0
I = 0
open(199, file=filename, iostat=IO, status='old')
do while (IO .ge. 0)
read(199,*,end=111) blank
if (blank.ne."#") then
I = I + 1
endif
enddo
111 continue
listlength=I
!then allocate and read
allocate (linelist(listlength))
linelist%intensity = 0.D0
linelist%abundance = 0.D0
linelist%weight = 0.d0
linelist%freq=0d0
linelist%wavelength=0d0
linelist%wavelength_observed=0d0
linelist%int_dered=0d0
linelist%int_err=0d0
linelist%blend_intensity=0.d0
linelist%blend_int_err=0d0
linelist%zone=' '
linelist%name=' '
linelist%transition=' '
linelist%location=0
linelist%ion=' '
linelist%latextext=' '
linelist%linedata=' '
! now count the columns
! if 2 - assume rest wavelength and intensity, read in and restrict to single iteration
! if 3 - assume rest wavelength, intensity, uncertainty, read in as we do currently
! if 4 - assume observed wavelength, rest wavelength, intensity, uncertainty, read in and add obs wlen to output table
rewind(199)
rowdata2=-1.0d-27
do while (IO .ge. 0)
read (199,"(A)") rowdata
if (index(rowdata,"#") .ne. 1) then
read (rowdata,*,end=113) rowdata2(:)
endif
enddo
113 ncols=count(rowdata2 .ne. -1.0d-27)
invar=" "
rewind (199)
I=1
DO while (I.le.listlength)
read(199,"(A)",end=110) rowdata
if (index(rowdata,"#") .ne. 1) then !not a comment, read in the columns
read(rowdata,*) invar(1:ncols)
else !do nothing with comment lines
cycle
endif
if (ncols .eq. 4) then
read (invar(2),*) linelist(i)%wavelength
else
read (invar(1),*) linelist(i)%wavelength
endif
if (index(invar(2),"*") .gt. 0 .or. index(invar(3),"*") .gt. 0) then
!line is blended, its intensity will be removed from abundance and diagnostic calculations but retained in linelist
linelist(i-1)%blend_intensity=linelist(i-1)%intensity
linelist(i-1)%blend_int_err=linelist(i-1)%int_err
linelist(i-1:i)%intensity = 0.d0
linelist(i-1:i)%int_err = 0.d0
else
if (ncols .eq. 2) then
read (invar(2),*) linelist(i)%intensity
elseif (ncols .eq. 3) then
read (invar(2),*) linelist(i)%intensity
read (invar(3),*) linelist(i)%int_err
elseif (ncols .eq. 4) then
read (invar(1),*) linelist(i)%wavelength_observed
read (invar(3),*) linelist(i)%intensity
read (invar(4),*) linelist(i)%int_err
endif
endif
linelist(i)%latextext = ""
i=i+1
enddo
110 continue
close(199)
! check for errors
if (I - 1 .ne. listlength) then
errstat=errstat+1
return
endif
if (linelist(1)%wavelength == 0) then
errstat=errstat+2
return
endif
if (ncols .eq. 2) then !set uncertainties to 10 per cent, warn
linelist%int_err=linelist%intensity*0.1
errstat=errstat+4
endif
!if no fatal errors, proceed to copying line data into the array
I = 1
open(100, file=trim(PREFIX)//'/share/neat/complete_line_list', iostat=IO, status='old')
do while (IO .ge. 0)
read(100,"(A1)",end=101) blank
I = I + 1
enddo
101 nlines=I-1
!then allocate and read
allocate (neatlines(nlines))
rewind (100)
DO I=1,nlines
read(100,"(F8.2,A85)",end=102) neatlines(i)%wavelength,neatlines(i)%linedata
do j=1,listlength
if (abs(linelist(j)%wavelength - neatlines(i)%wavelength) .lt. 0.011) then
linelist(j)%linedata = neatlines(i)%linedata
linelist(j)%name = latextoplain(linelist(j)%linedata(3:19))
endif
enddo
enddo
102 print *
close(100)
!fix some common blends. If first member of blend is in the list but the second is not, or if second is present but with zero flux, then presume the feature is blended.
call fix_blend(3726.03d0,3728.82d0,3727.00d0,linelist)
call fix_blend(7318.92d0,7319.99d0,7319.45d0,linelist)
call fix_blend(7329.67d0,7330.73d0,7330.20d0,linelist)
call fix_blend(1906.68d0,1908.73d0,1909.00d0,linelist)
call fix_blend(2422.36d0,2425.01d0,2424.00d0,linelist)
call fix_blend(4714.17d0,4715.66d0,4715.21d0,linelist)
call fix_blend(4724.15d0,4725.62d0,4724.89d0,linelist)
call fix_blend(1483.32d0,1486.50d0,1485.00d0,linelist)
!todo:remove elements from the array?
end subroutine read_linelist
subroutine read_celdata(ILs, ionlist)
!this subroutine reads in the parameters of CEL diagnostic lines - the line id, ion name, wavelength, energy levels, and zone. the index locating the line in the main line list is filled in later.
!the routine also populates the list of ions which is then used to read in the relevant atomic data
implicit none
type(cel), dimension(82) :: ILs !todo: restore this to allocatable once I've worked out why assumed shape caused it to become undefined on entry to abundances
character(len=10), dimension(22) :: ionlist !todo: find a clever way of counting this instead of hard coding it if possible.
integer :: iint, iion, numberoflines
!debugging
#ifdef CO
print *,"subroutine: read_celdata"
#endif
Iint = 1
301 format(A11, 1X, A8, 1X, F7.2, 1X, A20,1X,A4,1X,A15)
open(201, file=trim(PREFIX)//"/share/neat/Ilines_levs", status='old')
read (201,*) numberoflines !number of lines to read in is given at the top of the file
! allocate (ILs(numberoflines)) todo: restore
Ils%name=' '
Ils%ion=' '
Ils%wavelength=0.d0
Ils%transition=' '
Ils%zone=' '
Ils%latextext=' '
Ils%location=0
do while (Iint .le. numberoflines)
read(201,301) ILs(Iint)%name, ILs(Iint)%ion, ILs(Iint)%wavelength, ILs(Iint)%transition ,ILs(Iint)%zone, ILs(Iint)%latextext!end condition breaks loop.
if(Iint .eq. 1) then
Iion = 1
Ionlist(iion) = ILs(Iint)%ion
elseif(ILs(Iint)%ion .ne. ILs(Iint - 1)%ion) then
Iion = iion + 1
Ionlist(iion) = ILs(Iint)%ion
endif
Iint = Iint + 1
enddo
Iint = Iint - 1 !count ends up one too high
close(201)
end subroutine read_celdata
!this fantastically ugly function gets the location of certain ions in the important ions array using their name as a key.
!April 2016: made it yet uglier so that it:
! - gets the ion's location in the CELs array
! - if the line is in the CEL array, then look up its dereddened flux in the main linelist array
!todo: check if we ever need the undereddened flux
real(kind=dp) function get_cel_flux(ionname, linelist, ILs)
implicit none
character(len=11) :: ionname
type(cel), dimension(:) :: ILs
type(line), dimension(:) :: linelist
integer :: i
!debugging
#ifdef CO
!print *,"function: get_cel_flux"
#endif
get_cel_flux=0.d0
do i = 1, size(ILs)
if(trim(ILs(i)%name) == trim(ionname))then
if (ILs(i)%location .gt. 0) then
get_cel_flux=linelist(ILs(i)%location)%int_dered
else
get_cel_flux=0.d0
endif
return
endif
enddo
! print *,"It's just a flesh wound. ion ",ionname," not found"
end function get_cel_flux
real(kind=dp) function get_cel_abundance(ionname, linelist, ILs)
!another ugly function to get an abundance for a cel
implicit none
character(len=11) :: ionname
type(cel), dimension(:) :: ILs
type(line), dimension(:) :: linelist
integer :: i
!debugging
#ifdef CO
!print *,"function: get_cel_abundance"
#endif
get_cel_abundance=0.d0
do i = 1, size(ILs)
if(trim(ILs(i)%name) == trim(ionname))then
if (ILs(i)%location .gt. 0) then
get_cel_abundance=linelist(ILs(i)%location)%abundance
else
get_cel_abundance=0.d0
endif
return
endif
enddo
end function get_cel_abundance
!this fantastically ugly function gets the location of certain ions in the important ions array using their name as a key.
integer function get_ion(ionname, ILs)
implicit none
character(len=11) :: ionname
type(cel), dimension(:) :: ILs
integer :: i
!debugging
#ifdef CO
print *,"subroutine: get_ion. ion=",ionname
#endif
do i = 1, size(ILs)
if(trim(ILs(i)%name) == trim(ionname))then
get_ion = i
return
endif
enddo
get_ion = 0
print *," Nudge Nudge, wink, wink error. Ion not found, say no more. ", ionname
call exit(1)
end function
!same as above for getting the location of ion within atomic data array. equally ugly.
integer function get_atomicdata(ionname, atomicdatatable)
implicit none
character(len=10) :: ionname
type(atomic_data), dimension(:) :: atomicdatatable
integer :: i
!debugging
#ifdef CO
!print *,"function: get_atomicdata"
#endif
do i = 1, size(atomicdatatable)
if(trim(atomicdatatable(i)%ion) == trim(ionname))then
get_atomicdata = i
return
endif
enddo
get_atomicdata = 0
print*, "My hovercraft is full of eels. Atomic data not found. ", ionname
end function
subroutine fix_blend(line1, line2, blendwavelength, linelist)
implicit none
type(line), dimension(:) :: linelist
real(kind=dp) :: line1, line2, blendwavelength,line2flux
integer :: location1, location2
#ifdef CO
print *,"subroutine: fix_blend"
#endif
location1 = get_line(line1,linelist)
location2 = get_line(line2,linelist)
if (location2 .gt. 0) then
line2flux = linelist(location2)%intensity
else
line2flux = 0.d0
endif
if ( (location1 .gt. 0 .and. location2 .eq. 0) .or. (location1 .gt. 0 .and. location2 .gt. 0 .and. line2flux .eq. 0.d0) ) then
linelist(location1)%wavelength = blendwavelength
print "(12X,A,F7.2,A,F7.2)","unresolved blend: changed wavelength ",line1," to ",blendwavelength
endif
end subroutine
!as above but to look up wavelengths in the main line list. only used immediately after line reading to fix some common blends
integer function get_line(wavelength,linelist)
implicit none
real(kind=dp) :: wavelength
type(line), dimension(:) :: linelist
integer :: i
!debugging
#ifdef CO
print *,"subroutine: get_line. wavelength=",wavelength
#endif
get_line = 0
do i = 1, size(linelist)
if(abs(linelist(i)%wavelength - wavelength) .lt. 0.005) then
get_line = i
return
endif
enddo
end function
subroutine get_cels(ILs, linelist)
!index the locations of CELs within the main line list
implicit none
type(cel), dimension(:) :: ILs
type(line), dimension(:) :: linelist
integer :: i, j
!debugging
#ifdef CO
print *,"subroutine: get_cels"
#endif
ILs%location=0
do i = 1, size(ILs)
do j = 1, size(linelist)
if(linelist(j)%wavelength .eq. ILs(i)%wavelength)then
ILs(i)%location = j
cycle
endif
enddo
enddo
end subroutine get_cels
subroutine get_H(H_Balmer, H_paschen, linelist)
!index the location of Balmer and Paschen lines in the main array
implicit none
integer, parameter :: dp = kind(1.d0)
integer, dimension(3:40), intent(out) :: H_balmer ! indexing starts at 3 so that it represents the upper level of the line
integer, dimension(4:39), intent(out) :: H_paschen ! indexing starts at 4 for the same reason
real(kind=dp), dimension(3:40) :: balmerwavelengths
real(kind=dp), dimension(4:39) :: paschenwavelengths
type(line), dimension(:) :: linelist
integer :: i,j
!debugging
#ifdef CO
print *,"subroutine: get_H"
#endif
balmerwavelengths = (/ 6562.77D0, 4861.33D0, 4340.47D0, 4101.74D0, 3970.07D0, 3889.05D0, 3835.38D0, 3797.90D0, 3770.63D0, 3750.15D0, 3734.37D0, 3721.94D0, 3711.97D0, 3703.85D0, 3697.15D0, 3691.55D0, 3686.83D0, 3682.81D0, 3679.35D0, 3676.36D0, 3673.76D0, 3671.48D0, 3669.46D0, 3667.68D0, 3666.10D0, 3664.68D0, 3663.40D0, 3662.26D0, 3661.22D0, 3660.28D0, 3659.42D0, 3658.64D0, 3657.92D0, 3657.27D0, 3656.66D0, 3656.11D0, 3655.59D0, 3655.12D0 /)
paschenwavelengths = (/ 18751.01d0, 12818.08d0, 10938.10d0, 10049.37d0, 9545.97d0, 9229.01d0, 9014.91d0, 8862.78d0, 8750.47d0, 8665.02d0, 8598.39d0, 8545.38d0, 8502.48d0, 8467.25d0, 8437.95d0, 8413.32d0, 8392.40d0, 8374.48d0, 8359.00d0, 8345.47d0, 8333.78d0, 8323.42d0, 8314.26d0, 8306.11d0, 8298.83d0, 8292.31d0, 8286.43d0, 8281.12d0, 8276.31d0, 8271.93d0, 8267.94d0, 8264.28d0, 8260.93d0, 8255.02d0, 8252.40d0, 8249.97d0 /)
H_balmer = 0
H_paschen = 0
do i=1,size(linelist)
do j=3,40
if (abs(linelist(i)%wavelength - balmerwavelengths(j)) .lt. 0.005) then
H_balmer(j)=i
linelist(i)%name="H I"
linelist(i)%latextext = "H~{\sc i}"
cycle
endif
enddo
enddo
do i=1,size(linelist)
do j=4,39
if (abs(linelist(i)%wavelength - paschenwavelengths(j)) .lt. 0.005) then
H_paschen(j)=i
linelist(i)%name="H I"
linelist(i)%latextext = "H~{\sc i}"
cycle
endif
enddo
enddo
end subroutine get_H
subroutine get_HeI(HeI_lines, linelist)
!index the locations of He I lines in the main linelist array
implicit none
integer, parameter :: dp = kind(1.d0)
integer, dimension(44), intent(out) :: HeI_lines
type(line), dimension(:) :: linelist
real(kind=dp), dimension(44) :: wavelengths
integer :: i, j
!debugging
#ifdef CO
print *,"subroutine: get_HeI"
#endif
wavelengths = (/ 2945.10D0,3188.74D0,3613.64D0,3888.65D0,3964.73D0,4026.21D0,4120.82D0,4387.93D0,4437.55D0,4471.50D0,4713.17D0,4921.93D0,5015.68D0,5047.74D0,5875.66D0,6678.16D0,7065.25D0,7281.35D0,9463.58D0,10830.25D0,11013.07D0,11969.06D0,12527.49D0,12755.69D0,12784.92D0,12790.50D0,12845.98D0,12968.43D0,12984.88D0,13411.69D0,15083.65D0,17002.40D0,18555.57D0,18685.33D0,18697.21D0,19089.36D0,19543.19D0,20424.97D0,20581.28D0,20601.76D0,21120.12D0,21132.03D0,21607.80D0,21617.01D0 /)
HeI_lines = 0
do i = 1, 44
do j = 1, size(linelist)
if(abs(linelist(j)%wavelength - wavelengths(i)) .lt. 0.005) then
Hei_lines(i) = j
linelist(j)%name="He I"
linelist(j)%latextext = "He~{\sc i}"
cycle
endif
enddo
enddo
end subroutine get_HeI
subroutine get_HeII(HeII_lines, linelist)
!index the location of He II lines (only 4686 at the moment) in the linelist array
implicit none
integer, parameter :: dp = kind(1.d0)
integer, dimension(20,2:6), intent(out) :: HeII_lines ! array indices represent quantum numbers
type(line), dimension(:) :: linelist
real(kind=dp), dimension(20,2:6) :: wavelengths
integer :: i, j, k
!debugging
#ifdef CO
print *,"subroutine: get_HeII"
#endif
wavelengths = 0.d0
wavelengths(3,2) = 1640.42
wavelengths(4,2) = 1215.13
wavelengths(5,2) = 1084.94
wavelengths(6,2) = 1025.27
wavelengths(4,3) = 4685.68
wavelengths(5,3) = 3203.10
wavelengths(6,3) = 2733.30
wavelengths(7,3) = 2511.20
wavelengths(8,3) = 2385.40
wavelengths(9,3) = 2306.19
wavelengths(10,3) = 2252.69
wavelengths(11,3) = 2214.67
wavelengths(12,3) = 2186.60
wavelengths(13,3) = 2165.25
wavelengths(14,3) = 2148.60
wavelengths(15,3) = 2135.35
wavelengths(16,3) = 2124.63
wavelengths(17,3) = 2115.82
wavelengths(18,3) = 2108.50
wavelengths(19,3) = 2102.35
wavelengths(20,3) = 2097.12
wavelengths(6,4) = 6560.10
wavelengths(7,4) = 5411.52
wavelengths(8,4) = 4859.32
wavelengths(9,4) = 4541.59
wavelengths(10,4) = 4338.67
wavelengths(11,4) = 4199.83
wavelengths(12,4) = 4100.04
wavelengths(13,4) = 4025.60
wavelengths(14,4) = 3968.43
wavelengths(15,4) = 3923.48
wavelengths(16,4) = 3887.44
wavelengths(17,4) = 3858.07
wavelengths(18,4) = 3833.80
wavelengths(19,4) = 3813.49
wavelengths(20,4) = 3796.33
wavelengths(8,5) = 9344.94
wavelengths(9,5) = 8236.79
wavelengths(10,5) = 7592.75
wavelengths(11,5) = 7177.52
wavelengths(12,5) = 6890.90
wavelengths(13,5) = 6683.20
wavelengths(14,5) = 6527.10
wavelengths(15,5) = 6406.38
wavelengths(16,5) = 6310.85
wavelengths(17,5) = 6233.82
wavelengths(18,5) = 6170.69
wavelengths(19,5) = 6118.26
wavelengths(20,5) = 6074.19
wavelengths(15,6) = 9762.15
wavelengths(16,6) = 9542.06
wavelengths(17,6) = 9367.03
wavelengths(18,6) = 9225.23
wavelengths(19,6) = 9108.54
wavelengths(20,6) = 9011.22
heii_lines = 0
do i = 2,6
do j= 1,20
do k = 1, size(linelist)
if(abs(linelist(k)%wavelength - wavelengths(j,i)) .lt. 0.005) then
Heii_lines(j,i) = k
linelist(k)%name="He II"
linelist(k)%latextext = "He~{\sc ii}"
cycle
endif
enddo
enddo
enddo
end subroutine get_HeII
character(len=11) function latextoplain(text)
!converts latex-formatted ion name from linelist%linedata to plain text
!eg [O~{\sc iii}] -> [O II]
implicit none
character(len=17) :: text,part1,part2
integer :: i
if (index(text,"~{\sc") .gt. 0) then
!123456789012
![O~\sc iii}]
part1=" "
part2=" "
part1=text(1:index(text,"~{\sc")-1)
part2=text(index(text,"~{\sc")+5:index(text,"}")-1)
do i=1,len(part2)
if (iachar(part2(i:i)).ge.iachar("a") .and. iachar(part2(i:i)).le.iachar("z")) then !convert to lower case
part2(i:i) = achar(iachar(part2(i:i))-32)
endif
enddo
latextoplain=trim(part1)//trim(part2)
else
latextoplain=text(1:11)
endif
end function
end module
module mod_atomic_read
use mod_atomicdata
private :: dp
integer, parameter :: dp = kind(1.d0)
contains
subroutine read_atomic_data(ion)
use mod_atomicdata
implicit none
type(atomic_data) :: ion
integer :: I,J,K,L,N,NCOMS,ID(2),JD(2),KP1,NLEV1,GX,ionl,dummy
character(len=1) :: comments(78)
character(len=10) :: ionname
character(len=128) :: filename
real(kind=dp) :: WN,AX,QX
!debugging
#ifdef CO
print *,"subroutine: read_atomic_data, ion=",ion%ion
#endif
id = 0
jd = 0
ionname = ion%ion
! print*,'Reading atomic data ion',ionname
ionl = index(ionname,' ') - 1
!get file name by removing [, " " and ] and converting to lower case
filename=""
i=1
j=1
do while (i .le. len(ionname))
if (iachar(ionname(i:i)).ge.iachar("A") .and. iachar(ionname(i:i)).le.iachar("Z")) then !convert to lower case
filename(j:j) = achar(iachar(ionname(i:i))+32)
j=j+1
elseif (ionname(i:i).ne."[".and.ionname(i:i).ne." ".and.ionname(i:i).ne."]") then !remove
filename(j:j)=ionname(i:i)
j=j+1
endif
i=i+1
enddo
filename = trim(PREFIX)//'/share/neat/'//trim(filename)//'.dat'
open(unit=1, status = 'old', file=filename,action='read')
!read # of comment lines and skip them
read(1,*)NCOMS
do I = 1,NCOMS
read(1,1003) comments
enddo
!read # levels and temps, then allocate arrays
read(1,*) ion%NLEVS,ion%NTEMPS
allocate(ion%labels(ion%nlevs))
allocate(ion%temps(ion%ntemps))
allocate(ion%roott(ion%ntemps))
allocate(ion%G(ion%nlevs))
allocate(ion%waveno(ion%nlevs))
allocate(ion%col_str(ion%ntemps,ion%nlevs,ion%nlevs))
allocate(ion%A_coeffs(ion%nlevs,ion%nlevs))
ion%col_str = 0d0
ion%A_coeffs = 0d0
ion%G = 0
ion%waveno= 0d0
ion%temps=0d0
ion%roott=0d0
!read levels and temperatures
do I = 1,ion%NLEVS
read(1,1002) ion%labels(I)
enddo
do I = 1,ion%NTEMPS
read(1,*) ion%temps(I)
enddo
read(1,*) dummy
!read collision strengths
QX=1
K = 1
! print*,'Reading collision strengths'
DO while (QX .gt. 0)
read(1,*) ID(2), JD(2), QX
IF (QX.eq.0.D0) exit
if (ID(2) .eq. 0) then
ID(2) = ID(1)
K = K + 1
else
ID(1) = ID(2)
K = 1
endif
if (JD(2) .eq. 0) then
JD(2) = JD(1)
else
JD(1) = JD(2)
endif
if (QX .ne. 0.D0) then
I = ID(2)
J = JD(2)
! print*,k,i,j
ion%col_str(K,I,J) = QX
endif
enddo
NLEV1 = ion%NLEVS-1
DO K = 1,NLEV1
KP1 = K + 1
DO L = KP1, ion%NLEVS
read (1,*) I, J, AX !read transition probabilities
ion%A_coeffs(J,I) = AX
enddo
enddo
DO I=1,ion%NLEVS
read(1,*) N, GX, WN !read wavenumbers
ion%G(N) = GX
ion%waveno(N) = WN
enddo
close(unit=1)
1002 format(A20)
1003 format(78A1)
end subroutine read_atomic_data
!read in tables of helium emissivities from Porter et al.
!http://cdsads.u-strasbg.fr/abs/2012MNRAS.425L..28P
subroutine read_porter(heidata)
implicit none
real(kind=dp), dimension(21,14,44) :: heidata
integer :: i,j,tpos,npos,io
real(kind=dp), dimension(46) :: temp
!debugging
#ifdef CO
print *,"subroutine: read_porter"
#endif
!read data
open(100, file=trim(PREFIX)//'/share/neat/RHei_porter2012.dat', iostat=IO, status='old')
! read in the data
do i=1,294
read (100,*) temp
tpos=nint((temp(1)/1000)-4)
npos=nint(temp(2))
do j=1,44
heidata(tpos,npos,j)=temp(j+2)
enddo
enddo
close(100)
end subroutine read_porter
subroutine read_smits(heidata)
implicit none
real(kind=dp), dimension(3,6,44) :: heidata
integer :: i,j,k,io
real(kind=dp), dimension(18) :: temp
!debugging
#ifdef CO
print *,"subroutine: read_smits"
#endif
!read data
!fitted fourth order polynomials to the Smits 1996 emissivities
!the data file contains the coefficients for log(ne)=2,4,6
open(100, file=trim(PREFIX)//'/share/neat/RHei_smits1996_coeffs.dat', iostat=IO, status='old')
! read in the data
do i=1,44
read (100,*) temp
do j=1,3
do k=1,6
heidata(j,k,i)=temp(k+((j-1)*6))
enddo
enddo
enddo
close(100)
end subroutine read_smits
end module mod_atomic_read
����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/helium.f90�����������������������������������������������������������������������0000664�0000000�0000000�00000057512�12714613141�0016213�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������module mod_helium
use mod_abundtypes
implicit none
private :: dp
integer, parameter :: dp = kind(1.d0)
real(kind=dp), dimension(:,:,:,:), allocatable :: heiidata
real(kind=dp), dimension(:), allocatable :: temperatures
integer :: ntemps, ndens, nlevs
contains
subroutine get_heii_abund(te, ne, IHeII4686, heiiabund)
implicit none
integer, parameter :: dp = kind(1.d0)
real(kind=dp) :: A4686,TE,NE,IHeII4686,heiiabund
!debugging
#ifdef CO
print *,"subroutine: get_heii_abund"
#endif
A4686=10.**(GAMM4861(TE,NE)-GAMM4686(TE,NE))
heiiabund=IHeII4686/100.*A4686
end subroutine get_heii_abund
subroutine get_hei_porter(linelist,Te, ne, he_lines, heidata, Heiabund, weight4471, weight5876, weight6678)
use mod_abundtypes
IMPLICIT NONE
real(kind=dp) :: te, ne
real(kind=dp) :: AB4471,AB5876,AB6678,heiabund
real(kind=dp) :: weight4471, weight5876, weight6678 ! weights for abundance determination
type(line), dimension(:) :: linelist
integer, dimension(44) :: he_lines
real(kind=dp), dimension(21,14,44), intent(in) :: heidata
real(kind=dp), dimension(44) :: emissivities
integer :: i
!debugging
#ifdef CO
print *,"subroutine: get_hei_porter. Te=",Te,", ne=",ne,",weights=",weight4471, weight5876, weight6678
#endif
! data is for the following lines, in this order: 2945.10,3188.74,3613.64,3888.65,3964.73,4026.21,4120.82,4387.93,4437.55,4471.50,4713.17,4921.93,5015.68,5047.74,5875.66,6678.16,7065.25,7281.35,9463.58,10830.25,11013.07,11969.06,12527.49,12755.69,12784.92,12790.50,12845.98,12968.43,12984.88,13411.69,15083.65,17002.40,18555.57,18685.33,18697.21,19089.36,19543.19,20424.97,20581.28,20601.76,21120.12,21132.03,21607.80,21617.01 /)
do i = 1,44
call get_emissivity_porter(te,ne, i, emissivities(i), heidata)
if (He_lines(i).gt.0) then
linelist(He_lines(i))%abundance = linelist(He_lines(i))%int_dered/100. * 10.**(GAMM4861(TE,NE)-emissivities(i))
endif
enddo
if (He_lines(10).gt.0) then
AB4471 = linelist(He_lines(10))%abundance
else
AB4471 = 0.d0
weight4471 = 0.d0
endif
if (He_lines(15).gt.0) then
AB5876 = linelist(He_lines(15))%abundance
else
AB5876 = 0.d0
weight5876 = 0.d0
endif
if (He_lines(16).gt.0) then
AB6678 = linelist(He_lines(16))%abundance
else
AB6678 = 0.d0
weight6678 = 0.d0
endif
if (weight4471+weight5876+weight6678.gt.0.0) then
heiabund = ((weight4471*AB4471) + (weight5876*AB5876) + (weight6678*AB6678)) / (weight4471 + weight5876 + weight6678)
else
heiabund = 0.D0
endif
end subroutine get_hei_porter
subroutine get_emissivity_porter(te, ne, line, emissivity, heidata)
implicit none
integer, parameter :: dp = kind(1.d0)
real(kind=dp), intent(in) :: te, ne
real(kind=dp) :: testart, nestart, logne, te_copied
real(kind=dp) :: interp_factor_te, interp_factor_ne, interp_t1, interp_t2, emissivity
real(kind=dp), dimension(21,14,44), intent(in) :: heidata
integer :: i,j,line
!debugging
#ifdef CO
print "(A,F8.0,A,F8.0)"," subroutine: get_emissivity_porter. te=",te,", ne=",ne
#endif
! local variables. ne needs to be logarithmic, input is linear
te_copied=te
logne=log10(ne)
!do bilinear interpolation of the log values
!find starting values
testart=25000.
nestart=15.
!find temperature box
i=floor((te-4000)/1000.)
testart=1000.*floor(te/1000.)
!find density box
j=floor(logne)
nestart=floor(logne)
!now we have the array positions in i and j and the values in nestart and testart
!check if we are within the Porter limits of 500010) only
where (H_balmer(10:25) .gt. 0)
ratios = linelist(H_balmer(10:25))%int_dered/linelist(H_Balmer(4))%int_dered
elsewhere
ratios = 0.d0
endwhere
densities=0.d0
!allocate the search array. emissivities array has dimensions of temperature, density, level 1, level 2
!search array just has dimensions of density, level 1, level 2
allocate(searcharray(size(hidata,2),size(hidata,3),size(hidata,4)))
!now find the temperature
do i=1,ntemps
if (medtemp .lt. temperatures(i)) then
exit
endif
enddo
!interpolate linearly between temperatures to get line ratios with density at specified temperature
!if temperature is outside data limits, it is just set to the limit
!lower limit is 500K, upper is 30000K
if (medtemp .lt. temperatures(1) .or. medtemp .gt. temperatures(size(temperatures))) then
searcharray(:,:,:)=hidata(i,:,:,:)
else
interp_t=(medtemp-temperatures(i-1))/(temperatures(i)-temperatures(i-1))
searcharray(:,:,:)=hidata(i-1,:,:,:)+interp_t*(hidata(i,:,:,:)-hidata(i,:,:,:))
endif
!now go through H_Balmer from 10 to 25, calculate the density for each line ratio, store it
!intrat data only goes up to n=25
do H=10,25
if (H_Balmer(H) .gt. 0) then !line is present, calculate a density
if (ratios(H) .lt. (searcharray(1,H,2)/searcharray(1,4,2))) then
densities(H) = 2.
elseif (ratios(H) .gt. (searcharray(ndens,H,2)/searcharray(ndens,4,2))) then
densities(H) = 8.
else !search for the value
do j=1,ndens-1
r1=searcharray(j,H,2)/searcharray(j,4,2)
r2=searcharray(j+1,H,2)/searcharray(j+1,4,2)
if (ratios(H) .gt. r1 .and. ratios(H) .lt. r2) then
densities(H)=j+1+(ratios(H)-r1)/(r2-r1)
endif
enddo
endif
endif
enddo
!now we have an array with all the densities implied by the ratios. Derive a flux weighted value
do i=10,25
if (densities(i).gt.0.d0) then
density=density+linelist(H_Balmer(i))%weight*densities(i)
weight=weight+linelist(H_Balmer(i))%weight
endif
enddo
if (weight .gt. 0.d0) then
density=10**(density/weight)
else
density=0.d0
endif
!check if lower limit, Storey and Hummer go down to 100cm-3
if (density .lt. 100. .and. density .ne. 0.d0) then
density = 100.d0
endif
!deallocate search array
deallocate(searcharray)
end subroutine balmer_densities
subroutine paschen_densities(linelist,H_Paschen,medtemp,density)
! computed using ratios of Paschen lines to Hbeta
! will change to P9, checking if it is observed
implicit none
integer, parameter :: dp = kind(1.d0)
integer, dimension(4:39),intent(in) :: H_Paschen
type(line), dimension(:), intent(in) :: linelist
real(kind=dp), dimension(10:25) :: ratios,densities
real(kind=dp), dimension(:,:,:), allocatable :: searcharray
real(kind=dp) :: density, interp_t, weight
real(kind=dp), intent(in) :: medtemp
integer :: i,j !counters
real(kind=dp) :: r1, r2
integer :: H ! temporary, which line to look at
!debugging
#ifdef CO
print *,"subroutine: paschendensities"
#endif
density=0.d0
weight=0.d0
!H_Paschen indexing is such that entry 4 contains P4, etc
!allocate arrays to store values, high order lines (n>10) only
!todo: this will be wrong if spectrum is not normalised to Hb=100
!should check for this
where (H_paschen(10:25) .gt. 0)
ratios = linelist(H_paschen(10:25))%int_dered/100.d0
elsewhere
ratios = 0.d0
endwhere
densities=0.d0
!allocate the search array. emissivities array has dimensions of temperature, density, level 1, level 2
!search array just has dimensions of density, level 1, level 2
allocate(searcharray(size(hidata,2),size(hidata,3),size(hidata,4)))
!now find the temperature
do i=1,ntemps
if (medtemp .lt. temperatures(i)) then
exit
endif
enddo
!interpolate linearly between temperatures to get line ratios with density at specified temperature
!if temperature is outside data limits, it is just set to the limit
!lower limit is 500K, upper is 30000K
if (medtemp .lt. temperatures(1) .or. medtemp .gt. temperatures(size(temperatures))) then
searcharray(:,:,:)=hidata(i,:,:,:)
else
interp_t=(medtemp-temperatures(i-1))/(temperatures(i)-temperatures(i-1))
searcharray(:,:,:)=hidata(i-1,:,:,:)+interp_t*(hidata(i,:,:,:)-hidata(i,:,:,:))
endif
!now go through H_Paschen from 10 to 25, calculate the density for each line ratio, store it
!intrat data only goes up to n=25
do H=10,25
if (H_Paschen(H) .gt. 0) then !line is present, calculate a density
if (ratios(H) .lt. (searcharray(1,H,3)/searcharray(1,4,2))) then
densities(H) = 2.
elseif (ratios(H) .gt. (searcharray(ndens,H,3)/searcharray(ndens,4,2))) then
densities(H) = 8.
else !search for the value
do j=1,ndens-1
r1=searcharray(j,H,3)/searcharray(j,4,2)
r2=searcharray(j+1,H,3)/searcharray(j+1,4,2)
if (ratios(H) .gt. r1 .and. ratios(H) .lt. r2) then
densities(H)=j+1+(ratios(H)-r1)/(r2-r1)
endif
enddo
endif
endif
enddo
!now we have an array with all the densities implied by the ratios. Derive a flux weighted value
do i=10,25
if (densities(i).gt.0.d0) then
density=density+linelist(H_Paschen(i))%weight*densities(i)
weight=weight+linelist(H_Paschen(i))%weight
endif
enddo
if (weight .gt. 0.d0) then
density=10**(density/weight)
else
density=0.d0
endif
!check if lower limit, Storey and Hummer go down to 100cm-3
if (density .lt. 100. .and. density .ne. 0.d0) then
density = 100.d0
endif
!deallocate search array
deallocate(searcharray)
end subroutine paschen_densities
end module mod_hydrogen
���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/linefinder.f90�������������������������������������������������������������������0000664�0000000�0000000�00000014354�12714613141�0017044�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������module mod_linefinder
contains
subroutine linefinder(linelist, listlength)
use mod_abundtypes
use mod_quicksort
implicit none
type xcorrarray
real(kind=dp) :: restwavelength
real(kind=dp) :: observedwavelength
integer :: match ! 0 if the reference line is not observed, 1 if it is
end type xcorrarray
type neat_line
real(kind=dp) :: wavelength
character(len=20) :: ion
end type neat_line
type(neat_line), dimension(:), allocatable :: neatlines
type(xcorrarray), dimension(10) :: xcorr_array
real(kind=dp), dimension(2001) :: xcorr
integer, intent(in) :: listlength
type(line), dimension(listlength) :: linelist
type(line), dimension(listlength) :: linelist_copy
real(kind=dp), dimension(20) :: linelist_compare
integer :: I, J, n_neatlines, IO, assign_1, assign_2, count
real(kind=dp) :: temp_wave, diff, shift, rms
character(len=1) :: null
character(len=5) :: temp_ion1, temp_ion2
!debugging
#ifdef CO
print *,"subroutine: linefinder"
#endif
xcorr = 0.D0
xcorr_array%restwavelength = 0.D0
xcorr_array%observedwavelength = 0.D0
xcorr_array%match = 0
!algorithm:
!1. read NEAT line list in
I = 1
open(100, file=trim(PREFIX)//'/share/neat/complete_line_list', iostat=IO, status='old')
do while (IO .ge. 0)
read(100,"(A200)",end=101) null
I = I + 1
enddo
101 n_neatlines=I-1
!then allocate and read
allocate (neatlines(n_neatlines))
rewind (100)
do I=1,n_neatlines
read(100,*,end=102) temp_wave, null, temp_ion1, temp_ion2
neatlines(i)%wavelength = temp_wave
neatlines(i)%ion = temp_ion1//temp_ion2
enddo
102 print *
close(100)
!first, find shift
!use these lines for cross correlation - H I, He I, OIII and ArIII as they will almost always be present in spectra covering their wavelengths
xcorr_array%restwavelength = (/4101.74, 4340.47, 4471.50, 4861.33, 5006.84, 5875.66, 6562.77, 6678.16, 7065.25, 7751.43/)
! find the 20 strongest lines in the observed line list which have wavelengths within the range of reference lines
linelist_copy = linelist
! first, remove lines outside the range of reference lines
do i=1,listlength
if (linelist_copy(i)%wavelength .lt. minval(xcorr_array%restwavelength)-10 .or. linelist_copy(i)%wavelength .gt. maxval(xcorr_array%restwavelength)+10) then
linelist_copy(i)%intensity = 0.D0
endif
enddo
! then, copy across the 20 strongest lines
do i=1,20
!copy wavelength of line with highest intensity
linelist_compare(i)=linelist_copy(maxloc(linelist_copy%intensity,1))%wavelength
!replace that line with an intensity of zero so that we can repeat and get the next strongest
linelist_copy(maxloc(linelist_copy%intensity))%intensity = 0.D0
enddo
!sort into wavelength order
call qsort(linelist_compare)
!find nearest observed line within maximum shift range of the reference lines
do i=1,10
if (minval(abs(linelist_compare - xcorr_array(i)%restwavelength)) .lt. 10) then
xcorr_array(i)%observedwavelength = linelist_compare(minloc(abs(linelist_compare - xcorr_array(i)%restwavelength),1))
xcorr_array(i)%match = 1
endif
enddo
!calculate cross correlation function
!find closest observed line to each rest line for a given shift, calculate sum
!of differences as means of quantifying the match over all lines
xcorr = 0.D0
do i=-1000,1000
do j=1,10
xcorr(i+1001)=xcorr(i+1001)+(abs(xcorr_array(j)%observedwavelength - xcorr_array(j)%restwavelength - 0.01*dble(i)) * dble(xcorr_array(j)%match))
enddo
enddo
shift=(minloc(xcorr,1)-1001)*0.01
linelist_compare = linelist_compare - shift
!now calculate the rms scatter between rest wavelengths and observed after shift
!this value can then be used as a tolerance when assigning line IDs
rms= 0.D0
count=0
do j=1,10
rms = rms + (xcorr_array(j)%match*(xcorr_array(j)%observedwavelength - shift - xcorr_array(j)%restwavelength)**2)
count = count + xcorr_array(j)%match
enddo
if (count .gt. 0) then
rms = (rms/count)**0.5
endif
if (rms .lt. 0.05) then
rms = 0.05
endif
print "(I2,A25)",count," reference lines detected"
print "(A55,F5.3)"," Average offset between observed and rest wavelengths: ",shift
print "(A75,F6.3)"," RMS difference between rest wavelengths and shifted observed wavelengths: ",rms
print *
print *,"The following line IDs are suggested:"
print *
print *,"Obs rest ID offset"
print *,"-------------------------------------"
count=0
do I=1,listlength
diff = 1.e10
do j=1,n_neatlines
if (abs(linelist(i)%wavelength-shift-neatlines(j)%wavelength).lt.diff) then
diff = abs(linelist(i)%wavelength-shift-neatlines(j)%wavelength)
assign_1 = i
assign_2 = j
endif
enddo
if (diff .le. rms) then
print "(F8.2,A4,F8.2,1X,A10,F6.3)",linelist(assign_1)%wavelength," -> ",neatlines(assign_2), diff
! write (100,105) neatlines(assign_2)%wavelength, linelist(assign_1)%flux, linelist(assign_1)%uncertainty
linelist(assign_1)%wavelength = neatlines(assign_2)%wavelength
count=count+1
elseif (diff .gt. rms .and. diff .le. 2*rms) then
print "(F8.2,A4,F8.2,1X,A10,F6.3)",linelist(assign_1)%wavelength," -> ",neatlines(assign_2), diff
! write (100,105) neatlines(assign_2)%wavelength, linelist(assign_1)%flux, linelist(assign_1)%uncertainty
linelist(assign_1)%wavelength = neatlines(assign_2)%wavelength
count=count+1
elseif (diff .gt. 2*rms .and. diff .le. 3*rms) then
print "(F8.2,A4,F8.2,1X,A10,F6.3)",linelist(assign_1)%wavelength," -> ",neatlines(assign_2), diff
! write (100,105) neatlines(assign_2)%wavelength, linelist(assign_1)%flux, linelist(assign_1)%uncertainty
linelist(assign_1)%wavelength = neatlines(assign_2)%wavelength
count=count+1
else
! write (100,105) linelist(assign_1)%wavelength, linelist(assign_1)%flux, linelist(assign_1)%uncertainty
print "(F8.2,A30,F8.2,1X,A10,A21)",linelist(assign_1)%wavelength," unrecognised. nearest known: ",neatlines(assign_2)
endif
enddo
print *,"-------------------------------------"
print *
print *,count," lines identified; ",listlength-count," unidentified"
print *,"Wavelengths of identified lines changed as necessary"
end subroutine linefinder
end module mod_linefinder
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/neat.f90�������������������������������������������������������������������������0000664�0000000�0000000�00000244571�12714613141�0015662�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������! NEAT, the nebular abundance analysis tool
! (C) 2006- Roger Wesson, Dave Stock, Peter Scicluna
! NEAT incorporates aspects of several codes developed over decades at UCL:
! equib, by I. Howarth and S. Adams, updated significantly by B. Ercolano
! MIDAS scripts written by X-W. Liu for calculating recombination line abundances
! It also uses the quicksort algorithm as implemented in F90 by Alberto Ramos
! This program is free software: you can redistribute it and/or modify
! it under the terms of the GNU General Public License as published by
! the Free Software Foundation, either version 3 of the License, or
! (at your option) any later version.
! This program is distributed in the hope that it will be useful,
! but WITHOUT ANY WARRANTY; without even the implied warranty of
! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
! GNU General Public License for more details.
! You should have received a copy of the GNU General Public License
! along with this program. If not, see .
program neat
use mod_abundtypes
use mod_resultarrays
use mod_extinction
use mod_quicksort
use mod_abundIO
use mod_atomicdata
use mod_atomic_read
use mod_recombination_lines
use mod_linefinder
use mod_hydrogen
use mod_helium
use mod_oii_diagnostics
use mod_weights
implicit none
character :: switch_ext !switch for extinction laws
character :: switch_he !switch for helium atomic data
character :: switch_icf !switch for which ICF scheme to use
integer :: I, j, runs, Narg !runs = number of runs for randomiser
!input options
character(len=2048), dimension(:), allocatable :: options
character(len=2048) :: commandline
!file reading variables
logical :: file_exists
logical :: identifylines
type(line),dimension(:), allocatable :: linelist
type(line),dimension(:), allocatable :: linelist_original
type(line),dimension(:,:), allocatable :: all_linelists
character(len=512) :: filename,configfile
character(len=1) :: blank
integer :: listlength, ncols, errstat
real(kind=dp) :: normalise
!results and result processing
type(resultarray), dimension(:), allocatable :: all_results
type(resultarray), dimension(1) :: iteration_result
real(kind=dp), dimension(:), allocatable :: quantity_result
real(kind=dp), dimension(:,:), allocatable :: resultprocessingarray
character(len=40), dimension(:,:), allocatable :: resultprocessingtext
!atomic data
character(len=10), dimension(22) :: ionlist !list of ion names
integer :: iion !# of ions in Ilines
integer :: maxlevs,maxtemps
type(atomic_data),allocatable :: atomicdata(:)
real(kind=dp), dimension(:,:,:), allocatable :: heidata
!line indexing arrays - these contain the location within the main array of the lines of interest, plus levels and zones for CELs
integer, dimension(3:40) :: H_Balmer
integer, dimension(4:39) :: H_Paschen
integer, dimension(44) :: HeI_lines
integer, dimension(20,2:6) :: HeII_lines
type(cel), dimension(82) :: ILs !todo: work out why this becomes undefined on entry if its shape is assumed
!extinction
logical :: calculate_extinction=.true.
real(kind=dp) :: meanextinction, R
!RP effect switch
logical :: norp=.true.
!diagnostics
type(weightingarray) :: weights
!binning and uncertainties
real(kind=dp), dimension(3) :: uncertainty_array=0d0
type(arraycount), dimension (:), allocatable :: binned_quantity_result
logical :: unusual
integer :: verbosity,nbins,nperbin
!OpenMP
integer :: omp_get_num_threads
!diagnostic array
real(kind=dp), dimension(6) :: diagnostic_array
!output formats
character(len=35) :: extinction_format, diagnostic_format, diagnostic_ratio_format, abundances_format, adf_format
configfile=trim(PREFIX)//"/share/neat/default.cfg"
iion=22 ! number of ions for which we can calculate abundances
! todo: calculate this automatically
! and replace it in calls to subroutines with getting the array size within the subroutine
!multiple output formats defined as variables so they can be passed to
!the printout subroutine
extinction_format = "(X,A,F9.3,SP,F9.3,F9.3,S)"
diagnostic_format = "(X,A,F9.1,SP,F9.1,F9.1,S)"
diagnostic_ratio_format = "(X,A,F9.3,SP,F9.3,F9.3,S)"
abundances_format = "(X,A,ES14.3,SP,ES14.3,ES14.3,S)"
adf_format = "(X,A,F8.2,SP,F8.2,F8.2,S)"
print *,"NEAT, the Nebular Empirical Analysis Tool"
if (len(VERSION).gt.0) then
print *,"version ",VERSION
else
print *,"version 2.0"
endif
#ifdef BUILDDATE
print *,"compiled on ",BUILDDATE
#endif
print *
Narg = IARGC() !count input arguments
if (Narg .eq. 0) then
print *,"Syntax: neat [option1 value1] [option2 value2] .. [optionx valuex]"
print *,"type man neat for help"
stop
endif
call get_command(commandline)
allocate (options(Narg))
do i=1,Narg
call getarg(i,options(i))
enddo
! set defaults
runs=1
switch_ext="S" !Howarth 1983 Galactic law
switch_he="P" !Porter 2012 data
switch_icf="D" !DI14 ICF
filename=""
meanextinction=0.D0
diagnostic_array=0.D0
verbosity=3
R=3.1
identifylines=.false.
nbins=25
normalise = 0.d0
! start the logging output to terminal
print *,gettime(),"starting code"
print *,gettime(),"command line: ",trim(commandline)
! process command line arguments
do i=1,Narg
if ((trim(options(i))=="-n" .or. trim(options(i))=="--n-iterations") .and. (i+1) .le. Narg) then
if (runs .ne. 20000) then
read (options(i+1),*) runs
endif
endif
if ((trim(options(i))=="-i" .or. trim(options(i))=="--input") .and. (i+1) .le. Narg) then
filename=trim(options(i+1))
endif
if ((trim(options(i))=="-e" .or. trim(options(i))=="--extinction-law") .and. (i+1) .le. Narg) then
if (trim(options(i+1)) == "LMC")then
switch_ext = "H"
elseif (trim(options(i+1)) == "CCM")then
switch_ext = "C"
elseif (trim(options(i+1)) == "SMC")then
switch_ext = "P"
elseif (trim(options(i+1)) == "Fitz")then
switch_ext = "F"
endif
endif
if (trim(options(i))=="-c" .and. (i+1) .le. Narg) then
read (options(i+1),*) meanextinction
calculate_extinction = .false.
endif
if (trim(options(i))=="-nelow" .and. (i+1) .le. Narg) then
read (options(i+1),*) diagnostic_array(1)
endif
if (trim(options(i))=="-nemed" .and. (i+1) .le. Narg) then
read (options(i+1),*) diagnostic_array(2)
endif
if (trim(options(i))=="-nehigh" .and. (i+1) .le. Narg) then
read (options(i+1),*) diagnostic_array(3)
endif
if (trim(options(i))=="-telow" .and. (i+1) .le. Narg) then
read (options(i+1),*) diagnostic_array(4)
endif
if (trim(options(i))=="-temed" .and. (i+1) .le. Narg) then
read (options(i+1),*) diagnostic_array(5)
endif
if (trim(options(i))=="-tehigh" .and. (i+1) .le. Narg) then
read (options(i+1),*) diagnostic_array(6)
endif
if ((trim(options(i))=="-he" .or. trim(options(i))=="--helium-data") .and. (i+1) .le. Narg) then
if (trim(options(i+1))=="P12") then
switch_he="P"
endif
endif
if (trim(options(i))=="-u" .or. trim(options(i))=="--uncertainties") then
runs=10000
endif
if ((trim(options(i))=="-icf" .or. trim(options(i))=="--ionisation-correction-scheme") .and. (i+1) .le. Narg) then
if (trim(options(i+1))=="PT92") then
switch_icf="P"
elseif (trim(options(i+1))=="KB94") then
switch_icf="K"
endif
endif
if ((trim(options(i))=="-v" .or. trim(options(i))=="--verbosity") .and. (i+1) .le. Narg) then
read (options(i+1),*) verbosity
if (verbosity .lt. 1 .or. verbosity .gt. 3) then
print *,gettime(),"warning: verbosity outside allowed range of 1-3. Set to 3."
verbosity=3
endif
endif
if (trim(options(i))=="-id" .or. trim(options(i))=="--identify") then
identifylines=.true.
endif
if ((trim(options(i))=="-R") .and. (i+1) .le. Narg) then
read (options(i+1),*) R
endif
if ((trim(options(i))=="-nbins") .and. (i+1).le. Narg) then
read (options(i+1),*) nbins
endif
if (trim(options(i))=="-rp") then
norp=.false.
endif
if ((trim(options(i))=="-cf" .or. trim(options(i))=="--configuration-file") .and. (i+1) .le. Narg) then
configfile=trim(options(i+1))
endif
! to be fully implemented:
! -R : R (default 3.1) - only used with CCM at the moment
! -b : batch mode
enddo
if (Narg .eq. 1) then
filename=trim(options(1))
endif
if (filename=="") then
print *,gettime(),"error: No input file specified"
call exit(1)
endif
inquire(file=filename, exist=file_exists) ! see if the input file is present
if (.not. file_exists) then
print *,gettime(),"error: input file ",trim(filename)," does not exist"
call exit(1)
endif
inquire(file=configfile, exist=file_exists) ! see if the configuration file is present
if (.not. file_exists) then
print *,gettime(),"error: input file ",trim(configfile)," does not exist"
call exit(1)
endif
!check number of runs
if (runs .gt. 1 .and. runs .lt. 5000) print *,gettime(),"warning: number of iterations is low. At least 5000 is recommended for good sampling of probability distributions"
if (runs .gt. 1) nperbin=runs/nbins
if (mod(runs,nbins) .gt. 0 .and. runs .gt. 1) then
print*,gettime(),': error: number of iterations does not divide exactly by number of bins'
print*,' Please set number of iterations to an exact multiple of ',nbins
print*,' or modify the number of bins using -nbins'
call exit(1)
endif
deallocate(options)
! read in the line list, allocate original linelist array
call read_linelist(filename,linelist,listlength,ncols,errstat)
! error status was incremented by 1, 2 or 4 depending on error so btest function determines which errors were encountered
! test the two fatal errors first, then the warning.
if (btest(errstat,0)) then
print *,gettime(),"error: line list reading failed"
print *," This can happen if it doesn't have three columns"
call exit(1)
elseif (btest(errstat,1)) then
print*, gettime(),"cheese shop error - no inputs"
call exit(1)
elseif (btest(errstat,2) .and. runs .gt. 1) then !only relevant if uncertainties were requested
print*, gettime(),"warning: no uncertainties given, arbitrarily assuming 10 per cent for everything"
else
print "(X,A,A,A,A,I3,A)", gettime(),"line list file ",trim(filename)," read successfully (",listlength," lines)"
endif
allocate (linelist_original(listlength))
! run line identifier if required
if (identifylines) then
print *,gettime()," : running line finder"
print *,"---------------------------------"
call linefinder(linelist, listlength)
print *
print *,gettime()," : line finder finished"
print *,gettime()," : WARNING!!! The line finding algorithm is intended as an aid only and is not designed to be highly robust"
print *,gettime()," : check your line list very carefully for potentially wrongly identified lines!!"
print *,"---------------------------------"
print *,"Are these line IDs ok? (y/n)"
read (5,*) blank
if (blank .eq. "n" .or. blank .eq. "N") then
print *,gettime()," : analysis cancelled."
call exit(1)
endif
endif
! normalise to Hbeta
if (minval(abs(linelist(:)%wavelength - 4861.33)) .lt. 0.001) then
normalise = 100.d0/linelist(minloc(abs(linelist(:)%wavelength - 4861.33),1))%intensity
else
print *,gettime(),"error: no H beta detected. No further analysis possible"
call exit(1)
endif
linelist%intensity = linelist%intensity * normalise
linelist%int_err = linelist%int_err * normalise
! check for and remove negative line fluxes and uncertainties
if (minval(linelist%intensity) .lt. 0.) then
where (linelist%intensity .lt. 0)
linelist%intensity = 0.D0
endwhere
print *,gettime(),"warning: negative line fluxes set to zero"
endif
if (minval(linelist%int_err) .lt. 0.) then
where (linelist%int_err .lt. 0)
linelist%int_err = abs(linelist%int_err)
endwhere
print *,gettime(),"warning: negative flux uncertainties converted to positive"
endif
print *
! select reddening law, get flambda from functions if one of the five, otherwise read from file
if (switch_ext == "S") then
print *,gettime(),"using Howarth (1983) galactic extinction law"
elseif (switch_ext == "H") then
print *,gettime(),"using Howarth (1983) LMC extinction law"
elseif (switch_ext == "C") then
print *,gettime(),"using CCM (1989) galactic extinction law"
elseif (switch_ext == "P") then
print *,gettime(),"using Prevot et al. (1984) SMC extinction law"
elseif (switch_ext == "F") then
print *,gettime(),"using Fitzpatrick (1990) galactic extinction law"
endif
call get_flambda(linelist, switch_ext, R)
if (switch_he == "S") then
print *,gettime(),"using Smits (1996) He I emissivities"
else
print *,gettime(),"using Porter et al. (2012) He I emissivities"
endif
if (switch_ICF == "K") then
print *,gettime(),"using Kingsburgh & Barlow (1994) ICF"
elseif (switch_ICF == "D") then
print *,gettime(),"using Delgado-Inglada et al. (2014) ICF"
else
print *,gettime(),"using Peimbert et al. (1992) ICF"
endif
print *
! read the CEL data
call read_celdata(ILs,ionlist)
! do line identifying here
!first find H & He lines, and CELs
call get_H(H_Balmer, H_Paschen, linelist)
call get_Hei(Hei_lines, linelist)
call get_Heii(Heii_lines, linelist)
call get_cels(ILs,linelist)
! read in the weights to be used in the analysis.
print *,gettime(),"reading in abundance analysis weights from ",trim(configfile)
call setweights(configfile,weights,linelist,ILs,H_Balmer,H_Paschen,HeII_lines)
!CELs read, can now read in atomic data
print *,gettime(),"reading atomic data from ",trim(PREFIX),"/share/neat"
allocate(atomicdata(iion))
do I=1,iion
atomicdata(I)%ion = ionlist(I)
call read_atomic_data(atomicdata(I))
enddo
!read ORL data
call read_orl_data
!read hydrogen emissivities
print *,gettime(),"reading H emissivities"
call read_hydrogen
!read helium emissivities
print *,gettime(),"reading He I emissivities"
if (switch_he .eq. "P") then
allocate(heidata(21,14,44))
heidata = 0.D0
call read_porter(heidata)
elseif (switch_he .eq. "S") then
allocate(heidata(3,6,44))
heidata = 0.D0
call read_smits(heidata)
endif
print *,gettime(),"reading He II emissivities"
call read_heii
!read oii data for diagnostics
print *,gettime(),"reading OII diagnostics data"
call read_oii_diagnosticdata
!find maximum #levels and temperatures - pass to equib to reduce footprint
maxlevs = maxval(atomicdata%nlevs)
maxtemps = maxval(atomicdata%ntemps)
!now check number of iterations. If 1, line list is fine as is. If more than one, randomize the fluxes
allocate(all_results(runs))
if(runs == 1)then !calculates abundances without uncertainties
print *
print *,gettime(),"doing abundance calculations"
call abundances(linelist, listlength, iteration_result, meanextinction, calculate_extinction, ILs, diagnostic_array,iion,atomicdata,maxlevs,maxtemps, heidata, switch_he, switch_icf, H_Balmer, H_Paschen, HeI_lines, HeII_lines, weights)
all_results(1)=iteration_result(1) ! copy the iteration result to all_results to simplify the writing out of results later
print *,gettime(),"finished abundance calculations"
else if(runs .gt. 1)then
!save unrandomised line list
linelist_original = linelist
call init_random_seed()!sets seed for randomiser
!allocate array to store all line info
allocate(all_linelists(size(linelist),runs))
!main loop
!$OMP PARALLEL default(firstprivate) shared(all_linelists,listlength,norp,calculate_extinction,ILs,diagnostic_array,iion,atomicdata,maxlevs,maxtemps,switch_he,switch_icf,all_results)
!$OMP MASTER
print *
if (omp_get_num_threads().gt.1) then
print "(X,A10,X,A,I2,A)",gettime(),"starting Monte Carlo calculations, using ",omp_get_num_threads()," processors"
else
print "(X,A10,X,A)",gettime(),"starting Monte Carlo calculations"
endif
print *,gettime(),"completed ",0,"%"
!$OMP END MASTER
!$OMP DO schedule(dynamic)
do I=1,runs
if ( (10.0*dble(i)/dble(runs)) == int(10*i/runs) ) print *,gettime(),"completed ",100*i/runs,"%"
! print*, "iteration ", i, "of", runs
call randomizer(linelist, listlength, norp)
call abundances(linelist, listlength, iteration_result, meanextinction, calculate_extinction, ILs, diagnostic_array,iion,atomicdata,maxlevs,maxtemps, heidata, switch_he, switch_icf, H_Balmer, H_Paschen, HeI_lines, HeII_lines, weights)
!store all line and derived quantity in arrays
all_linelists(:,i)=linelist
all_results(i)=iteration_result(1)
!restore the unrandomized line list ready for the next iteration
linelist = linelist_original
enddo
!$OMP END DO
!$OMP END PARALLEL
else
print*, gettime(),"error: I didn't want to be a barber anyway. I wanted to be... a lumberjack! Also, a positive number of runs helps.."
call exit(1)
endif
!now write all the lines to line list files, plain text and latex
!linelist first
print *
print *,gettime(),"Writing line list"
allocate(quantity_result(runs))
quantity_result=0d0
open (650,file=trim(filename)//"_linelist", status='replace', access='sequential', action='write')
open (651,file=trim(filename)//"_linelist.tex", status='replace', access='sequential', action='write')
write (650,*) "Lambda Ion F(line) I(line) Abundance"
write (651,*) "\begin{longtable}{lrlrlllllll}"
write (651,*) "\hline"
write (651,*) "$ \lambda $ & Ion & $F \left( \lambda \right) $ && $I \left( \lambda \right) $ & Ion & Multiplet & Lower term & Upper term & g$_1$ & g$_2$ \\"
write (651,*) "\hline"
if (runs .gt. 1) then
do j=1, listlength
!observed wavelength if known
if (ncols .eq. 4) then
write (650,"(X,F7.2,X)", advance='no') all_linelists(j,1)%wavelength_observed
write (651,"(X,F7.2,' & ')", advance='no') all_linelists(j,1)%wavelength_observed
endif
!rest wavelength, ion name for plain text file
write (650,"(X,F7.2,X,A11)", advance='no') all_linelists(j,1)%wavelength,all_linelists(j,1)%name
write (651,"(X,F7.2,' & ',A15,' & ')", advance='no') all_linelists(j,1)%wavelength
!line flux
if (all_linelists(j,1)%intensity .eq. 0.d0 .and. all_linelists(j,1)%blend_intensity .eq. 0.d0) then
write (650,"(A)", advance='no') " * "
write (651,"(A)", advance='no') " * & &"
else
write (650,"(F8.3,A,F7.2,3X)", advance='no') all_linelists(j,1)%intensity," +-",all_linelists(j,1)%int_err
write (651,"(F8.3,'& $\pm$',F7.2, '&')", advance='no') all_linelists(j,1)%intensity,all_linelists(j,1)%int_err
endif
!dereddened flux
quantity_result = all_linelists(j,:)%int_dered
call get_uncertainties(quantity_result, binned_quantity_result, uncertainty_array, unusual,nbins)
if (all_linelists(j,1)%intensity .ne. 0.d0 .or. all_linelists(j,1)%blend_intensity .ne. 0.d0) then
if (uncertainty_array(1) .ne. uncertainty_array(3)) then
write (650,"(F8.3,SP,F7.2,SP,F7.2)", advance='no') uncertainty_array(2),uncertainty_array(1),-uncertainty_array(3)
write (651,"(F8.3,'& $^{',SP,F7.2,'}_{',SP,F7.2,'}$')", advance='no') uncertainty_array(2),uncertainty_array(1),-uncertainty_array(3)
else
write (650,"(F8.3,A,F7.2,4X)", advance='no') uncertainty_array(2)," +-",uncertainty_array(1)
write (651,"(F8.3,'& $\pm$',F7.2)", advance='no') uncertainty_array(2),uncertainty_array(1)
endif
else
write (650,"(A)", advance='no') " * "
write (651,"(A)", advance='no') " * & "
endif
! transition data
! write (650,*)
write (651,*) all_linelists(j,1)%linedata, "\\"
!abundance - write out if there is an abundance for the line, don't write
!anything except a line break if there is no abundance for the line.
!todo: add an option to choose whether or not to put abundances in the line list table
quantity_result = all_linelists(j,:)%abundance
call get_uncertainties(quantity_result, binned_quantity_result, uncertainty_array, unusual,nbins)
if (uncertainty_array(2) .ne. 0.D0) then
if (uncertainty_array(1) .ne. uncertainty_array(3)) then
write (650,"(ES10.2,SP,ES10.2,SP,ES10.2)") uncertainty_array(2),uncertainty_array(1),-uncertainty_array(3)
! write (651,"(' & ${',A,'}$ & $^{+',A,'}_{',A,'}$ \\')") trim(latex_number(uncertainty_array(2))),trim(latex_number(uncertainty_array(1))),trim(latex_number(-uncertainty_array(3)))
else
write (650,"(ES10.2,A,ES10.2)") uncertainty_array(2)," +-",uncertainty_array(1)
! write (651,"(' & $',A,'$ & $\pm',A,'$\\')") trim(latex_number(uncertainty_array(2))),trim(latex_number(uncertainty_array(1)))
endif
else
write (650,*)
! write (651,*) "\\"
endif
enddo
else ! runs == 1, no uncertainties to write out
do i=1,listlength
if (ncols .eq. 4) then
write (650,"(X,F7.2,X)", advance='no') linelist(i)%wavelength_observed
write (651,"(X,F7.2,' & ')", advance='no') linelist(i)%wavelength_observed
endif
if (linelist(i)%intensity .ne. 0.d0) then
if (linelist(i)%abundance .gt. 0.0) then
write (650,"(X,F7.2,X,A11,F8.3,X,F8.3,X,ES14.3)") linelist(i)%wavelength,linelist(i)%name,linelist(i)%intensity,linelist(i)%int_dered, linelist(i)%abundance
write (651,"(X,F7.2,X,'&',X,F8.3,X,'&',X,F8.3,X,A,'\\')") linelist(i)%wavelength,linelist(i)%intensity,linelist(i)%int_dered,linelist(i)%linedata
else
write (650,"(X,F7.2,X,A11,F8.3,X,F8.3)") linelist(i)%wavelength,linelist(i)%name,linelist(i)%intensity,linelist(i)%int_dered
write (651,"(X,F7.2,X,'&',X,F8.3,X,'&',X,F8.3,X,A,'\\')") linelist(i)%wavelength,linelist(i)%intensity,linelist(i)%int_dered,linelist(i)%linedata
endif
else
write (650,"(X,F7.2,X,A11,A7,X,A7)") linelist(i)%wavelength,linelist(i)%name,"* ","* "
write (651,"(X,F7.2,X,'&',X,A7,X,'&',X,A7,X,A,'\\')") linelist(i)%wavelength,"* ","* ",linelist(i)%linedata
endif
enddo
endif
write (651,*) "\hline"
!write (651,*) "\caption{}"
write (651,*) "\label{tab:",trim(filename)//"_linelist}"
write (651,*) "\end{longtable}"
close(650)
close(651)
print *,gettime(),"Linelist written to files:"
print *," ",trim(filename),"_linelist"
print *," ",trim(filename),"_linelist.tex"
!now write out the summary files and all the binned data
print *,gettime(),"Writing summary files"
!first, define arrays with links to all the data that needs processing.
!extinction, diagnostics, cel abundances, orl abundances, strong line
!abundances, adfs
allocate(resultprocessingarray(157,runs))
resultprocessingarray=0d0
allocate(resultprocessingtext(157,4))
!extinction
resultprocessingarray(1,:) = all_results%mean_cHb
resultprocessingtext(1,:) = (/"c(Hb) ","c(H$\beta)$: ", extinction_format, "mean_chb "/)
!diagnostics
!low density
resultprocessingarray(2,:) = all_results%oii_density
resultprocessingtext(2,:) = (/"[OII] density ","{}[O~{\sc ii}] density: ", diagnostic_format, "density_oii "/)
resultprocessingarray(3,:) = all_results%oii_density_ratio
resultprocessingtext(3,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_oii_ratio "/)
resultprocessingarray(4,:) = all_results%SII_density
resultprocessingtext(4,:) = (/"[SII] density ","{}[S~{\sc ii}] density: ", diagnostic_format, "density_sii "/)
resultprocessingarray(5,:) = all_results%sii_density_ratio
resultprocessingtext(5,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_sii_ratio "/)
resultprocessingarray(6,:) = all_results%low_density
resultprocessingtext(6,:) = (/"Low ionisation density ","Low ionisation density: ", diagnostic_format, "density_low "/)
!low temperature
resultprocessingarray(7,:) = all_results%oii_temp
resultprocessingtext(7,:) = (/"[OII] temperature ","{}[O~{\sc ii}] temperature ", diagnostic_format, "temp_oii "/)
resultprocessingarray(8,:) = all_results%oii_temp_ratio
resultprocessingtext(8,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_oii_ratio "/)
resultprocessingarray(9,:) = all_results%SII_temp
resultprocessingtext(9,:) = (/"[SII] temperature ","{}[S~{\sc ii}] temperature ", diagnostic_format, "temp_sii "/)
resultprocessingarray(10,:) = all_results%sii_temp_ratio
resultprocessingtext(10,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_sii_ratio "/)
resultprocessingarray(11,:) = all_results%NII_temp
resultprocessingtext(11,:) = (/"[NII] temperature ","{}[N~{\sc ii}] temperature ", diagnostic_format, "temp_nii "/)
resultprocessingarray(12,:) = all_results%nii_temp_ratio
resultprocessingtext(12,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_nii_ratio "/)
resultprocessingarray(13,:) = all_results%OI_temp
resultprocessingtext(13,:) = (/"[OI] temperature ","{}[O~{\sc i}] temperature ", diagnostic_format, "temp_oi "/)
resultprocessingarray(14,:) = all_results%oi_temp_ratio
resultprocessingtext(14,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_oi_ratio "/)
resultprocessingarray(15,:) = all_results%CI_temp
resultprocessingtext(15,:) = (/"[CI] temperature ","{}[C~{\sc i}] temperature ", diagnostic_format, "temp_ci "/)
resultprocessingarray(16,:) = all_results%ci_temp_ratio
resultprocessingtext(16,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_ci_ratio "/)
resultprocessingarray(17,:) = all_results%low_temp
resultprocessingtext(17,:) = (/"Low ionisation temperature ","Low ionisation temperature ", diagnostic_format, "temp_low "/)
!medium density
resultprocessingarray(18,:) = all_results%cliii_density
resultprocessingtext(18,:) = (/"[ClIII] density ","{}[Cl~{\sc iii}] density: ", diagnostic_format, "density_cliii "/)
resultprocessingarray(19,:) = all_results%cliii_density_ratio
resultprocessingtext(19,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_cliii_ratio "/)
resultprocessingarray(20,:) = all_results%ArIV_density
resultprocessingtext(20,:) = (/"[ArIV] density ","{}[Ar~{\sc iv}] density: ", diagnostic_format, "density_ariv "/)
resultprocessingarray(21,:) = all_results%ariv_density_ratio
resultprocessingtext(21,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_sii_ratio "/)
resultprocessingarray(22,:) = all_results%CIII_density
resultprocessingtext(22,:) = (/"[CIII] density ","{}[C~{\sc iii}] density ", diagnostic_format, "density_ciii "/)
resultprocessingarray(23,:) = all_results%ciii_density_ratio
resultprocessingtext(23,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_ciii_ratio "/)
resultprocessingarray(24,:) = all_results%OIII_IR_density
resultprocessingtext(24,:) = (/"[OIII] IR density ","{}[O~{\sc iii}] IR density ", diagnostic_format, "density_oiii_ir "/)
resultprocessingarray(25,:) = all_results%oiii_ir_density_ratio
resultprocessingtext(25,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_oiii_ir_ratio "/)
resultprocessingarray(26,:) = all_results%SIII_IR_density
resultprocessingtext(26,:) = (/"[SIII] IR density ","{}[S~{\sc iii}] IR density ", diagnostic_format, "density_siii_ir "/)
resultprocessingarray(27,:) = all_results%siii_ir_density_ratio
resultprocessingtext(27,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_siii_ir_ratio "/)
resultprocessingarray(28,:) = all_results%ArIII_IR_density
resultprocessingtext(28,:) = (/"[ArIII] IR density ","{}[Ar~{\sc iii}] IR density ", diagnostic_format, "density_ariii_ir "/)
resultprocessingarray(29,:) = all_results%ariii_ir_density_ratio
resultprocessingtext(29,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_ariii_ir_ratio "/)
resultprocessingarray(30,:) = all_results%NeIII_IR_density
resultprocessingtext(30,:) = (/"[NeIII] IR density ","{}[Ne~{\sc iii}] IR density ", diagnostic_format, "density_neiii_ir "/)
resultprocessingarray(31,:) = all_results%neiii_ir_density_ratio
resultprocessingtext(31,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_neiii_ir_ratio "/)
resultprocessingarray(32,:) = all_results%med_density
resultprocessingtext(32,:) = (/"Medium ionisation density ","Medium ionisation density ", diagnostic_format, "density_med "/)
! medium temperature
resultprocessingarray(33,:) = all_results%OIII_temp
resultprocessingtext(33,:) = (/"[OIII] temperature ","{}[O~{\sc iii}] temperature ", diagnostic_format, "temp_oiii "/)
resultprocessingarray(34,:) = all_results%oiii_temp_ratio
resultprocessingtext(34,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_oiii_ratio "/)
resultprocessingarray(35,:) = all_results%OIII_IR_temp
resultprocessingtext(35,:) = (/"[OIII] IR temperature ","{}[O~{\sc iii}] IR temperature ", diagnostic_format, "temp_oiii_ir "/)
resultprocessingarray(36,:) = all_results%oiii_ir_temp_ratio
resultprocessingtext(36,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_oiii_ir_ratio "/)
resultprocessingarray(37,:) = all_results%OIII_UV_temp
resultprocessingtext(37,:) = (/"[OIII] UV temperature ","{}[O~{\sc iii}] UV temperature ", diagnostic_format, "temp_oiii_uv "/)
resultprocessingarray(38,:) = all_results%oiii_uv_temp_ratio
resultprocessingtext(38,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_oiii_uv_ratio "/)
resultprocessingarray(39,:) = all_results%NeIII_temp
resultprocessingtext(39,:) = (/"[NeIII] temperature ","{}[Ne~{\sc iii}] temperature ", diagnostic_format, "temp_neiii "/)
resultprocessingarray(40,:) = all_results%neiii_temp_ratio
resultprocessingtext(40,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_neiii_ratio "/)
resultprocessingarray(41,:) = all_results%NeIII_IR_temp
resultprocessingtext(41,:) = (/"[NeIII] IR temperature ","{}[Ne~{\sc iii}] IR temperature ", diagnostic_format, "temp_neiii_ir "/)
resultprocessingarray(42,:) = all_results%neiii_ir_temp_ratio
resultprocessingtext(42,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_neiii_ir_ratio "/)
resultprocessingarray(43,:) = all_results%ArIII_temp
resultprocessingtext(43,:) = (/"[ArIII] temperature ","{}[Ar~{\sc iii}] temperature ", diagnostic_format, "temp_ariii "/)
resultprocessingarray(44,:) = all_results%ariii_temp_ratio
resultprocessingtext(44,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_ariii_ratio "/)
resultprocessingarray(45,:) = all_results%SIII_temp
resultprocessingtext(45,:) = (/"[SIII] temperature ","{}[S~{\sc iii}] temperature ", diagnostic_format, "temp_siii "/)
resultprocessingarray(46,:) = all_results%siii_temp_ratio
resultprocessingtext(46,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_siii_ratio "/)
resultprocessingarray(47,:) = all_results%med_temp
resultprocessingtext(47,:) = (/"Medium ionisation temperature ","Medium ionisation temperature ", diagnostic_format, "temp_med "/)
!high density
resultprocessingarray(48,:) = all_results%neiv_density
resultprocessingtext(48,:) = (/"[NeIV] density ","{}[Ne~{\sc iv}] density ", diagnostic_format, "density_neiv "/)
resultprocessingarray(49,:) = all_results%neiv_density_ratio
resultprocessingtext(49,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "density_neiv_ratio "/)
resultprocessingarray(50,:) = all_results%high_density
resultprocessingtext(50,:) = (/"High ionisation density ","High ionisation density ", diagnostic_format, "density_high "/)
!high temperature
resultprocessingarray(51,:) = all_results%ArV_temp
resultprocessingtext(51,:) = (/"[ArV] temperature ","{}[Ar~{\sc v}] temperature ", diagnostic_format, "temp_arv "/)
resultprocessingarray(52,:) = all_results%arv_temp_ratio
resultprocessingtext(52,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_arv_ratio "/)
resultprocessingarray(53,:) = all_results%NeV_temp
resultprocessingtext(53,:) = (/"[NeV] temperature ","{}[Ne~{\sc v}] temperature ", diagnostic_format, "temp_nev "/)
resultprocessingarray(54,:) = all_results%nev_temp_ratio
resultprocessingtext(54,:) = (/"Ratio ","Ratio ", diagnostic_ratio_format, "temp_nev_ratio "/)
resultprocessingarray(55,:) = all_results%high_temp
resultprocessingtext(55,:) = (/"High temperature ","High temperature ", diagnostic_format, "temp_high "/)
!Recombination line diagnostics
resultprocessingarray(56,:) = all_results%Balmer_jump_temp
resultprocessingtext(56,:) = (/"Balmer jump temperature ","Balmer jump temperature ", diagnostic_format, "temp_balmerjump "/)
resultprocessingarray(57,:) = all_results%Paschen_jump_temp
resultprocessingtext(57,:) = (/"Paschen jump temperature ","Paschen jump temperature ", diagnostic_format, "temp_paschenjump "/)
resultprocessingarray(58,:) = all_results%Balmerdec_density
resultprocessingtext(58,:) = (/"Balmer decrement density ","Balmer decrement density ", diagnostic_format, "density_balmerdec "/)
resultprocessingarray(59,:) = all_results%Paschendec_density
resultprocessingtext(59,:) = (/"Paschen decrement density ","Paschen decrement density ", diagnostic_format, "density_paschendec "/)
resultprocessingarray(60,:) = all_results%te_5876_4471
resultprocessingtext(60,:) = (/"He I temperature (5876/4471) ","He temperature (5876/4471) ", diagnostic_format, "temp_he_5876_4471 "/)
resultprocessingarray(61,:) = all_results%ratio_5876_4471
resultprocessingtext(61,:) = (/"5876/4471 ratio ","5876/4471 ratio ", diagnostic_ratio_format, "temp_he_5876_4471_ratio "/)
resultprocessingarray(62,:) = all_results%te_6678_4471
resultprocessingtext(62,:) = (/"He temperature (6678/4471) ","He temperature (6678/4471) ", diagnostic_format, "temp_he_6678_4471 "/)
resultprocessingarray(63,:) = all_results%ratio_6678_4471
resultprocessingtext(63,:) = (/"6678/4471 ratio ","6678/4471 ratio ", diagnostic_ratio_format, "temp_he_6678_4471_ratio "/)
resultprocessingarray(64,:) = all_results%oii_te
resultprocessingtext(64,:) = (/"OII temperature ","OII temperature ", diagnostic_format, "temp_oiirls "/)
resultprocessingarray(65,:) = all_results%oii_ne
resultprocessingtext(65,:) = (/"OII density ","OII density ", diagnostic_format, "density_oiirls "/)
! recombination contribution to CELs
resultprocessingarray(66,:) = all_results%nii5754recCEL
resultprocessingtext(66,:) = (/"NII 5754 assuming N2+ from CELs ","N~{\sc ii}5754$_R$ (N$^{2+}$ CELs) ", adf_format, "recombination_5754_CELabund "/)
resultprocessingarray(67,:) = all_results%nii5754recRL
resultprocessingtext(67,:) = (/"NII 5754 assuming N2+ from RLs ","N~{\sc ii}5754$_R$ (N$^{2+}$ CELs) ", adf_format, "recombination_5754_RLabund "/)
resultprocessingarray(68,:) = all_results%oii7325recCEL
resultprocessingtext(68,:) = (/"OII 7320,30 assuming O2+ from CELs ","O~{\sc ii}7325$_R$ (O$^{2+}$ CELs) ", adf_format, "recombination_7325_CELabund "/)
resultprocessingarray(69,:) = all_results%oii7325recRL
resultprocessingtext(69,:) = (/"OII 7320,30 assuming O2+ from RLs ","O~{\sc ii}7325$_R$ (O$^{2+}$ CELs) ", adf_format, "recombination_7325_RLabund "/)
resultprocessingarray(70,:) = all_results%oiii4363recCEL
resultprocessingtext(70,:) = (/"OIII 4363 assuming O3+ from CELs ","O~{\sc ii}4363$_R$ (O$^{3+}$ CELs) ", adf_format, "recombination_4363_CELabund "/)
resultprocessingarray(71,:) = all_results%oiii4363recRL
resultprocessingtext(71,:) = (/"OIII 4363 assuming O3+ from RLs ","O~{\sc ii}4363$_R$ (O$^{3+}$ CELs) ", adf_format, "recombination_4363_RLabund "/)
!CEL abundances
resultprocessingarray(72,:) = all_results%NC_abund_CEL
resultprocessingtext(72,:) = (/"C0/H ","C$^{0}$/H ", abundances_format, "abund_cel_nc "/)
resultprocessingarray(73,:) = all_results%cii_abund_CEL
resultprocessingtext(73,:) = (/"C+/H ","C$^{+}$/H ", abundances_format, "abund_cel_cii "/)
resultprocessingarray(74,:) = all_results%ciii_abund_CEL
resultprocessingtext(74,:) = (/"C2+/H ","C$^{2+}$/H ", abundances_format, "abund_cel_ciii "/)
resultprocessingarray(75,:) = all_results%civ_abund_CEL
resultprocessingtext(75,:) = (/"C3+/H ","C$^{3+}$/H ", abundances_format, "abund_cel_civ "/)
resultprocessingarray(76,:) = all_results%c_icf_CEL
resultprocessingtext(76,:) = (/"icf(C) ","icf(C) ", abundances_format, "icf_cel_c "/)
resultprocessingarray(77,:) = all_results%C_abund_CEL
resultprocessingtext(77,:) = (/"C/H ","C$^{}$/H ", abundances_format, "abund_cel_c "/)
resultprocessingarray(78,:) = all_results%nii_abund_CEL
resultprocessingtext(78,:) = (/"N+/H ","N$^{+}$/H ", abundances_format, "abund_cel_nii "/)
resultprocessingarray(79,:) = all_results%niii_abund_CEL
resultprocessingtext(79,:) = (/"N2+/H ","N$^{2+}$/H ", abundances_format, "abund_cel_niii "/)
resultprocessingarray(80,:) = all_results%niv_abund_CEL
resultprocessingtext(80,:) = (/"N3+/H ","N$^{3+}$/H ", abundances_format, "abund_cel_niv "/)
resultprocessingarray(81,:) = all_results%nv_abund_CEL
resultprocessingtext(81,:) = (/"N4+/H ","N$^{4+}$/H ", abundances_format, "abund_cel_nv "/)
resultprocessingarray(82,:) = all_results%n_icf_CEL
resultprocessingtext(82,:) = (/"icf(N) ","icf(N) ", abundances_format, "icf_cel_n "/)
resultprocessingarray(83,:) = all_results%N_abund_CEL
resultprocessingtext(83,:) = (/"N/H ","N$^{}$/H ", abundances_format, "abund_cel_n "/)
resultprocessingarray(84,:) = all_results%NO_abund_CEL
resultprocessingtext(84,:) = (/"O0/H ","O$^{0}$/H ", abundances_format, "abund_cel_no "/)
resultprocessingarray(85,:) = all_results%Oii_abund_CEL
resultprocessingtext(85,:) = (/"O+/H ","O$^{+}$/H ", abundances_format, "abund_cel_oii "/)
resultprocessingarray(86,:) = all_results%Oiii_abund_CEL
resultprocessingtext(86,:) = (/"O2+/H ","O$^{2+}$/H ", abundances_format, "abund_cel_oiii "/)
resultprocessingarray(87,:) = all_results%Oiv_abund_CEL
resultprocessingtext(87,:) = (/"O3+/H ","O$^{3+}$/H ", abundances_format, "abund_cel_oiv "/)
resultprocessingarray(88,:) = all_results%o_icf_CEL
resultprocessingtext(88,:) = (/"icf(O) ","icf(O) ", abundances_format, "icf_cel_o "/)
resultprocessingarray(89,:) = all_results%O_abund_CEL
resultprocessingtext(89,:) = (/"O/H ","O$^{}$/H ", abundances_format, "abund_cel_o "/)
resultprocessingarray(90,:) = all_results%NeII_abund_CEL
resultprocessingtext(90,:) = (/"Ne+/H ","Ne$^{+}$/H ", abundances_format, "abund_cel_neii "/)
resultprocessingarray(91,:) = all_results%NeIII_abund_CEL
resultprocessingtext(91,:) = (/"Ne2+/H ","Ne$^{2+}$/H ", abundances_format, "abund_cel_neiii "/)
resultprocessingarray(92,:) = all_results%NeIV_abund_CEL
resultprocessingtext(92,:) = (/"Ne3+/H ","Ne$^{3+}$/H ", abundances_format, "abund_cel_neiv "/)
resultprocessingarray(93,:) = all_results%NeV_abund_CEL
resultprocessingtext(93,:) = (/"Ne4+/H ","Ne$^{4+}$/H ", abundances_format, "abund_cel_nev "/)
resultprocessingarray(94,:) = all_results%ne_icf_CEL
resultprocessingtext(94,:) = (/"icf(Ne) ","icf(Ne) ", abundances_format, "icf_cel_ne "/)
resultprocessingarray(95,:) = all_results%Ne_abund_CEL
resultprocessingtext(95,:) = (/"Ne/H ","Ne$^{}$/H ", abundances_format, "abund_cel_ne "/)
resultprocessingarray(96,:) = all_results%ArIII_abund_CEL
resultprocessingtext(96,:) = (/"Ar2+/H ","Ar$^{2+}$/H ", abundances_format, "abund_cel_ariii "/)
resultprocessingarray(97,:) = all_results%ArIV_abund_CEL
resultprocessingtext(97,:) = (/"Ar3+/H ","Ar$^{3+}$/H ", abundances_format, "abund_cel_ariv "/)
resultprocessingarray(98,:) = all_results%ArV_abund_CEL
resultprocessingtext(98,:) = (/"Ar4+/H ","Ar$^{4+}$/H ", abundances_format, "abund_cel_arv "/)
resultprocessingarray(99,:) = all_results%ar_icf_CEL
resultprocessingtext(99,:) = (/"icf(Ar) ","icf(Ar) ", abundances_format, "icf_cel_ar "/)
resultprocessingarray(100,:) = all_results%Ar_abund_CEL
resultprocessingtext(100,:) = (/"Ar/H ","Ar$^{}$/H ", abundances_format, "abund_cel_ar "/)
resultprocessingarray(101,:) = all_results%SII_abund_CEL
resultprocessingtext(101,:) = (/"S+/H ","S$^{+}$/H ", abundances_format, "abund_cel_sii "/)
resultprocessingarray(102,:) = all_results%SIII_abund_CEL
resultprocessingtext(102,:) = (/"S2+/H ","S$^{2+}$/H ", abundances_format, "abund_cel_siii "/)
resultprocessingarray(103,:) = all_results%s_icf_CEL
resultprocessingtext(103,:) = (/"icf(S) ","icf(S) ", abundances_format, "icf_cel_s "/)
resultprocessingarray(104,:) = all_results%S_abund_CEL
resultprocessingtext(104,:) = (/"S/H ","S$^{}$/H ", abundances_format, "abund_cel_s "/)
resultprocessingarray(105,:) = all_results%ClIII_abund_CEL
resultprocessingtext(105,:) = (/"Cl2+/H ","Cl$^{2+}$/H ", abundances_format, "abund_cel_cliii "/)
resultprocessingarray(106,:) = all_results%cl_icf_CEL
resultprocessingtext(106,:) = (/"icf(Cl) ","icf(Cl) ", abundances_format, "icf_cel_cl "/)
resultprocessingarray(107,:) = all_results%Cl_abund_CEL
resultprocessingtext(107,:) = (/"Cl/H ","Cl$^{}$/H ", abundances_format, "abund_cel_cl "/)
!ORL abundances
resultprocessingarray(108,:) = all_results%Hei_abund_ORL
resultprocessingtext(108,:) = (/"He+/H ","He$^{+}$/H ", abundances_format, "abund_orl_hei "/)
resultprocessingarray(109,:) = all_results%Heii_abund_ORL
resultprocessingtext(109,:) = (/"He2+/H ","He$^{2+}$/H ", abundances_format, "abund_orl_heii "/)
resultprocessingarray(110,:) = all_results%He_abund_ORL
resultprocessingtext(110,:) = (/"He/H ","He/H ", abundances_format, "abund_orl_he "/)
resultprocessingarray(111,:) = all_results%Cii_abund_ORL
resultprocessingtext(111,:) = (/"C2+/H ","C$^{2+}$/H ", abundances_format, "abund_orl_cii "/)
resultprocessingarray(112,:) = all_results%Ciii_abund_ORL
resultprocessingtext(112,:) = (/"C3+/H ","C$^{3+}$/H ", abundances_format, "abund_orl_ciii "/)
resultprocessingarray(113,:) = all_results%c_icf_ORL
resultprocessingtext(113,:) = (/"icf(C) ","icf(C) ", abundances_format, "icf_orl_c "/)
resultprocessingarray(114,:) = all_results%C_abund_ORL
resultprocessingtext(114,:) = (/"C/H ","C/H ", abundances_format, "abund_orl_c "/)
resultprocessingarray(115,:) = all_results%Nii_v3_abund_ORL
resultprocessingtext(115,:) = (/"N2+/H (V3) ","N$^{2+}$/H (V3) ", abundances_format, "abund_orl_nii_v3 "/)
resultprocessingarray(116,:) = all_results%Nii_v5_abund_ORL
resultprocessingtext(116,:) = (/"N2+/H (V5) ","N$^{2+}$/H (V5) ", abundances_format, "abund_orl_nii_v5 "/)
resultprocessingarray(117,:) = all_results%Nii_v8_abund_ORL
resultprocessingtext(117,:) = (/"N2+/H (V8) ","N$^{2+}$/H (V8) ", abundances_format, "abund_orl_nii_v8 "/)
resultprocessingarray(118,:) = all_results%Nii_v12_abund_ORL
resultprocessingtext(118,:) = (/"N2+/H (V12) ","N$^{2+}$/H (V12) ", abundances_format, "abund_orl_nii_v12 "/)
resultprocessingarray(119,:) = all_results%Nii_v20_abund_ORL
resultprocessingtext(119,:) = (/"N2+/H (V20) ","N$^{2+}$/H (V20) ", abundances_format, "abund_orl_nii_v20 "/)
resultprocessingarray(120,:) = all_results%Nii_v28_abund_ORL
resultprocessingtext(120,:) = (/"N2+/H (V28) ","N$^{2+}$/H (V28) ", abundances_format, "abund_orl_nii_v28 "/)
resultprocessingarray(121,:) = all_results%Nii_3d4f_abund_ORL
resultprocessingtext(121,:) = (/"N2+/H (3d-4f) ","N$^{2+}$/H (3d-4f) ", abundances_format, "abund_orl_nii_3d4f "/)
resultprocessingarray(122,:) = all_results%Nii_abund_ORL
resultprocessingtext(122,:) = (/"N2+/H ","N$^{2+}$/H ", abundances_format, "abund_orl_nii "/)
resultprocessingarray(123,:) = all_results%Niii_abund_ORL
resultprocessingtext(123,:) = (/"N3+/H ","N$^{3+}$/H ", abundances_format, "abund_orl_niii "/)
resultprocessingarray(124,:) = all_results%n_icf_ORL
resultprocessingtext(124,:) = (/"icf(N) ","icf(N) ", abundances_format, "icf_orl_n "/)
resultprocessingarray(125,:) = all_results%N_abund_ORL
resultprocessingtext(125,:) = (/"N/H ","N/H ", abundances_format, "abund_orl_n "/)
resultprocessingarray(126,:) = all_results%Oii_v1_abund_ORL
resultprocessingtext(126,:) = (/"O2+/H (V1) ","O$^{2+}$/H (V1) ", abundances_format, "abund_orl_oii_v1 "/)
resultprocessingarray(127,:) = all_results%Oii_v2_abund_ORL
resultprocessingtext(127,:) = (/"O2+/H (V2) ","O$^{2+}$/H (V2) ", abundances_format, "abund_orl_oii_v2 "/)
resultprocessingarray(128,:) = all_results%Oii_v5_abund_ORL
resultprocessingtext(128,:) = (/"O2+/H (V5) ","O$^{2+}$/H (V5) ", abundances_format, "abund_orl_oii_v5 "/)
resultprocessingarray(129,:) = all_results%Oii_v10_abund_ORL
resultprocessingtext(129,:) = (/"O2+/H (V10) ","O$^{2+}$/H (V10) ", abundances_format, "abund_orl_oii_v10 "/)
resultprocessingarray(130,:) = all_results%Oii_v11_abund_ORL
resultprocessingtext(130,:) = (/"O2+/H (V11) ","O$^{2+}$/H (V11) ", abundances_format, "abund_orl_oii_v11 "/)
resultprocessingarray(131,:) = all_results%Oii_v12_abund_ORL
resultprocessingtext(131,:) = (/"O2+/H (V12) ","O$^{2+}$/H (V12) ", abundances_format, "abund_orl_oii_v12 "/)
resultprocessingarray(132,:) = all_results%Oii_v19_abund_ORL
resultprocessingtext(132,:) = (/"O2+/H (V19) ","O$^{2+}$/H (V19) ", abundances_format, "abund_orl_oii_v19 "/)
resultprocessingarray(133,:) = all_results%Oii_v20_abund_ORL
resultprocessingtext(133,:) = (/"O2+/H (V20) ","O$^{2+}$/H (V20) ", abundances_format, "abund_orl_oii_v20 "/)
resultprocessingarray(134,:) = all_results%Oii_v25_abund_ORL
resultprocessingtext(134,:) = (/"O2+/H (V25) ","O$^{2+}$/H (V25) ", abundances_format, "abund_orl_oii_v25 "/)
resultprocessingarray(135,:) = all_results%Oii_v28_abund_ORL
resultprocessingtext(135,:) = (/"O2+/H (V28) ","O$^{2+}$/H (V28) ", abundances_format, "abund_orl_oii_v28 "/)
resultprocessingarray(136,:) = all_results%Oii_v33_abund_ORL
resultprocessingtext(136,:) = (/"O2+/H (V33) ","O$^{2+}$/H (V33) ", abundances_format, "abund_orl_oii_v33 "/)
resultprocessingarray(137,:) = all_results%Oii_3d4f_abund_ORL
resultprocessingtext(137,:) = (/"O2+/H (3d-4f) ","O$^{2+}$/H (3d-4f) ", abundances_format, "abund_orl_oii_3d4f "/)
resultprocessingarray(138,:) = all_results%Oii_abund_ORL
resultprocessingtext(138,:) = (/"O2+/H ","O$^{2+}$/H ", abundances_format, "abund_orl_oii "/)
resultprocessingarray(139,:) = all_results%O_icf_ORL
resultprocessingtext(139,:) = (/"icf(O) ","icf(O) ", abundances_format, "icf_orl_o "/)
resultprocessingarray(140,:) = all_results%O_abund_ORL
resultprocessingtext(140,:) = (/"O/H ","O/H ", abundances_format, "abund_orl_o "/)
resultprocessingarray(141,:) = all_results%Neii_abund_ORL
resultprocessingtext(141,:) = (/"Ne2+/H ","Ne$^{2+}$/H ", abundances_format, "abund_orl_neii "/)
resultprocessingarray(142,:) = all_results%ne_icf_ORL
resultprocessingtext(142,:) = (/"icf(Ne) ","icf(Ne) ", abundances_format, "icf_orl_ne "/)
resultprocessingarray(143,:) = all_results%Ne_abund_ORL
resultprocessingtext(143,:) = (/"Ne/H ","Ne/H ", abundances_format, "abund_orl_ne "/)
!strong line abundances
resultprocessingarray(144,:) = all_results%O_R23_upper
resultprocessingtext(144,:) = (/"O/H (R23 upper) ","O/H (R23 upper) ", abundances_format, "abund_o_r23_upper "/)
resultprocessingarray(145,:) = all_results%O_R23_lower
resultprocessingtext(145,:) = (/"O/H (R23 lower) ","O/H (R23 lower) ", abundances_format, "abund_o_r23_lower "/)
resultprocessingarray(146,:) = all_results%O_N2
resultprocessingtext(146,:) = (/"O/H (N2) ","O/H (N2) ", abundances_format, "abund_o_n2 "/)
resultprocessingarray(147,:) = all_results%O_O3N2
resultprocessingtext(147,:) = (/"O/H (O3N2) ","O/H (O3N2) ", abundances_format, "abund_o_o3n2 "/)
resultprocessingarray(148,:) = all_results%O_Ar3O3
resultprocessingtext(148,:) = (/"O/H (Ar3O3) ","O/H (Ar3O3) ", abundances_format, "abund_o_ar3o3 "/)
resultprocessingarray(149,:) = all_results%O_S3O3
resultprocessingtext(149,:) = (/"O/H (S3O3) ","O/H (S3O3) ", abundances_format, "abund_o_s3o3 "/)
!adfs
resultprocessingarray(150,:) = all_results%adf_o2plus
resultprocessingtext(150,:) = (/"adf (O2+/H) ","adf (O$^{2+}$/H) ", adf_format, "adf_o2plus "/)
resultprocessingarray(151,:) = all_results%adf_o
resultprocessingtext(151,:) = (/"adf (O/H) ","adf (O/H) ", adf_format, "adf_o "/)
resultprocessingarray(152,:) = all_results%adf_n2plus
resultprocessingtext(152,:) = (/"adf (N2+/H) ","adf (N$^{2+}$/H) ", adf_format, "adf_n2plus "/)
resultprocessingarray(153,:) = all_results%adf_n
resultprocessingtext(153,:) = (/"adf (N/H) ","adf (N/H) ", adf_format, "adf_n "/)
resultprocessingarray(154,:) = all_results%adf_c2plus
resultprocessingtext(154,:) = (/"adf (C2+/H) ","adf (C$^{2+}$/H) ", adf_format, "adf_c2plus "/)
resultprocessingarray(155,:) = all_results%adf_c
resultprocessingtext(155,:) = (/"adf (C/H) ","adf (C/H) ", adf_format, "adf_c "/)
resultprocessingarray(156,:) = all_results%adf_ne2plus
resultprocessingtext(156,:) = (/"adf (Ne2+/H) ","adf (Ne$^{2+}$/H) ", adf_format, "adf_ne2plus "/)
resultprocessingarray(157,:) = all_results%adf_ne
resultprocessingtext(157,:) = (/"adf (Ne/H) ","adf (Ne/H) ", adf_format, "adf_ne "/)
!open the files and write the headers
open (650,file=trim(filename)//"_results", status='replace', access='sequential', action='write')
open (651,file=trim(filename)//"_results.tex", status='replace', access='sequential', action='write')
write (650,*) "NEAT (nebular empirical analysis tool)"
write (650,*) "======================================"
write (650,*)
write (650,*) "Analysis of file ",trim(filename)
write (650,*) "Command line: ",trim(commandline)
write (650,*)
write (651,*) "\noindent{\Large {\sc neat} (nebular empirical analysis tool)}"
write (651,*) "\hrule"
write (651,*) "\vspace{0.3cm}"
write (651,*) "\noindent Analysis of file {\tt ",trim(filename),"}\newline"
write (651,*) "\noindent Command line: {\tt ",trim(commandline),"}\newline"
write (651,*) "\begin{longtable}[l]{ll}"
!next, loop through the results, processing and printing
do j=1,157
! here we put some if statements to put things into conveniently separate bits
if (j .eq. 1) then
write (650,"(/A,/A/)") "Extinction","=========="
write (651,*) "\multicolumn{2}{l}{Extinction}\\ \hline"
elseif (j .eq. 2) then
write (650,"(/A,/A)") "Diagnostics","==========="
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Diagnostics}\\ \hline"
write (650,"(/A,/A/)") "Low ionisation densities","-----------"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Low ionisation densities}\\ \hline"
elseif (j .eq. 7) then
write (650,"(/A,/A/)") "Low ionisation temperatures","-----------"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Low ionisation temperatures}\\ \hline"
elseif (j .eq. 18) then
write (650,"(/A,/A/)") "Medium ionisation densities","-----------"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Medium ionisation densities}\\ \hline"
elseif (j .eq. 33) then
write (650,"(/A,/A/)") "Medium ionisation temperatures","-----------"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Medium ionisation temperatures}\\ \hline"
elseif (j .eq. 48) then
write (650,"(/A,/A/)") "High ionisation densities","-----------"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{High ionisation densities}\\ \hline"
elseif (j .eq. 51) then
write (650,"(/A,/A/)") "High ionisation temperatures","-----------"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{High ionisation temperatures}\\ \hline"
elseif (j .eq. 56) then
write (650,"(/A,/A/)") "Recombination line diagnostics","-----------"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Recombination line diagnostics}\\ \hline"
elseif (j .eq. 66) then
write (650,"(/A,/A/)") "Recombination contribution to CELs (%)","-----------"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Recombination contribution to CELs (\%)}\\ \hline"
elseif (j .eq. 72) then
write (650,"(/A,/A/)") "CEL abundances","=============="
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{CEL abundances}\\ \hline"
elseif (j .eq. 108) then
write (650,"(/A,/A/)") "ORL abundances","=============="
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{ORL abundances}\\ \hline"
elseif (j .eq. 111 .or. j .eq. 115 .or. j .eq. 126 .or. j .eq. 141) then
write (650,"(/A,/A/)")
write (651,*) "\\"
elseif (j .eq. 144) then
write (650,"(/A,/A/)") "Strong line abundances","======================"
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Strong line abundances}\\ \hline"
elseif (j .eq. 150) then
write (650,"(/A,/A/)") "Abundance discrepancy factors","============================="
write (651,*) "\vspace{0.2cm}\\\multicolumn{2}{l}{Abundance discrepancy factors}\\ \hline"
endif
! this writes the results to the plain text and latex summary files
quantity_result=resultprocessingarray(j,:)
call write_uncertainties(quantity_result,uncertainty_array,resultprocessingtext(j,1),resultprocessingtext(j,2),resultprocessingtext(j,3),filename, resultprocessingtext(j,4), verbosity,nbins)
enddo
!write ends of files, close
write (651,*) "\end{longtable}"
close(650)
close(651)
print *,gettime(),"Results written to files:"
print *," ",trim(filename),"_results"
print *," ",trim(filename),"_results.tex"
print *
print *,gettime(),"all done"
print *
contains
subroutine randomizer(linelist, listlength, norp)
! from http://www.netlib.org/random/random.f90
type(line), dimension(listlength) :: linelist
integer :: IO, I, j, listlength
real(kind=dp) :: temp4
logical, intent(in) :: norp
real(kind=dp) :: fn_val
real(kind=dp) :: s = 0.449871, t = -0.386595, a = 0.19600, b = 0.25472, &
r1 = 0.27597, r2 = 0.27846, u, v, x, y, q
real(kind=dp) :: half
real(kind=dp) :: newmean, newsnr, snr
!debugging
#ifdef CO
print *,"subroutine: randomizer"
#endif
half = 0.5
I = 1
IO=0
do j = 1,listlength
do
call random_number(u)
call random_number(v)
v = 1.7156 * (v - half)
x = u - s
y = abs(v) - t
q = x**2 + y*(a*y - b*x)
if (q .lt. r1) exit
if (q .gt. r2) cycle
if (v**2 .lt. -4.0*log(u)*u**2) exit
enddo
fn_val = v/u
! if (j==1) R=3.1+(0.15*fn_val)
if (linelist(j)%int_err .eq. 0.d0) then ! can't calculate signal to noise
linelist(j)%intensity = 0.d0
elseif (linelist(j)%intensity/linelist(j)%int_err .gt. 6.0 .or. norp) then !normal distribution
temp4=linelist(j)%intensity+(fn_val*linelist(j)%int_err)
if(temp4 .lt. 0) temp4 = 0.D0
linelist(j)%intensity = temp4
elseif (linelist(j)%int_err .ge. linelist(j)%intensity) then !it's an upper limit, take number from semi-gaussian distribution with peak at zero and 5 sigma = intensity
linelist(j)%intensity = abs(fn_val)*0.2*linelist(j)%intensity
else !if SN<6, then take lognormal distribution, parameters from Rola & Pelat (1994)
!for SN<6, the actual mean is derived from the observed mean using
snr = linelist(j)%intensity/linelist(j)%int_err
newmean = 0.0765957/(snr**2) + 1.86037/snr - 0.309695
!the actual standard deviation is derived from the observed using
newsnr = -1.11329/(snr**3) + 1.8542/(snr**2) - 0.288222/snr + 0.18018
!(fits to the data in Rola & Pelat's table 6)
!the distributions in table 6 give the mean and sigma of log-normal distributions of S/N(obs), given S/N(true). We don't know S/N(true) but using the distributions as that of the factor by which line fluxes are overestimated is equivalent. So,
temp4 = exp(fn_val*newsnr + newmean)
if (temp4 .lt. 0 ) temp4 = 0.D0
linelist(j)%intensity = linelist(j)%intensity / temp4
endif
enddo
end subroutine randomizer
subroutine init_random_seed()
integer :: i, n, clock
integer, dimension(:), allocatable :: seed
!debugging
#ifdef CO
print *,"subroutine: init_random_seed"
#endif
n=20
i=n
call random_seed(size = n)
allocate(seed(n))
call system_clock(count=clock)
seed = clock + 37 * (/ (i - 1, i = 1, n) /)
call random_seed(put = seed)
deallocate(seed)
end subroutine init_random_seed
subroutine write_uncertainties(input_array, uncertainty_array, plaintext, latextext, itemformat, filename, suffix, verbosity,nbins)
!wrapper for the get_uncertainties routine, if called it will do the
!uncertainty calculation and also write the binned and unbinned results to files
!as necessary.
implicit none
real(kind=dp) :: input_array(:)
real(kind=dp), intent(out) :: uncertainty_array(3)
type(arraycount), dimension (:), allocatable :: binned_quantity_result
character(len=35), intent(in) :: plaintext, latextext
character(len=35), intent(in) :: itemformat
character(len=512), intent(in) :: filename
character(len=25), intent(in) :: suffix
logical :: unusual
integer :: verbosity !1 = write summaries, binned and full results; 2=write summaries and binned results; 3=write summaries only
integer :: nbins
!debugging
#ifdef CO
print *,"subroutine: write_uncertainties, quantity=",suffix
#endif
if(size(input_array) .eq. 1) then
!just one iteration, write out the result without uncertainties
if (input_array(1) .gt. 0.) then
write (650,itemformat) plaintext,input_array(1)
write (651,*) latextext," & $", trim(latex_number(input_array(1))),"$\\"
else
write (650,*) plaintext,"--"
write (651,*) latextext," & -- \\"
endif
else
call get_uncertainties(input_array, binned_quantity_result, uncertainty_array, unusual,nbins)
!write out the binned results with the mode+-uncertainties at the top
if (verbosity .lt. 3) then
if (allocated(binned_quantity_result) .and. maxval(uncertainty_array) .ne. minval(uncertainty_array)) then
open(850, file=trim(filename)//"_"//trim(suffix)//"_binned", status='replace',access='sequential', action='write')
write(unit = 850,fmt=*) uncertainty_array(2),uncertainty_array(2)-uncertainty_array(1),uncertainty_array(3)+uncertainty_array(2)
write(unit = 850,fmt=*)
! do i=1,ii-1
do i=1,size(binned_quantity_result, 1)
! this hacky condition is because for reasons I can't work out right now, the
! number of bins allocated to the array is always too large and the last few end
! up being full of zeros. to be fixed soon hopefully. RW 16/11/2012
if (binned_quantity_result(i)%value .gt. 0. .and. binned_quantity_result(i)%counts .gt. 0) then
write(unit = 850,fmt=*) binned_quantity_result(i)%value,binned_quantity_result(i)%counts
endif
enddo
close(850)
endif
endif
!write the unbinned results to file
if (verbosity .lt. 2) then
open(850, file=trim(filename)//"_"//trim(suffix), status='replace', access='sequential', action='write')
do i=1,size(input_array)
write(unit = 850,fmt=*) input_array(i)
enddo
close(850)
endif
!write derived value and uncertainties to the summary files
if (maxval(uncertainty_array) .gt. 0.) then !if this condition is not true, array will be full of zeroes
! if (unusual) write (650,itemformat) "Warning! Unusual probability distribution. You should inspect this one:"
write (650,itemformat) plaintext,uncertainty_array(2),uncertainty_array(3),-uncertainty_array(1)
! write (651,*) latextext," & $",trim(latex_number(uncertainty_array(2))),"^{",trim(latex_number(uncertainty_array(3))),"}_{",trim(latex_number(-uncertainty_array(1))),"}$ \\"
if (uncertainty_array(1) .eq. uncertainty_array(3)) then
write (651,"(A,' & ${',A,'}\pm{',A,'}$ \\')") latextext,trim(latex_number(uncertainty_array(2))),trim(latex_number(uncertainty_array(1)))
else
write (651,"(A,' & ${',A,'}^{+',A,'}_{',A,'}$ \\')") latextext,trim(latex_number(uncertainty_array(2))),trim(latex_number(uncertainty_array(3))),trim(latex_number(-uncertainty_array(1)))
endif
else
write (650,*) plaintext,"--"
write (651,*) latextext,"& -- \\"
endif
endif !end of condition checking whether one or more iterations were done
end subroutine write_uncertainties
subroutine get_uncertainties(input_array, binned_quantity_result, uncertainty_array, unusual,nbins)
implicit none
real(kind=dp) :: input_array(:)
real(kind=dp),dimension(:),allocatable :: logarray,exparray
real(kind=dp), intent(out) :: uncertainty_array(3)
real(kind=dp), dimension(:), allocatable :: bintemp
real(kind=dp) :: binsize=0d0
type(arraycount), dimension (:), allocatable, intent(out) :: binned_quantity_result
integer :: arraysize
integer :: nbins
integer :: bincount, ii
real(kind=dp) :: comp
real(kind=dp) :: mean=0d0, sd=0d0
real(kind=dp) :: mean_log=0d0, sd_log=0d0
real(kind=dp) :: mean_exp=0d0, sd_exp=0d0
real(kind=dp), dimension(3,3) :: sds=0d0
real(kind=dp) :: tolerance=0d0
logical :: unusual !if not true, then the distribution is normal, log normal or exp normal
!debugging
#ifdef CO
print *,"subroutine: get_uncertainties. "
#endif
unusual = .false.
if (allocated(binned_quantity_result)) deallocate(binned_quantity_result)
tolerance=0.02 ! to determine whether a probability distribution is normal, log normal or exp normal, we calculate the mean and standard deviation of the original array, the logarithm of the values, and the exponent of the values. We then determine the fractions of the distribution lying within 1, 2 and 3 standard deviations of the mean in each case. If these correspond to the 0.68-0.95-0.99 expected for a normal distribution then we know that the distribution is normal, log normal or exp normal and record the uncertainties accordingly. The fractions must be (0.6827+-tol), (0.9545-tol/2) and (0.9973+-tol/5) for the subroutine to assign a distribution.
sds=0.D0
!binned_quantity_result = 0.D0
uncertainty_array = (/0.0,0.0,0.0/)
arraysize = size(input_array)
!todo: include a verbosity switch
!verbosity: 0=summary file only, 1=summary file + binned results, 2=summary, binned and full
!set verbosity to 0 automatically for single iteration, then we can use the same routine for any n
!sort the input array into ascending order
call qsort(input_array)
! bin the array. use 1/25 x 1 sigma above median as bin size
arraysize = size(input_array)
binsize=input_array(nint(0.841*arraysize))/25d0
if (binsize .gt. 0d0) then
!quantize the input array by taking the integer of each value divided by the binsize, and multiplying by the binsize.
allocate(bintemp(arraysize))
bintemp = binsize*nint(input_array/binsize)
nbins=nint(maxval(bintemp)/binsize)-nint(minval(bintemp)/binsize)
allocate(binned_quantity_result(nbins))
binned_quantity_result%value=0.D0
binned_quantity_result%counts=0
!then, go through the quantized array and count the number of occurrences of each value
comp=bintemp(1)
bincount=0
ii=1
do i=1,arraysize
if (bintemp(i).eq.comp) then
bincount=bincount+1
else
binned_quantity_result(ii)%value=comp
binned_quantity_result(ii)%counts=bincount
comp=bintemp(i)
bincount=0
ii=ii+1
endif
enddo
!get median and 1 sigma limits
uncertainty_array = (/ input_array(nint(0.5d0*arraysize))-input_array(nint(0.159*arraysize)), input_array(nint(0.5d0*arraysize)), input_array(nint(0.841*arraysize))-input_array(nint(0.5d0*arraysize)) /)
!simple test for normality - calculate the mean and standard deviation of the array, determine the number of values within 1, 2 and 3 sigma of the mean.
!if the fractions are close to 68.27, 95.45 and 99.73 then it's normal
!also calculate for log and exp. Temperatures often have an exp-normal distribution but 10**(a typical temperature) exceeds HUGE(0.d0). Scale to avoid this.
allocate(logarray(size(input_array)))
allocate(exparray(size(input_array)))
where (input_array.gt.0)
logarray=log10(input_array)
elsewhere
logarray=0.d0
endwhere
exparray=input_array/maxval(input_array)
mean=sum(input_array)/arraysize
mean_log=sum(logarray)/arraysize
mean_exp=sum(exparray)/arraysize
sd=(sum((input_array-mean)**2)/arraysize)**0.5
sd_log=(sum((logarray-mean_log)**2,input_array.gt.0.d0)/arraysize)**0.5
sd_exp=(sum((exparray-mean_exp)**2)/arraysize)**0.5
sds(1,1)=count(abs(input_array-mean).lt.sd)
sds(1,2)=count(abs(input_array-mean).lt.2*sd)
sds(1,3)=count(abs(input_array-mean).lt.3*sd)
sds(2,1)=count(abs(logarray-mean_log).lt.sd_log)
sds(2,2)=count(abs(logarray-mean_log).lt.2*sd_log)
sds(2,3)=count(abs(logarray-mean_log).lt.3*sd_log)
sds(1,1)=count(abs(exparray-mean_exp).lt.sd_exp)
sds(1,2)=count(abs(exparray-mean_exp).lt.2*sd_exp)
sds(1,3)=count(abs(exparray-mean_exp).lt.3*sd_exp)
sds=sds/arraysize
!scale exp values back up
mean_exp=mean_exp*maxval(input_array)
sd_exp=sd_exp*maxval(input_array)
if (abs(sds(1,1)-0.6827).lt.tolerance .and. abs(sds(1,2)-0.9545).lt.(tolerance*0.5) .and. abs(sds(1,3)-0.9973).lt. (tolerance*0.1)) then
uncertainty_array(:)=(/sd,mean,sd/)
elseif (abs(sds(2,1)-0.6827).lt.tolerance .and. abs(sds(2,2)-0.9545).lt.(tolerance*0.5) .and. abs(sds(2,3)-0.9973).lt. (tolerance*0.1)) then
uncertainty_array(:)=(/exp(mean_log)-exp(mean_log-sd_log),exp(mean_log),exp(mean_log+sd_log)-exp(mean_log)/)
elseif (abs(sds(3,1)-0.6827).lt.tolerance .and. abs(sds(3,2)-0.9545).lt.(tolerance*0.5) .and. abs(sds(3,3)-0.9973).lt. (tolerance*0.1)) then
uncertainty_array(:)=(/log(mean_exp+sd_exp)-log(mean_exp),log(mean_exp),log(mean_exp-sd_exp)-log(mean_exp)/)
else
unusual = .true.
endif
deallocate(bintemp)
else !all results are identical
!or, almost all of the results are an upper or lower limit with a few
!actual measurements
!to account for this second possibility, take the value from the middle of
!the array as the output quantity. This will be a useful value in all
!cases.
uncertainty_array(1) = 0.D0
uncertainty_array(2) = input_array(size(input_array)/2)
uncertainty_array(3) = 0.D0
endif
end subroutine get_uncertainties
character(len=11) function gettime()
implicit none
character(len=10) :: time
character(len=11), save :: oldtime
!debugging
#ifdef CO
!print *,"function: gettime"
#endif
call date_and_time(TIME=time)
gettime = time(1:2)//":"//time(3:4)//":"//time(5:6)//" : "
if (gettime .eq. oldtime) then
gettime = " "
else
oldtime = gettime
endif
return
end function gettime
character(len=100) function latex_number(inputnumber)
! for any number in the form aEx, write it in latex format, ie a$\times$10$^{x}$
real(kind=dp) :: inputnumber, mantissa
integer :: exponent, pos
!debugging
#ifdef CO
print *,"function: latex_number, ",inputnumber
#endif
write (latex_number,"(ES14.6)") inputnumber
pos = index (latex_number,'E')
read (latex_number(1:pos-1), '(F6.3)') mantissa
read (latex_number(pos+1:14), '(I3)') exponent
if (exponent .ge. -2 .and. exponent .le. 1) then
write (latex_number,"(F6.2)") inputnumber !just print out normal number if it's between 0.01 & 10
elseif (exponent .ge. 2 .and. exponent .le. 4) then
write (latex_number,"(I5)") 10*nint(inputnumber/10) ! write out integer rounded to nearest 10 if it's between 10 and 10,000
else !otherwise, write out a formatted exponent
write (latex_number,"(F6.2,'\times 10^{',I3,'}')") mantissa,exponent
endif
return
end function latex_number
end program
���������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/oii_diagnostics.f90��������������������������������������������������������������0000664�0000000�0000000�00000007645�12714613141�0020101�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������module mod_oii_diagnostics
implicit none
private :: dp
integer, parameter :: dp = kind(1.d0)
real(kind=dp), dimension(9,8,4) :: oiidiagnostics
contains
subroutine read_oii_diagnosticdata
implicit none
integer, parameter :: dp = kind(1.d0)
integer :: i,j
character(len=7) :: x
character(len=5) :: in1, in2
!debugging
#ifdef CO
print *,"subroutine: read_oii_diagnosticdata"
#endif
!read data files
open (999, file=trim(PREFIX)//"/share/neat/te_oii.dat")
do i=1,4
read (999,*) x !4 lines of comments ignored
enddo
do i=1,9
do j=0,8
if (j.eq.0) then
read (999,*) x
else
oiidiagnostics(i,j,1)=2.4+0.2*i !temperature
oiidiagnostics(i,j,2)=1.6+0.4*j !density
read (999,*) in1, in2
read (in1,"(F5.3)") oiidiagnostics(i,j,3)
read (in2,"(F5.3)") oiidiagnostics(i,j,4)
endif
enddo
enddo
close(999)
oiidiagnostics(:,8,2)=5.0 ! all lines separated by 0.4dex except top density, 0.6 dex higher
end subroutine read_oii_diagnosticdata
subroutine oii_rl_diagnostics(obs4649_4089, obs4649_4662,oii_te,oii_ne)
implicit none
real(kind=dp), dimension(4) :: a,b,c, x0, y0, d !equations of sides, locations of closest points on lines to value, distances to closest points
real(kind=dp) :: obs4649_4089, obs4649_4662, oii_te, oii_ne
integer :: i,j
!debugging
#ifdef CO
print *,"subroutine: oii_rl_diagnostics"
#endif
oii_te=0.d0
oii_ne=0.d0
x0=0.d0
y0=0.d0
!find where our value is by first finding which box it's in
!get equation for line joining points on each side of the box
!get point on each of those lines closest to our value
!use this to determine if point is between two lines in both directions
!if it is, then we're in the box and the magnitude of the vectors gives us an interpolated value
do i=1,8
do j=1,7
!left hand side is (i,j,3),(i,j,4) to (i,j+1,3),(i,j+1,4)
!right hand side is (i+1,j,3),(i+1,j,4) to (i+1,j+1,3),(i+1,j+1,4)
!bottom is (i,j,3),(i,j,4) to (i+1,j,3),(i+1,j,4)
!top is (i,j+1,3),(i,j+1,4) to (i+1,j+1,3),(i+1,j+1,4)
!equation of left hand side, ax+by+c=0, a, b and c are
!a=(i,j+1,4)-(i,j,4)/(i,j+1,3)-(i,j,3), b=-1, c=-a*(i,j,3)-b*(i,j,4)
if ((oiidiagnostics(i,j+1,3)-oiidiagnostics(i,j,3)).gt.0) a(1)=(oiidiagnostics(i,j+1,4)-oiidiagnostics(i,j,4))/(oiidiagnostics(i,j+1,3)-oiidiagnostics(i,j,3))
if ((oiidiagnostics(i+1,j+1,3)-oiidiagnostics(i+1,j,3)).gt.0) a(2)=(oiidiagnostics(i+1,j+1,4)-oiidiagnostics(i+1,j,4))/(oiidiagnostics(i+1,j+1,3)-oiidiagnostics(i+1,j,3))
if ((oiidiagnostics(i+1,j+1,3)-oiidiagnostics(i,j,3)).gt.0) a(3)=(oiidiagnostics(i+1,j,4)-oiidiagnostics(i,j,4))/(oiidiagnostics(i+1,j+1,3)-oiidiagnostics(i,j,3))
if ((oiidiagnostics(i+1,j+1,3)-oiidiagnostics(i,j+1,3)).gt.0) a(4)=(oiidiagnostics(i+1,j+1,4)-oiidiagnostics(i,j+1,4))/(oiidiagnostics(i+1,j+1,3)-oiidiagnostics(i,j+1,3))
b=-1
c(1)=-a(1)*oiidiagnostics(i,j,3)-b(1)*oiidiagnostics(i,j,4)
c(2)=-a(2)*oiidiagnostics(i+1,j,3)-b(2)*oiidiagnostics(i+1,j,4)
c(3)=-a(3)*oiidiagnostics(i,j,3)-b(3)*oiidiagnostics(i,j,4)
c(4)=-a(4)*oiidiagnostics(i,j+1,3)-b(4)*oiidiagnostics(i,j+1,4)
where(a**2+b**2.gt.0)
x0=(b*(b*obs4649_4089-a*obs4649_4662)-(a*c))/(a**2+b**2)
y0=(a*(-b*obs4649_4089+a*obs4649_4662)-(b*c))/(a**2+b**2)
endwhere
if (x0(1).eq.0.d0) then !condition to check for vertical
x0(1)=oiidiagnostics(i,j,3)
y0(1)=1.
endif
if (x0(2).eq.0.d0) then
x0(2)=oiidiagnostics(i+1,j,3)
y0(2)=1.
endif
d=((obs4649_4089-x0)**2+(obs4649_4662-y0)**2)**0.5
if (obs4649_4089 - x0(1) .ge. 0 .and. obs4649_4089 - x0(2) .le. 0 .and. obs4649_4662 - y0(3) .ge. 0 .and. obs4649_4662 - y0(4) .le. 0) then
oii_te=10**(oiidiagnostics(i,j,1)+(oiidiagnostics(i+1,j,1)-oiidiagnostics(i,j,1))*(d(1)/(d(1)+d(2))))
oii_ne=10**(oiidiagnostics(i,j,2)+(oiidiagnostics(i,j+1,2)-oiidiagnostics(i,j,2))*(d(3)/(d(3)+d(4))))
endif
enddo
enddo
end subroutine oii_rl_diagnostics
end module mod_oii_diagnostics
�������������������������������������������������������������������������������������������NEAT-master/source/quicksort.f90��������������������������������������������������������������������0000664�0000000�0000000�00000063701�12714613141�0016751�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������MODULE mod_error
! *
! ***************************************************
IMPLICIT NONE
Integer, Parameter :: stderr = 0
CONTAINS
! ***************************************************
! *
Subroutine Abort_qs(Routine, Msg)
! *
! ***************************************************
IMPLICIT NONE
Character (len=*), Intent (in), Optional :: Routine
Character (len=*), Intent (in) :: Msg
If (Present(Routine)) Then
Write(stderr, *)' Abort: IN ', Trim(Routine),': ',Msg
Else
Write(stderr, *)' Abort: ', Msg
End If
Stop
Return
End Subroutine Abort_qs
! ***************************************************
! *
Subroutine Perror_qs(Routine, Msg)
! *
! ***************************************************
IMPLICIT NONE
Character (len=*), Intent (in), Optional :: Routine
Character (len=*), Intent (in) :: Msg
If (Present(Routine)) Then
Write(stderr, *)' Error: IN ', Trim(Routine),': ',Msg
Else
Write(stderr, *)' Error: ', Msg
End If
Return
End Subroutine Perror_qs
End MODULE mod_error
MODULE mod_numtypes
! *
! ***************************************************
! *
! * Define the numerical Types Single precision,
! * Double Precision, and Complex double precision
! * to make the code portable.
! *
! ***************************************************
IMPLICIT NONE
! Here we define our Single Precision (SP)
! and Double Precision (DP) data types, for
! both Real and Complex variables.
Integer, Parameter :: SP = Kind(1.0)
Integer, Parameter :: DP = Kind(1.D0)
Integer, Parameter :: SPC = Kind( (1.0_SP, 1.0_SP) )
Integer, Parameter :: DPC = Kind( (1.0_DP, 1.0_DP) )
End MODULE mod_numtypes
! A MODULE for non numerical routines (sorting and locate)
!
! Copyright (C) 2005 Alberto Ramos
!
! This program is free software; you can redistribute it and/or modify
! it under the terms of the GNU General Public License as published by
! the Free Software Foundation; either version 2 of the License, or
! (at your option) any later version.
!
! This program is distributed in the hope that it will be useful,
! but WITHOUT ANY WARRANTY; without even the implied warranty of
! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
! GNU General Public License for more details.
!
! You should have received a copy of the GNU General Public License
! along with this program; if not, write to the Free Software
! Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
! USA
!
! ***************************************************
! *
MODULE mod_quicksort
! *
! ***************************************************
! *
! * NonNumeric routines for sorting and locating
! * data.
! *
! ***************************************************
USE mod_numtypes
USE mod_error
IMPLICIT NONE
Interface Swap
Module Procedure Swap_IN, Swap_SP, Swap_DP
End Interface
Interface Insrt
Module Procedure Insrt_IN, Insrt_SP, Insrt_DP
End Interface
Interface Qsort
Module Procedure NewQsort_IN, NewQsort_SP, NewQsort_DP
End Interface
Interface Locate
Module Procedure Locate_IN, Locate_SP, Locate_DP
End Interface
Interface Partition
Module Procedure Partition_SP, Partition_IN, Partition_DP
End Interface
Private Locate_IN, Locate_SP, &
& Locate_DP, Insrt_IN, Insrt_SP, Insrt_DP, Swap_IN, &
& Swap_SP, Swap_DP, NewQsort_IN, NewQsort_SP, NewQsort_DP, &
& Partition_SP, Partition_IN, Partition_DP, Partition
CONTAINS
! ***********************************
! *
Integer Function Locate_IN(X, Xo)
! *
! ***********************************
! * From an ascendent ordered set
! * of points X(:), locate will return
! * an integer K, such that
! * X(K) < Xo < X(K+1). If 0 is returned,
! * then Xo is smaller than all X(:). If
! * Size(X) is returned then is bigger
! * than all X(:). Iin (optional) is an
! * initial guess of the position.
! * Integer version.
! ***********************************
IMPLICIT NONE
Integer, Intent (in) :: X(:), Xo
Integer :: Nmin, Nmax, Nnew, Isize
ISize = Size(X)
If (Xo < X(1)) Then
Locate_IN = 0
Return
Else If (Xo > X(Isize)) Then
Locate_IN = Isize
Return
End If
Nmin = 0
Nmax = ISize
Do While (Nmax - Nmin > 1)
Nnew = Int((Nmax + Nmin)/2)
If (X(Nnew) < Xo) Then
Nmin = Nnew
Else
Nmax = Nnew
End If
End Do
Locate_IN = Nmin
Return
End Function Locate_IN
! ***********************************
! *
Integer Function Locate_SP(X, Xo)
! *
! ***********************************
! * From an ascendent ordered set
! * of points X(:), locate will return
! * an integer K, such that
! * X(K) < Xo < X(K+1). If 0 is returned,
! * then Xo is smaller than all X(:). If
! * Size(X) is returned then is bigger
! * than all X(:). Integer version.
! ***********************************
IMPLICIT NONE
Real (kind=SP), Intent (in) :: X(:), Xo
Integer :: Nmin, Nmax, Nnew, Isize
ISize = Size(X)
If (Xo < X(1)) Then
Locate_SP = 0
Return
Else If (Xo > X(Isize)) Then
Locate_SP = Isize
Return
End If
Nmin = 0
Nmax = ISize
Do While (Nmax - Nmin > 1)
Nnew = Int((Nmax + Nmin)/2)
If (X(Nnew) < Xo) Then
Nmin = Nnew
Else
Nmax = Nnew
End If
End Do
Locate_SP = Nmin
Return
End Function Locate_SP
! ***********************************
! *
Integer Function Locate_DP(X, Xo)
! *
! ***********************************
! * From an ascendent ordered set
! * of points X(:), locate will return
! * an integer K, such that
! * X(K) < Xo < X(K+1). If 0 is returned,
! * then Xo is smaller than all X(:). If
! * Size(X) is returned then is bigger
! * than all X(:). Integer version.
! ***********************************
IMPLICIT NONE
Real (kind=DP), Intent (in) :: X(:), Xo
Integer :: Nmin, Nmax, Nnew, Isize
ISize = Size(X)
If (Xo < X(1)) Then
Locate_DP = 0
Return
Else If (Xo > X(Isize)) Then
Locate_DP = Isize
Return
End If
Nmin = 0
Nmax = ISize
Do While (Nmax - Nmin > 1)
Nnew = Int((Nmax + Nmin)/2)
If (X(Nnew) < Xo) Then
Nmin = Nnew
Else
Nmax = Nnew
End If
End Do
Locate_DP = Nmin
Return
End Function Locate_DP
! ***********************************
! *
Subroutine Insrt_IN(X, Ipt)
! *
! ***********************************
! * Sort Array X(:) in ascendent order.
! * If present Ipt, a pointer with the
! * changes is returned in Ipt. Integer
! * version.
! ***********************************
IMPLICIT NONE
Integer, Intent (inout) :: X(:)
Integer, Intent (out), Optional :: Ipt(:)
Integer :: Rtmp
Integer :: I, J
If (Present(Ipt)) Then
Forall (I=1:Size(X)) Ipt(I) = I
Do I = 2, Size(X)
Rtmp = X(I)
Do J = I-1, 1, -1
If (Rtmp < X(J)) Then
X(J+1) = X(J)
CALL Swap(Ipt, J, J+1)
Else
Exit
End If
End Do
X(J+1) = Rtmp
End Do
Else
Do I = 2, Size(X)
Rtmp = X(I)
Do J = I-1, 1, -1
If (Rtmp < X(J)) Then
X(J+1) = X(J)
Else
Exit
End If
End Do
X(J+1) = Rtmp
End Do
End If
Return
End Subroutine Insrt_IN
! ***********************************
! *
Subroutine Insrt_SP(X, Ipt)
! *
! ***********************************
! * Sort Array X(:) in ascendent order.
! * If present Ipt, a pointer with the
! * changes is returned in Ipt. Integer
! * version.
! ***********************************
IMPLICIT NONE
Real (kind=SP), Intent (inout) :: X(:)
Integer, Intent (out), Optional :: Ipt(:)
Real (kind=SP) :: Rtmp
Integer :: I, J
If (Present(Ipt)) Then
Forall (I=1:Size(X)) Ipt(I) = I
Do I = 2, Size(X)
Rtmp = X(I)
Do J = I-1, 1, -1
If (Rtmp < X(J)) Then
X(J+1) = X(J)
CALL Swap(Ipt, J, J+1)
Else
Exit
End If
End Do
X(J+1) = Rtmp
End Do
Else
Do I = 2, Size(X)
Rtmp = X(I)
Do J = I-1, 1, -1
If (Rtmp < X(J)) Then
X(J+1) = X(J)
Else
Exit
End If
End Do
X(J+1) = Rtmp
End Do
End If
Return
End Subroutine Insrt_SP
! ***********************************
! *
Subroutine Insrt_DP(X, Ipt)
! *
! ***********************************
! * Sort Array X(:) in ascendent order.
! * If present Ipt, a pointer with the
! * changes is returned in Ipt. Integer
! * version.
! ***********************************
IMPLICIT NONE
Real (kind=DP), Intent (inout) :: X(:)
Integer, Intent (out), Optional :: Ipt(:)
Real (kind=DP) :: Rtmp
Integer :: I, J
If (Present(Ipt)) Then
Forall (I=1:Size(X)) Ipt(I) = I
Do I = 2, Size(X)
Rtmp = X(I)
Do J = I-1, 1, -1
If (Rtmp < X(J)) Then
X(J+1) = X(J)
CALL Swap(Ipt, J, J+1)
Else
Exit
End If
End Do
X(J+1) = Rtmp
End Do
Else
Do I = 2, Size(X)
Rtmp = X(I)
Do J = I-1, 1, -1
If (Rtmp < X(J)) Then
X(J+1) = X(J)
Else
Exit
End If
End Do
X(J+1) = Rtmp
End Do
End If
Return
End Subroutine Insrt_DP
! ***********************************
! *
Subroutine Swap_SP(X, I, J)
! *
! ***********************************
! * Swaps elements I and J of array X(:).
! ***********************************
IMPLICIT NONE
Real (kind=SP), Intent (inout) :: X(:)
Integer, Intent (in) :: I, J
Real (kind=SP) :: Itmp
Itmp = X(I)
X(I) = X(J)
X(J) = Itmp
Return
End Subroutine Swap_SP
! ***********************************
! *
Subroutine Swap_DP(X, I, J)
! *
! ***********************************
! * Swaps elements I and J of array X(:).
! ***********************************
IMPLICIT NONE
Real (kind=DP), Intent (inout) :: X(:)
Integer, Intent (in) :: I, J
Real (kind=DP) :: Itmp
Itmp = X(I)
X(I) = X(J)
X(J) = Itmp
Return
End Subroutine Swap_DP
! ***********************************
! *
Subroutine Swap_IN(X, I, J)
! *
! ***********************************
! * Swaps elements I and J of array X(:).
! ***********************************
IMPLICIT NONE
Integer, Intent (inout) :: X(:)
Integer, Intent (in) :: I, J
Integer :: Itmp
Itmp = X(I)
X(I) = X(J)
X(J) = Itmp
Return
End Subroutine Swap_IN
! ***********************************
! *
Subroutine NewQsort_SP(X, Ipt)
! *
! ***********************************
! * Sort Array X(:) in ascendent order
! * If present Ipt, a pointer with the
! * changes is returned in Ipt. SP version
! ***********************************
IMPLICIT NONE
Type Limits
Integer :: Ileft, Iright
End Type Limits
! For a list with Isw number of elements or
! less use Insrt
Integer, Parameter :: Isw = 10
Real (kind=SP), Intent (inout) :: X(:)
Integer, Intent (out), Optional :: Ipt(:)
Integer :: I, Ipvn, Ileft, Iright, ISpos, ISmax
Type (Limits), Allocatable :: Stack(:)
Allocate(Stack(2*Size(X)))
Stack(:)%Ileft = 0
If (Present(Ipt)) Then
Forall (I=1:Size(Ipt)) Ipt(I) = I
! Iniitialize the stack
Ispos = 1
Ismax = 1
Stack(ISpos)%Ileft = 1
Stack(ISpos)%Iright = Size(X)
Do While (Stack(ISpos)%Ileft /= 0)
Ileft = Stack(ISPos)%Ileft
Iright = Stack(ISPos)%Iright
If (Iright-Ileft <= Isw) Then
CALL InsrtLC(X, Ipt, Ileft,Iright)
ISpos = ISPos + 1
Else
Ipvn = ChoosePiv(X, Ileft, Iright)
Ipvn = Partition(X, Ileft, Iright, Ipvn, Ipt)
Stack(ISmax+1)%Ileft = Ileft
Stack(ISmax+1) %Iright = Ipvn-1
Stack(ISmax+2)%Ileft = Ipvn + 1
Stack(ISmax+2)%Iright = Iright
ISpos = ISpos + 1
ISmax = ISmax + 2
End If
End Do
Else
! Iniitialize the stack
Ispos = 1
Ismax = 1
Stack(ISpos)%Ileft = 1
Stack(ISpos)%Iright = Size(X)
Do While (Stack(ISpos)%Ileft /= 0)
! Write(*,*)Ispos, ISmax
Ileft = Stack(ISPos)%Ileft
Iright = Stack(ISPos)%Iright
If (Iright-Ileft <= Isw) Then
CALL Insrt(X(Ileft:Iright))
ISpos = ISPos + 1
Else
Ipvn = ChoosePiv(X, Ileft, Iright)
Ipvn = Partition(X, Ileft, Iright, Ipvn)
Stack(ISmax+1)%Ileft = Ileft
Stack(ISmax+1) %Iright = Ipvn-1
Stack(ISmax+2)%Ileft = Ipvn + 1
Stack(ISmax+2)%Iright = Iright
ISpos = ISpos + 1
ISmax = ISmax + 2
End If
End Do
End If
Deallocate(Stack)
Return
CONTAINS
! ***********************************
Integer Function ChoosePiv(XX, IIleft, IIright) Result (IIpv)
! ***********************************
! * Choose a Pivot element from XX(Ileft:Iright)
! * for Qsort.
! ***********************************
IMPLICIT NONE
Real (kind=SP), Intent (in) :: XX(:)
Integer, Intent (in) :: IIleft, IIright
Real (kind=SP) :: XXcp(3)
Integer :: IIpt(3), IImd
IImd = Int((IIleft+IIright)/2)
XXcp(1) = XX(IIleft)
XXcp(2) = XX(IIright)
XXcp(3) = XX(IImd)
CALL Insrt(XXcp, IIpt)
Select Case (IIpt(2))
Case (1)
IIpv = IIleft
Case (2)
IIpv = IImd
Case (3)
IIpv = IIright
End Select
Return
End Function ChoosePiv
! ***********************************
Subroutine InsrtLC(XX, IIpt, IIl, IIr)
! ***********************************
IMPLICIT NONE
Real (kind=SP), Intent (inout) :: XX(:)
Integer, Intent (inout) :: IIpt(:)
Integer, Intent (in) :: IIl, IIr
Real (kind=SP) :: RRtmp
Integer :: II, JJ
Do II = IIl+1, IIr
RRtmp = XX(II)
Do JJ = II-1, 1, -1
If (RRtmp < XX(JJ)) Then
XX(JJ+1) = XX(JJ)
CALL Swap(IIpt, JJ, JJ+1)
Else
Exit
End If
End Do
XX(JJ+1) = RRtmp
End Do
Return
End Subroutine InsrtLC
End Subroutine NewQsort_SP
! ***********************************
! *
Subroutine NewQsort_DP(X, Ipt)
! *
! ***********************************
! * Sort Array X(:) in ascendent order
! * If present Ipt, a pointer with the
! * changes is returned in Ipt. DP version
! ***********************************
IMPLICIT NONE
Type Limits
Integer :: Ileft, Iright
End Type Limits
! For a list with Isw number of elements or
! less use Insrt
Integer, Parameter :: Isw = 10
Real (kind=DP), Intent (inout) :: X(:)
Integer, Intent (out), Optional :: Ipt(:)
Integer :: I, Ipvn, Ileft, Iright, ISpos, ISmax
Type (Limits), Allocatable :: Stack(:)
if (minval(X) .eq. maxval(X)) then !nothing to sort in this case
return
else
Allocate(Stack(2*Size(X)))
Stack(:)%Ileft = 0
If (Present(Ipt)) Then
Forall (I=1:Size(Ipt)) Ipt(I) = I
! Iniitialize the stack
Ispos = 1
Ismax = 1
Stack(ISpos)%Ileft = 1
Stack(ISpos)%Iright = Size(X)
Do While (Stack(ISpos)%Ileft /= 0)
Ileft = Stack(ISPos)%Ileft
Iright = Stack(ISPos)%Iright
If (Iright-Ileft <= Isw) Then
CALL InsrtLC(X, Ipt, Ileft,Iright)
ISpos = ISPos + 1
Else
Ipvn = ChoosePiv(X, Ileft, Iright)
Ipvn = Partition(X, Ileft, Iright, Ipvn, Ipt)
Stack(ISmax+1)%Ileft = Ileft
Stack(ISmax+1) %Iright = Ipvn-1
Stack(ISmax+2)%Ileft = Ipvn + 1
Stack(ISmax+2)%Iright = Iright
ISpos = ISpos + 1
ISmax = ISmax + 2
End If
End Do
Else
! Iniitialize the stack
Ispos = 1
Ismax = 1
Stack(ISpos)%Ileft = 1
Stack(ISpos)%Iright = Size(X)
Do While (Stack(ISpos)%Ileft /= 0)
! Write(*,*)Ispos, ISmax
Ileft = Stack(ISPos)%Ileft
Iright = Stack(ISPos)%Iright
If (Iright-Ileft <= Isw) Then
CALL Insrt(X(Ileft:Iright))
ISpos = ISPos + 1
Else
Ipvn = ChoosePiv(X, Ileft, Iright)
Ipvn = Partition(X, Ileft, Iright, Ipvn)
Stack(ISmax+1)%Ileft = Ileft
Stack(ISmax+1) %Iright = Ipvn-1
Stack(ISmax+2)%Ileft = Ipvn + 1
Stack(ISmax+2)%Iright = Iright
ISpos = ISpos + 1
ISmax = ISmax + 2
End If
End Do
End If
Deallocate(Stack)
Return
endif
CONTAINS
! ***********************************
Integer Function ChoosePiv(XX, IIleft, IIright) Result (IIpv)
! ***********************************
! * Choose a Pivot element from XX(Ileft:Iright)
! * for Qsort.
! ***********************************
IMPLICIT NONE
Real (kind=DP), Intent (in) :: XX(:)
Integer, Intent (in) :: IIleft, IIright
Real (kind=DP) :: XXcp(3)
Integer :: IIpt(3), IImd
IImd = Int((IIleft+IIright)/2)
XXcp(1) = XX(IIleft)
XXcp(2) = XX(IIright)
XXcp(3) = XX(IImd)
CALL Insrt(XXcp, IIpt)
Select Case (IIpt(2))
Case (1)
IIpv = IIleft
Case (2)
IIpv = IImd
Case (3)
IIpv = IIright
End Select
Return
End Function ChoosePiv
! ***********************************
Subroutine InsrtLC(XX, IIpt, IIl, IIr)
! ***********************************
IMPLICIT NONE
Real (kind=DP), Intent (inout) :: XX(:)
Integer, Intent (inout) :: IIpt(:)
Integer, Intent (in) :: IIl, IIr
Real (kind=DP) :: RRtmp
Integer :: II, JJ
Do II = IIl+1, IIr
RRtmp = XX(II)
Do JJ = II-1, 1, -1
If (RRtmp < XX(JJ)) Then
XX(JJ+1) = XX(JJ)
CALL Swap(IIpt, JJ, JJ+1)
Else
Exit
End If
End Do
XX(JJ+1) = RRtmp
End Do
Return
End Subroutine InsrtLC
End Subroutine NewQsort_DP
! ***********************************
! *
Subroutine NewQsort_IN(X, Ipt)
! *
! ***********************************
! * Sort Array X(:) in ascendent order
! * If present Ipt, a pointer with the
! * changes is returned in Ipt. DP version
! ***********************************
IMPLICIT NONE
Type Limits
Integer :: Ileft, Iright
End Type Limits
! For a list with Isw number of elements or
! less use Insrt
Integer, Parameter :: Isw = 10
Integer, Intent (inout) :: X(:)
Integer, Intent (out), Optional :: Ipt(:)
Integer :: I, Ipvn, Ileft, Iright, ISpos, ISmax
Type (Limits), Allocatable :: Stack(:)
Allocate(Stack(2*Size(X)))
Stack(:)%Ileft = 0
If (Present(Ipt)) Then
Forall (I=1:Size(Ipt)) Ipt(I) = I
! Iniitialize the stack
Ispos = 1
Ismax = 1
Stack(ISpos)%Ileft = 1
Stack(ISpos)%Iright = Size(X)
Do While (Stack(ISpos)%Ileft /= 0)
Ileft = Stack(ISPos)%Ileft
Iright = Stack(ISPos)%Iright
If (Iright-Ileft <= Isw) Then
CALL InsrtLC(X, Ipt, Ileft,Iright)
ISpos = ISPos + 1
Else
Ipvn = ChoosePiv(X, Ileft, Iright)
Ipvn = Partition(X, Ileft, Iright, Ipvn, Ipt)
Stack(ISmax+1)%Ileft = Ileft
Stack(ISmax+1) %Iright = Ipvn-1
Stack(ISmax+2)%Ileft = Ipvn + 1
Stack(ISmax+2)%Iright = Iright
ISpos = ISpos + 1
ISmax = ISmax + 2
End If
End Do
Else
! Iniitialize the stack
Ispos = 1
Ismax = 1
Stack(ISpos)%Ileft = 1
Stack(ISpos)%Iright = Size(X)
Do While (Stack(ISpos)%Ileft /= 0)
! Write(*,*)Ispos, ISmax
Ileft = Stack(ISPos)%Ileft
Iright = Stack(ISPos)%Iright
If (Iright-Ileft <= Isw) Then
CALL Insrt(X(Ileft:Iright))
ISpos = ISPos + 1
Else
Ipvn = ChoosePiv(X, Ileft, Iright)
Ipvn = Partition(X, Ileft, Iright, Ipvn)
Stack(ISmax+1)%Ileft = Ileft
Stack(ISmax+1) %Iright = Ipvn-1
Stack(ISmax+2)%Ileft = Ipvn + 1
Stack(ISmax+2)%Iright = Iright
ISpos = ISpos + 1
ISmax = ISmax + 2
End If
End Do
End If
Deallocate(Stack)
Return
CONTAINS
! ***********************************
Integer Function ChoosePiv(XX, IIleft, IIright) Result (IIpv)
! ***********************************
! * Choose a Pivot element from XX(Ileft:Iright)
! * for Qsort.
! ***********************************
IMPLICIT NONE
Integer, Intent (in) :: XX(:)
Integer, Intent (in) :: IIleft, IIright
Real (kind=DP) :: XXcp(3)
Integer :: IIpt(3), IImd
IImd = Int((IIleft+IIright)/2)
XXcp(1) = XX(IIleft)
XXcp(2) = XX(IIright)
XXcp(3) = XX(IImd)
CALL Insrt(XXcp, IIpt)
Select Case (IIpt(2))
Case (1)
IIpv = IIleft
Case (2)
IIpv = IImd
Case (3)
IIpv = IIright
End Select
Return
End Function ChoosePiv
! ***********************************
Subroutine InsrtLC(XX, IIpt, IIl, IIr)
! ***********************************
IMPLICIT NONE
Integer, Intent (inout) :: XX(:)
Integer, Intent (inout) :: IIpt(:)
Integer, Intent (in) :: IIl, IIr
Integer :: RRtmp
Integer :: II, JJ
Do II = IIl+1, IIr
RRtmp = XX(II)
Do JJ = II-1, 1, -1
If (RRtmp < XX(JJ)) Then
XX(JJ+1) = XX(JJ)
CALL Swap(IIpt, JJ, JJ+1)
Else
Exit
End If
End Do
XX(JJ+1) = RRtmp
End Do
Return
End Subroutine InsrtLC
End Subroutine NewQsort_IN
! ***********************************
! *
Integer Function Partition_SP(X, Ileft, Iright, Ipv, Ipt) Result (Ipvfn)
! *
! ***********************************
! * This routine arranges the array X
! * between the index values Ileft and Iright
! * positioning elements smallers than
! * X(Ipv) at the left and the others
! * at the right.
! * Internal routine used by Qsort.
! ***********************************
IMPLICIT NONE
Real (kind=SP), Intent (inout) :: X(:)
Integer, Intent (in) :: Ileft, Iright, Ipv
Integer, Intent (inout), Optional :: Ipt(:)
Real (kind=SP) :: Rpv
Integer :: I
Rpv = X(Ipv)
CALL Swap(X, Ipv, Iright)
If (Present(Ipt)) CALL Swap(Ipt, Ipv, Iright)
Ipvfn = Ileft
If (Present(Ipt)) Then
Do I = Ileft, Iright-1
If (X(I) <= Rpv) Then
CALL Swap(X, I, Ipvfn)
CALL Swap(Ipt, I, Ipvfn)
Ipvfn = Ipvfn + 1
End If
End Do
Else
Do I = Ileft, Iright-1
If (X(I) <= Rpv) Then
CALL Swap(X, I, Ipvfn)
Ipvfn = Ipvfn + 1
End If
End Do
End If
CALL Swap(X, Ipvfn, Iright)
If (Present(Ipt)) CALL Swap(Ipt, Ipvfn, Iright)
Return
End Function Partition_SP
! ***********************************
! *
Integer Function Partition_DP(X, Ileft, Iright, Ipv, Ipt) Result (Ipvfn)
! *
! ***********************************
! * This routine arranges the array X
! * between the index values Ileft and Iright
! * positioning elements smallers than
! * X(Ipv) at the left and the others
! * at the right.
! * Internal routine used by Qsort.
! ***********************************
IMPLICIT NONE
Real (kind=DP), Intent (inout) :: X(:)
Integer, Intent (in) :: Ileft, Iright, Ipv
Integer, Intent (inout), Optional :: Ipt(:)
Real (kind=DP) :: Rpv
Integer :: I
Rpv = X(Ipv)
CALL Swap(X, Ipv, Iright)
If (Present(Ipt)) CALL Swap(Ipt, Ipv, Iright)
Ipvfn = Ileft
If (Present(Ipt)) Then
Do I = Ileft, Iright-1
If (X(I) <= Rpv) Then
CALL Swap(X, I, Ipvfn)
CALL Swap(Ipt, I, Ipvfn)
Ipvfn = Ipvfn + 1
End If
End Do
Else
Do I = Ileft, Iright-1
If (X(I) <= Rpv) Then
CALL Swap(X, I, Ipvfn)
Ipvfn = Ipvfn + 1
End If
End Do
End If
CALL Swap(X, Ipvfn, Iright)
If (Present(Ipt)) CALL Swap(Ipt, Ipvfn, Iright)
Return
End Function Partition_DP
! ***********************************
! *
Integer Function Partition_IN(X, Ileft, Iright, Ipv, Ipt) Result (Ipvfn)
! *
! ***********************************
! * This routine arranges the array X
! * between the index values Ileft and Iright
! * positioning elements smallers than
! * X(Ipv) at the left and the others
! * at the right.
! * Internal routine used by Qsort.
! ***********************************
IMPLICIT NONE
Integer, Intent (inout) :: X(:)
Integer, Intent (in) :: Ileft, Iright, Ipv
Integer, Intent (inout), Optional :: Ipt(:)
Integer :: Rpv
Integer :: I
Rpv = X(Ipv)
CALL Swap(X, Ipv, Iright)
If (Present(Ipt)) CALL Swap(Ipt, Ipv, Iright)
Ipvfn = Ileft
If (Present(Ipt)) Then
Do I = Ileft, Iright-1
If (X(I) <= Rpv) Then
CALL Swap(X, I, Ipvfn)
CALL Swap(Ipt, I, Ipvfn)
Ipvfn = Ipvfn + 1
End If
End Do
Else
Do I = Ileft, Iright-1
If (X(I) <= Rpv) Then
CALL Swap(X, I, Ipvfn)
Ipvfn = Ipvfn + 1
End If
End Do
End If
CALL Swap(X, Ipvfn, Iright)
If (Present(Ipt)) CALL Swap(Ipt, Ipvfn, Iright)
Return
End Function Partition_IN
End MODULE mod_quicksort
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! RW May 2009
module mod_recombination_lines
implicit none
private :: dp
integer, parameter :: dp = kind(1.d0)
type oiiRL
character(len=1) :: Hyb
character(len=1) :: n_E1
character(len=1) :: n_E1GA
character(len=1) :: n_E2
character(len=1) :: n_E2GA
character(len=1) :: n_g1
character(len=1) :: n_g2
character(len=1) :: Rem1
character(len=1) :: Rem2
character(len=1) :: Rem3
character(len=1) :: Rem4
character(len=3) :: q_gf1
character(len=3) :: q_gf2
character(len=7) :: Mult
character(len=9) :: Term1
character(len=9) :: Term2
integer :: g1
integer :: g2
integer :: ION
real(kind=dp) :: Wave
real(kind=dp) :: E1
real(kind=dp) :: E2
real(kind=dp) :: Em
real(kind=dp) :: Int
real(kind=dp) :: Br_A
real(kind=dp) :: Br_B
real(kind=dp) :: Br_C
real(kind=dp) :: gf1
real(kind=dp) :: gf2
real(kind=dp) :: Obs
real(kind=dp) :: abundance
end type oiiRL
type(oiiRL), dimension(:), allocatable :: oiiRLs
real(kind=dp), dimension(36,9), target :: oii_coefficients
real(kind=dp), dimension(:), pointer :: oii_A_4f, oii_A_3d4F, oii_A_3d4D, oii_B_3d4D, oii_C_3d4D, oii_A_3d2F, oii_B_3d2F, oii_C_3d2F, oii_A_3d2D, oii_C_3d2D, oii_A_3d2P, oii_C_3d2P, oii_A_3p4D, oii_B_3p4D, oii_A_3p4P, oii_B_3p4P, oii_A_3p4S, oii_B_3p4S, oii_A_3p2D, oii_C_3p2D, oii_A_3p2P, oii_C_3p2P, oii_A_3p2S, oii_C_3p2S, oii_A_4f_low, oii_A_3d4F_low, oii_B_3d4D_low, oii_A_3d2F_low, oii_A_3d2D_low, oii_A_3d2P_low, oii_A_3p4D_low, oii_A_3p4P_low, oii_A_3p4S_low, oii_A_3p2D_low, oii_A_3p2P_low, oii_A_3p2S_low
real(kind=dp), dimension(27,6), target :: nii_coefficients
real(kind=dp), dimension(:), pointer :: nii_V3, nii_V4, nii_V5, nii_V8, nii_V12, nii_V13, nii_V15, nii_V17, nii_V19, nii_V20, nii_V21, nii_V22, nii_V24, nii_V26, nii_V28, nii_V29, nii_V30, nii_V31, nii_V36, nii_V39, nii_V58, nii_V48, nii_V55, nii_V43, nii_V61, nii_V39b, nii_V58a
type niiRL
character(len=1) :: Hyb
character(len=1) :: n_E1
character(len=1) :: n_E1GA
character(len=1) :: n_E2
character(len=1) :: n_E2GA
character(len=1) :: n_g1
character(len=1) :: n_g2
character(len=1) :: Rem1
character(len=1) :: Rem2
character(len=1) :: Rem3
character(len=1) :: Rem4
character(len=3) :: q_gf1
character(len=3) :: q_gf2
character(len=7) :: Mult
character(len=9) :: Term1
character(len=9) :: Term2
integer :: g1
integer :: g2
integer :: ION
real(kind=dp) :: Wave
real(kind=dp) :: E1
real(kind=dp) :: E2
real(kind=dp) :: Em
real(kind=dp) :: Int
real(kind=dp) :: Br_LS
real(kind=dp) :: gf1
real(kind=dp) :: gf2
real(kind=dp) :: Obs
real(kind=dp) :: abundance
end type niiRL
type(niiRL), dimension(:),allocatable :: niiRLs
type ciiRL
real(kind=dp) :: Wave
real(kind=dp) :: a
real(kind=dp) :: b
real(kind=dp) :: c
real(kind=dp) :: d
real(kind=dp) :: f
real(kind=dp) :: aeff
real(kind=dp) :: Int
real(kind=dp) :: Obs
real(kind=dp) :: abundance
end type ciiRL
type(ciiRL), dimension(:),allocatable :: ciiRLs
type neiiRL
real(kind=dp) :: Wave
real(kind=dp) :: a
real(kind=dp) :: b
real(kind=dp) :: c
real(kind=dp) :: d
real(kind=dp) :: f
real(kind=dp) :: Br
real(kind=dp) :: aeff
real(kind=dp) :: Int
real(kind=dp) :: Obs
real(kind=dp) :: abundance
end type neiiRL
type(neiiRL), dimension(:),allocatable :: neiiRLs
type xiiiRL
character(len=3) :: Ion
real(kind=dp) :: Wave
real(kind=dp) :: a
real(kind=dp) :: b
real(kind=dp) :: c
real(kind=dp) :: d
real(kind=dp) :: Br
real(kind=dp) :: aeff
real(kind=dp) :: Int
real(kind=dp) :: Obs
real(kind=dp) :: abundance
end type xiiiRL
type(xiiiRL), dimension(:),allocatable :: xiiiRLs
contains
subroutine read_orl_data
implicit none
integer :: i, nlines
! read in OII data
!debugging
#ifdef CO
print *,"subroutine: read_orl_data"
#endif
301 format (I5, 1X, F9.4, 1X, A1, A1, A1, A1, A1, F7.4, &
& 1X, A3, 1X, F7.4, 1X, A3, 1X, A7, 3X, F11.4, A1, A1, 1X, I2, &
&1X, A1, 1X, A9, 1X, F13.4, 1X, A1, A1, 1X, I2, 1X, A1, 1X, A9, 1X,&
& F7.4, 1X, F7.4, 1X, F7.4)!, 1X, E10.4, 1X, E10.4, 1X)
open(201, file=trim(PREFIX)//"/share/neat/Roii.dat", status='old')
read(201,*) nlines
allocate(oiiRLs(nlines))
oiiRLs%Int = 0.d0
oiiRLs%Obs=0.d0
oiiRLs%abundance=0.d0
do i = 1,nlines
read(201,301) oiiRLs(i)%ion, oiiRLs(i)%Wave, oiiRLs(i)%Hyb, &
&oiiRLs(i)%Rem1, oiiRLs(i)%Rem2, oiiRLs(i)%Rem3, oiiRLs(i)%Rem4, &
&oiiRLs(i)%gf1, oiiRLs(i)%q_gf1, oiiRLs(i)%gf2, oiiRLs(i)%q_gf2, &
&oiiRLs(i)%Mult, oiiRLs(i)%E1, oiiRLs(i)%n_E1, oiiRLs(i)%n_E1GA, &
&oiiRLs(i)%g1, oiiRLs(i)%n_g1, oiiRLs(i)%Term1, oiiRLs(i)%E2, &
&oiiRLs(i)%n_E2, oiiRLs(i)%n_E2GA, oiiRLs(i)%g2, oiiRLs(i)%n_g2, &
&oiiRLs(i)%Term2, oiiRLs(i)%Br_A, oiiRLs(i)%Br_B, oiiRLs(i)%Br_C
enddo
close(201)
! coefficients from LSBC 1995, S94
! array consists of coefficients a2, a4, a5, a6, b, c and d, plus calculated values a and aeff
! an is the coefficient a at log(ne)=n. this will be interpolated and stored in variable a.
! the interpolated a is then used with the other coefficients to calculate aeff
! replace with reading from file at some point
oii_coefficients(1,:) = (/0.236d0,0.232d0,0.228d0,0.222d0,-0.92009d0,0.15526d0,0.03442d0,0.d0,0.d0/)
oii_coefficients(2,:) = (/0.876d0,0.876d0,0.877d0,0.880d0,-0.73465d0,0.13689d0,0.06220d0,0.d0,0.d0/)
! oii_coefficients(3,:) = (/0.727d0,0.726d0,0.725d0,0.726d0,-0.73465d0,0.13689d0,0.06220d0,0.d0,0.d0/)
oii_coefficients(4,:) = (/0.747d0,0.745d0,0.744d0,0.745d0,-0.74621d0,0.15710d0,0.07059d0,0.d0,0.d0/)
! oii_coefficients(5,:) = (/0.769d0,0.767d0,0.766d0,0.766d0,-0.74621d0,0.15710d0,0.07059d0,0.d0,0.d0/)
oii_coefficients(6,:) = (/0.727d0,0.726d0,0.725d0,0.726d0,-0.74621d0,0.15710d0,0.07059d0,0.d0,0.d0/)
! oii_coefficients(7,:) = (/0.747d0,0.745d0,0.744d0,0.745d0,-0.74621d0,0.15710d0,0.07059d0,0.d0,0.d0/)
! oii_coefficients(8,:) = (/0.769d0,0.767d0,0.766d0,0.766d0,-0.74621d0,0.15710d0,0.07059d0,0.d0,0.d0/)
oii_coefficients(9,:) = (/0.603d0,0.601d0,0.600d0,0.599d0,-0.79533d0,0.15314d0,0.05322d0,0.d0,0.d0/)
! oii_coefficients(10,:) = (/0.620d0,0.618d0,0.616d0,0.615d0,-0.79533d0,0.15314d0,0.05322d0,0.d0,0.d0/)
oii_coefficients(11,:) = (/0.526d0,0.524d0,0.523d0,0.524d0,-0.78448d0,0.13681d0,0.05608d0,0.d0,0.d0/)
! oii_coefficients(1,:) = (/0.538d0,0.536d0,0.535d0,0.536d0,-0.78448d0,0.13681d0,0.05608d0,0.d0,0.d0/)
oii_coefficients(13,:) = (/34.7d0,34.9d0,35.1d0,35.0d0,-0.749d0,0.023d0,0.074d0,0.d0,0.d0/)
oii_coefficients(14,:) = (/36.0d0,36.2d0,36.4d0,36.3d0,-0.736d0,0.033d0,0.077d0,0.d0,0.d0/)
oii_coefficients(15,:) = (/10.4d0,10.4d0,10.5d0,10.4d0,-0.721d0,0.073d0,0.072d0,0.d0,0.d0/)
oii_coefficients(16,:) = (/14.6d0,14.6d0,14.7d0,14.6d0,-0.732d0,0.081d0,0.066d0,0.d0,0.d0/)
oii_coefficients(17,:) = (/0.90d0,0.90d0,0.90d0,1.00d0,-0.485d0,-0.047d0,0.140d0,0.d0,0.d0/)
oii_coefficients(18,:) = (/4.80d0,4.90d0,4.90d0,4.90d0,-0.730d0,-0.003d0,0.057d0,0.d0,0.d0/)
oii_coefficients(19,:) = (/2.40d0,2.40d0,2.50d0,2.60d0,-0.550d0,-0.051d0,0.178d0,0.d0,0.d0/)
oii_coefficients(20,:) = (/14.5d0,14.6d0,14.5d0,14.3d0,-0.736d0,0.068d0,0.066d0,0.d0,0.d0/)
oii_coefficients(21,:) = (/1.10d0,1.20d0,1.20d0,1.20d0,-0.523d0,-0.044d0,0.173d0,0.d0,0.d0/)
oii_coefficients(22,:) = (/1.30d0,1.40d0,1.40d0,1.40d0,-0.565d0,-0.042d0,0.158d0,0.d0,0.d0/)
oii_coefficients(23,:) = (/0.40d0,0.40d0,0.40d0,0.40d0,-0.461d0,-0.083d0,0.287d0,0.d0,0.d0/)
oii_coefficients(24,:) = (/0.50d0,0.50d0,0.50d0,0.60d0,-0.547d0,-0.074d0,0.244d0,0.d0,0.d0/)
oii_coefficients(25,:) = (/0.236d0,0.236d0,0.236d0,0.236d0,-1.07552d0,-0.04843d0,0.d0,0.d0,0.d0/)
oii_coefficients(26,:) = (/0.878d0,0.878d0,0.878d0,0.878d0,-0.86175d0,-0.02470d0,0.d0,0.d0,0.d0/)
oii_coefficients(27,:) = (/0.747d0,0.747d0,0.747d0,0.747d0,-0.89382d0,-0.02906d0,0.d0,0.d0,0.d0/)
oii_coefficients(28,:) = (/0.747d0,0.747d0,0.747d0,0.747d0,-0.89382d0,-0.02906d0,0.d0,0.d0,0.d0/)
oii_coefficients(29,:) = (/0.603d0,0.603d0,0.603d0,0.603d0,-0.94025d0,-0.03467d0,0.d0,0.d0,0.d0/)
oii_coefficients(30,:) = (/0.526d0,0.526d0,0.526d0,0.526d0,-0.91758d0,-0.03120d0,0.d0,0.d0,0.d0/)
oii_coefficients(31,:) = (/36.288d0,36.288d0,36.288d0,36.288d0,-0.75421d0,0.02883d0,0.01213d0,0.d0,0.d0/)
oii_coefficients(32,:) = (/14.656d0,14.656d0,14.656d0,14.656d0,-0.80449d0,0.00018d0,0.00517d0,0.d0,0.d0/)
oii_coefficients(33,:) = (/4.8340d0,4.8340d0,4.8340d0,4.8340d0,-0.71947d0,0.02544d0,0.00936d0,0.d0,0.d0/)
oii_coefficients(34,:) = (/2.3616d0,2.3616d0,2.3616d0,2.3616d0,-0.46263d0,0.14697d0,0.03856d0,0.d0,0.d0/)
oii_coefficients(35,:) = (/1.1198d0,1.1198d0,1.1198d0,1.1198d0,-0.44147d0,0.13837d0,0.03191d0,0.d0,0.d0/)
oii_coefficients(36,:) = (/0.3922d0,0.3922d0,0.3922d0,0.3922d0,-0.35043d0,0.26366d0,0.06666d0,0.d0,0.d0/)
!define pointers so that we can refer to the coefficients by state as well as processing all coefficients at once
oii_A_4f => oii_coefficients(1,:)
oii_A_3d4F => oii_coefficients(2,:)
oii_A_3d4D => oii_coefficients(3,:)
oii_B_3d4D => oii_coefficients(4,:)
oii_C_3d4D => oii_coefficients(5,:)
oii_A_3d2F => oii_coefficients(6,:)
oii_B_3d2F => oii_coefficients(7,:)
oii_C_3d2F => oii_coefficients(8,:)
oii_A_3d2D => oii_coefficients(9,:)
oii_C_3d2D => oii_coefficients(10,:)
oii_A_3d2P => oii_coefficients(11,:)
oii_C_3d2P => oii_coefficients(12,:)
oii_A_3p4D => oii_coefficients(13,:)
oii_B_3p4D => oii_coefficients(14,:)
oii_A_3p4P => oii_coefficients(15,:)
oii_B_3p4P => oii_coefficients(16,:)
oii_A_3p4S => oii_coefficients(17,:)
oii_B_3p4S => oii_coefficients(18,:)
oii_A_3p2D => oii_coefficients(19,:)
oii_C_3p2D => oii_coefficients(20,:)
oii_A_3p2P => oii_coefficients(21,:)
oii_C_3p2P => oii_coefficients(22,:)
oii_A_3p2S => oii_coefficients(23,:)
oii_C_3p2S => oii_coefficients(24,:)
oii_A_4f_low => oii_coefficients(25,:)
oii_A_3d4F_low => oii_coefficients(26,:)
oii_B_3d4D_low => oii_coefficients(27,:)
oii_A_3d2F_low => oii_coefficients(28,:)
oii_A_3d2D_low => oii_coefficients(29,:)
oii_A_3d2P_low => oii_coefficients(30,:)
oii_A_3p4D_low => oii_coefficients(31,:)
oii_A_3p4P_low => oii_coefficients(32,:)
oii_A_3p4S_low => oii_coefficients(33,:)
oii_A_3p2D_low => oii_coefficients(34,:)
oii_A_3p2P_low => oii_coefficients(35,:)
oii_A_3p2S_low => oii_coefficients(36,:)
! read in NII data
302 format (I5, 1X, F9.4, 1X, A1, A1, A1, A1, A1, 1X, F7.4, &
& 1X, A3, 1X, F7.4, 1X, A3, 1X, A7, 3X, F11.4, A1, A1, 1X, I2, &
&1X, A1, 1X, A9, 1X, F13.4, 1X, A1, A1, 1X, I2, 1X, A1, 1X, A9, 1X,&
& F7.4, 1X, F7.4, 1X, F7.4)!, 1X, E10.4, 1X, E10.4, 1X)
open(201, file=trim(PREFIX)//"/share/neat/Rnii.dat", status='old')
read(201,*) nlines
allocate(niiRLs(nlines))
niiRLs%Int = 0.d0
niiRLs%Obs=0.d0
niiRLs%abundance=0.d0
do i = 1,nlines
read(201,302) niiRLs(i)%ION, niiRLs(i)%Wave, niiRLs(i)%Hyb, &
&niiRLs(i)%Rem1, niiRLs(i)%Rem2, niiRLs(i)%Rem3, niiRLs(i)%Rem4, &
&niiRLs(i)%gf1, niiRLs(i)%q_gf1, niiRLs(i)%gf2, niiRLs(i)%q_gf2, &
&niiRLs(i)%Mult, niiRLs(i)%E1, niiRLs(i)%n_E1, niiRLs(i)%n_E1GA, &
&niiRLs(i)%g1, niiRLs(i)%n_g1, niiRLs(i)%Term1, niiRLs(i)%E2, &
&niiRLs(i)%n_E2, niiRLs(i)%n_E2GA, niiRLs(i)%g2, niiRLs(i)%n_g2, &
&niiRLs(i)%Term2, niiRLs(i)%Br_LS
enddo
close(201)
! arrays of NII fitting coefficients, consisting of a, b, c, d, Br, and aeff
nii_coefficients(1,:) = (/-12.7289d0, -0.689816d0, 0.022005d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(2,:) = (/-13.8161d0, -0.778606d0, -0.028944d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(3,:) = (/-13.0765d0, -0.734594d0, -0.0251909d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(4,:) = (/-14.1211d0, -0.608107d0, 0.0362301d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(5,:) = (/-13.7473d0, -0.509595d0, 0.0255685d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(6,:) = (/-14.3753d0, -0.515547d0, 0.0100966d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(7,:) = (/-14.3932d0, -0.887946d0, -0.0525855d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(8,:) = (/-15.0052d0, -0.89811d0, -0.0581789d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(9,:) = (/-12.6183d0, -0.840727d0, -0.0229685d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(10,:) = (/-13.3184d0, -0.884034d0, -0.0512093d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(11,:) = (/-14.5113d0, -0.87792d0, -0.0552785d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(12,:) = (/-14.1305d0, -0.487037d0, 0.0354135d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(13,:) = (/-13.3527d0, -0.878224d0, -0.0557112d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(14,:) = (/-14.9628d0, -0.486746d0, 0.0358261d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(15,:) = (/-13.0871d0, -0.883624d0, -0.0506882d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(16,:) = (/-13.5581d0, -0.878488d0, -0.0557583d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(17,:) = (/-14.3521d0, -0.487527d0, 0.0355516d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(18,:) = (/-15.0026d0, -0.923093d0, -0.0588371d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(19,:) = (/-13.8636d0, -0.569144d0, 0.0068655d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(20,:) = (/-13.035d0, -1.12035d0, -0.10642d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(21,:) = (/-13.5484d0, -1.11909d0, -0.105123d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(22,:) = (/-13.2548d0, -1.12902d0, -0.110368d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(23,:) = (/-13.5656d0, -1.11989d0, -0.105818d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(24,:) = (/-13.7426d0, -1.13351d0, -0.111146d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(25,:) = (/-13.7373d0, -1.12695d0, -0.108158d0, 0.d0, 0.d0, 0.d0 /)
nii_coefficients(26,:) = (/0.108d0, -0.754d0, 2.587d0, 0.719d0, 0.350d0, 0.d0 /)
nii_coefficients(27,:) = (/0.326d0, -0.754d0, 2.587d0, 0.719d0, 0.074d0, 0.d0 /)
nii_V3 => nii_coefficients(1,:)
nii_V4 => nii_coefficients(2,:)
nii_V5 => nii_coefficients(3,:)
nii_V8 => nii_coefficients(4,:)
nii_V12 => nii_coefficients(5,:)
nii_V13 => nii_coefficients(6,:)
nii_V15 => nii_coefficients(7,:)
nii_V17 => nii_coefficients(8,:)
nii_V19 => nii_coefficients(9,:)
nii_V20 => nii_coefficients(10,:)
nii_V21 => nii_coefficients(11,:)
nii_V22 => nii_coefficients(12,:)
nii_V24 => nii_coefficients(13,:)
nii_V26 => nii_coefficients(14,:)
nii_V28 => nii_coefficients(15,:)
nii_V29 => nii_coefficients(16,:)
nii_V30 => nii_coefficients(17,:)
nii_V31 => nii_coefficients(18,:)
nii_V36 => nii_coefficients(19,:)
nii_V39 => nii_coefficients(20,:)
nii_V58 => nii_coefficients(21,:)
nii_V48 => nii_coefficients(22,:)
nii_V55 => nii_coefficients(23,:)
nii_V43 => nii_coefficients(24,:)
nii_V61 => nii_coefficients(25,:)
nii_V39b => nii_coefficients(26,:)
nii_V58a => nii_coefficients(27,:)
!define the pointers
! read in CII data
303 format (F7.2, 1X, F6.4, 1X, F7.4, 1X, F7.4, 1X, F7.4, 1X, F7.4)
open(201, file=trim(PREFIX)//"/share/neat/Rcii.dat", status='old')
read(201,*) nlines
allocate(ciiRLs(nlines))
ciiRLs%Int = 0.d0
ciiRLs%Obs=0.d0
ciiRLs%abundance=0.d0
do i = 1,nlines
read(201,303) ciiRLs(i)%Wave, ciiRLs(i)%a, ciiRLs(i)%b, &
& ciiRLs(i)%c, ciiRLs(i)%d, ciiRLs(i)%f
enddo
close(201)
! read in NeII data
304 format (F7.2, 1X, F6.3, 1X, F6.3, 1X, F6.3, 1X, F6.3, 1X, F7.4, 1X, F6.3)
open(201, file=trim(PREFIX)//"/share/neat/Rneii.dat", status='old')
read(201,*) nlines
allocate(neiiRLs(nlines))
neiiRLs%Int = 0.d0
neiiRLs%Obs=0.d0
neiiRLs%abundance=0.d0
do i = 1,nlines
read(201,304) neiiRLs(i)%Wave, neiiRLs(i)%a, neiiRLs(i)%b, &
& neiiRLs(i)%c, neiiRLs(i)%d, neiiRLs(i)%f, neiiRLs(i)%Br
enddo
close(201)
! read in XIII data
305 format (A3,1X,F7.2, 1X, F5.3, 1X, F6.3, 1X, F5.3, 1X, F5.3, 1X, F5.4)
open(201, file=trim(PREFIX)//"/share/neat/Rxiii.dat", status='old')
read(201,*) nlines
allocate(xiiiRLs(nlines))
xiiiRLs%Int = 0.d0
xiiiRLs%Obs=0.d0
xiiiRLs%abundance=0.d0
do i = 1,nlines
read(201,305) xiiiRLs(i)%ion, xiiiRLs(i)%Wave, xiiiRLs(i)%a, &
& xiiiRLs(i)%b, xiiiRLs(i)%c, xiiiRLs(i)%d, xiiiRLs(i)%Br
enddo
close(201)
end subroutine read_orl_data
subroutine oii_rec_lines(te,ne,abund,oiiRLs)
implicit none
real(kind=dp) :: aeff, aeff_hb, Em_Hb, Te, Ne, abund, tered
type(oiiRL), dimension(:) :: oiiRLs
!debugging
#ifdef CO
print *,"subroutine: oii_rec_lines"
#endif
call get_aeff_hb(te,ne, aeff_hb, em_hb)
! interpolate the a values
if (log10(ne) .le. 2) then
oii_coefficients(:,8)= oii_coefficients(:,1)
elseif (log10(ne) .gt. 2 .and. log10(ne) .le. 4) then
oii_coefficients(:,8)= oii_coefficients(:,1) + (oii_coefficients(:,2) - oii_coefficients(:,1)) / 2. * (log10(ne) - 2.)
elseif (log10(ne) .gt. 4 .and. log10(ne) .le. 5) then
oii_coefficients(:,8)= oii_coefficients(:,2) + (oii_coefficients(:,3) - oii_coefficients(:,2)) * (log10(ne) - 2.)
elseif (log10(ne) .gt. 6 .and. log10(ne) .le. 6) then
oii_coefficients(:,8)= oii_coefficients(:,3) + (oii_coefficients(:,4) - oii_coefficients(:,3)) * (log10(ne) - 2.)
else
oii_coefficients(:,8)= oii_coefficients(:,4)
endif
! calculate the aeffs. coefficients
tered=te/10000.
oii_coefficients(1:24,9)=1.e-14 * (oii_coefficients(1:24,8) * tered**oii_coefficients(1:24,5) * (1. + oii_coefficients(1:24,6) * (1. - tered) + oii_coefficients(1:24,7) * (1. - tered) ** 2))
oii_coefficients(25:36,9)=1.e-14 * oii_coefficients(25:36,8) * tered**(oii_coefficients(25:36,5) + oii_coefficients(25:36,6)*log(tered) + oii_coefficients(25:36,7)* log(tered) ** 2)
! 4f-3d transitions
if (tered .gt. 0.5) then
aeff=oii_A_4f(9)
else
aeff=oii_A_4f_low(9)
endif
where (oiiRLs%Term1(4:5) .eq. "3d" .and. oiiRLs%Term2(3:4) .eq. "4f")
oiiRLs%Em = aeff * 1.98648E-08 /oiiRLs%Wave * &
& oiiRLs%g2 * oiiRLs%Br_B
oiiRLs%Int = 100. * oiiRLs%Em / Em_hb * abund
endwhere
! 3d-3p ^4F transitions (Case A=B=C for a,b,c,d; Br diff. slightly, adopt Case B)
if (tered .gt. 0.5) then
aeff=oii_A_3d4F(9)
else
aeff=oii_A_3d4F_low(9)
endif
where (oiiRLs%Mult .eq. " V10 " .or. oiiRLs%Mult .eq. " V18 ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_B
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3d-3p ^4D, ^4P transitions. case B assumed
if (tered .gt. 0.5) then
aeff=oii_B_3d4D(9)
else
aeff=oii_B_3d4D_low(9)
endif
where (oiiRLs%Term1(4:5) .eq. "3p" .and. (oiiRLs%Term2 .eq. " 3d 4D " .or. oiiRLs%Term2 .eq. " 3d 4P "))
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_B
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3d-3p ^2F transitions. case A
if (tered .gt. 0.5) then
aeff=oii_A_3d2F(9)
else
aeff=oii_A_3d2F_low(9)
endif
where (oiiRLs%Term1(4:5) .eq. "3p" .and. oiiRLs%Term2 .eq. " 3d 2F ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_A
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3d-3p ^2D transitions. case A
if (tered .gt. 0.5) then
aeff=oii_A_3d2D(9)
else
aeff=oii_A_3d2D_low(9)
endif
where (oiiRLs%Term1(4:5) .eq. "3d" .and. oiiRLs%Term2 .eq. " 3d 2D ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_A
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3d-3p ^2P transitions. case A
if (tered .gt. 0.5) then
aeff=oii_A_3d2P(9)
else
aeff=oii_A_3d2P_low(9)
endif
where (oiiRLs%Term1(4:5) .eq. "3p" .and. oiiRLs%Term2 .eq. " 3d 2P ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_A
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3p-3s ^4D - ^4P transitions. case B
if (tered .gt. 0.5) then
aeff=oii_B_3p4D(9)
else
aeff=oii_A_3p4D_low(9)
endif
where (oiiRLs%Mult .eq. " V1 ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_B
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3p-3s ^4P - ^4P transitions. case B
if (tered .gt. 0.5) then
aeff=oii_B_3p4P(9)
else
aeff=oii_A_3p4P_low(9)
endif
!
where (oiiRLs%Mult .eq. " V2 ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_B
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3p-3s ^4S - ^4P transitions. case B
if (tered .gt. 0.5) then
aeff=oii_B_3p4S(9)
else
aeff=oii_A_3p4S_low(9)
endif
!
where (oiiRLs%Mult .eq. " V3 ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_B
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3p-3s ^2D - ^2P transitions. case A
if (tered .gt. 0.5) then
aeff=oii_A_3p2D(9)
else
aeff=oii_A_3p2D_low(9)
endif
!
where (oiiRLs%Mult .eq. " V5 ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_A
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3p-3s ^2P - ^2P transitions. case A
if (tered .gt. 0.5) then
aeff=oii_A_3p2P(9)
else
aeff=oii_A_3p2P_low(9)
endif
!
where (oiiRLs%Mult .eq. " V6 ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_A
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
!
! 3p-3s ^2S - ^2P transitions. case A
if (tered .gt. 0.5) then
aeff=oii_A_3p2S(9)
else
aeff=oii_A_3p2S_low(9)
endif
!
where (oiiRLs%Mult .eq. " V4 ")
oiiRLs%Em = aeff*1.98648E-08 / oiiRLs%Wave*&
& oiiRLs%g2*oiiRLs%Br_A
oiiRLs%Int = 100.*oiiRLs%Em / Em_hb*abund
endwhere
end subroutine oii_rec_lines
subroutine nii_rec_lines(te, ne, abund, niiRLs)
implicit none
real(kind=dp) :: aeff_hb, Em_Hb, Te, Ne, abund, tered
type(niiRL), dimension(:) :: niiRLs
!debugging
#ifdef CO
print *,"subroutine: nii_rec_lines"
#endif
call get_aeff_hb(te,ne, aeff_hb, em_hb)
tered = te/10000.
nii_coefficients(1:25,6) = 10. ** (nii_coefficients(1:25,1) + nii_coefficients(1:25,2) * log10(tered) + nii_coefficients(1:25,3) * log10(tered) ** 2)
nii_coefficients(26:27,6) = (1.e-13 * 2.d0 * nii_coefficients(26:27,1) * (tered/4.d0)**nii_coefficients(26:27,2)) / (1.d0 + nii_coefficients(26:27,3)*(tered/4.d0)**nii_coefficients(26:27,4))*nii_coefficients(26:27,5)
! 2s2.2p.(2P*).3s - 2s2.2p.(2P*).3p E1 3P* - 3D M03 transitions
! case B
!
where (niiRLs%Mult .eq. "V3 ")
niiRLs%Em = nii_V3(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3s - 2s2.2p.(2P*).3p 3P* - 3S M04 transitions
! case B
!
where (niiRLs%Mult .eq. "V4 ")
niiRLs%Em = nii_V4(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3s - 2s2.2p.(2P*).3p 3P* - 3P M05 transitions
! case B
!
where (niiRLs%Mult .eq. "V5 ")
niiRLs%Em = nii_V5(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3s - 2s2.2p.(2P*).3p 1P* - 1P M08 transitions
! case A
!
where (niiRLs%Mult .eq. "V8 ")
niiRLs%Em = nii_V8(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3s - 2s2.2p.(2P*).3p 1P* - 1D M12 transitions
! case A
!
where (niiRLs%Mult .eq. "V12 ")
niiRLs%Em = nii_V12(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3s - 2s2.2p.(2P*).3p 1P* - 1S M13 transitions
! case A
!
where (niiRLs%Mult .eq. "V13 ")
niiRLs%Em = nii_V13(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 1P - 1D* M15 transitions
! case A
!
where (niiRLs%Mult .eq. "V15 ")
niiRLs%Em = nii_V15(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 1P - 1P* M17 transitions
! case A
!
where (niiRLs%Mult .eq. "V17 ")
niiRLs%Em = nii_V17(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 3D - 3F* M19 transitions
! case B
!
where (niiRLs%Mult .eq. "V19 ")
niiRLs%Em = nii_V19(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 3D - 3D* M20 transitions
! case B
!
where (niiRLs%Mult .eq. "V20 ")
niiRLs%Em = nii_V20(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 3D - 3P* M21 transitions
! case B
!
where (niiRLs%Mult .eq. "V21 ")
niiRLs%Em = nii_V21(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).4s 3D - 3P* M22 transitions
! case B
!
where (niiRLs%Mult .eq. "V22 ")
niiRLs%Em = nii_V22(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 3S - 3P* M24 transitions
! case B
!
where (niiRLs%Mult .eq. "V24 ")
niiRLs%Em = nii_V24(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).4s 3S - 3P* M26 transitions
! case B
!
where (niiRLs%Mult .eq. "V26 ")
niiRLs%Em = nii_V26(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 3P - 3D* M28 transitions
! case B
!
where (niiRLs%Mult .eq. "V28 ")
niiRLs%Em = nii_V28(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 3P - 3P* M29 transitions
! case B
!
where (niiRLs%Mult .eq. "V29 ")
niiRLs%Em = nii_V29(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).4s 3P - 3P* M30 transitions
! case B
!
where (niiRLs%Mult .eq. "V30 ")
niiRLs%Em = nii_V30(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3p - 2s2.2p.(2P*).3d 1D - 1F* M31 transitions
! case A
!
where (niiRLs%Mult .eq. "V31 ")
niiRLs%Em = nii_V31(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3d - 2s2.2p.(2P*).4p 3F* - 3D M36 transitions
! case B
!
where (niiRLs%Mult .eq. "V36 ")
niiRLs%Em = nii_V36(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3d - 2s2.2p.(2P*<3/2>).4f 3F* - 3G M39 transitions
! case B
!
where (niiRLs%Mult(1:3) .eq. "V39")
niiRLs%Em = nii_V39(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 2s2.2p.(2P*).3d - 2s2.2p.(2P*<3/2>).4f 1F* - 1G M58 transitions
! case A
!
where (niiRLs%Mult(1:3) .eq. "V58")
niiRLs%Em = nii_V58(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 3d 3D* - 4f 3F 4242 M48 transitions
! case B
!
where (niiRLs%Mult(1:3) .eq. "V48")
niiRLs%Em = nii_V48(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 3d 3P* - 4f 3D 4435 M55 transitions
! case B
!
where (niiRLs%Mult(1:3) .eq. "V55")
niiRLs%Em = nii_V55(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 3d 1D* - 4f 1F 4176 M43 (RMT M42) transitions
! case A
!
where (niiRLs%Mult(1:3) .eq. "V43")
niiRLs%Em = nii_V43(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 3d 1P* - 4f 1D 4677 M61 (RMT M62) transitions
! case A
!
where (niiRLs%Mult(1:3) .eq. "V61")
niiRLs%Em = nii_V61(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 3d 3F* - 4f 1G 4026 M39b transitions
! case A (PPB):
!
where (niiRLs%Mult(1:4) .eq. "V39b")
niiRLs%Em = nii_V39b(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
!
! 3d 1F* - 4f 3G 4552 M58a transitions
! case A (PPB):
!
where (niiRLs%Mult(1:4) .eq. "V58a")
niiRLs%Em = nii_V58a(6) * 1.98648E-08 / niiRLs%Wave * niiRLs%Br_LS
niiRLs%Int = 100 * niiRLs%Em / Em_Hb * abund
endwhere
end subroutine nii_rec_lines
subroutine cii_rec_lines(te, ne, abund, ciiRLs)
implicit none
real(kind=dp) :: aeff_Hb, Em_Hb, Te, Ne, abund, tered
type(ciiRL), dimension(:) :: ciiRLs
!debugging
#ifdef CO
print *,"subroutine: cii_rec_lines"
#endif
call get_aeff_hb(te,ne, aeff_hb, em_hb)
tered = te/10000
ciiRLs%aeff = 1e-14 * (ciiRLs%a*(tered**ciiRLs%f)) * (1 &
&+ (ciiRLs%b*(1-tered)) &
&+ (ciiRLs%c * ((1-tered)**2) ) &
&+ (ciiRLs%d * ((1-tered)**3) ) &
&)
ciiRLs%Int = 100 * (ciiRLs%aeff/aeff_hb) * (4861.33/ciiRLs%Wave) * abund
end subroutine cii_rec_lines
subroutine neii_rec_lines(te, ne, abund, neiiRLs)
implicit none
real(kind=dp) :: aeff_Hb, Em_Hb, Te, Ne, abund, tered
type(neiiRL), dimension(:) :: neiiRLs
!debugging
#ifdef CO
print *,"subroutine: neii_rec_lines"
#endif
call get_aeff_hb(te,ne, aeff_hb, em_hb)
tered = te/10000.
neiiRLs%aeff = neiiRLs%Br * 1e-14 * &
&(neiiRLs%a*(tered**neiiRLs%f)) * (1 &
&+ (neiiRLs%b*(1-tered)) &
&+ (neiiRLs%c * ((1-tered)**2) ) &
&+ (neiiRLs%d * ((1-tered)**3) ) &
&)
neiiRLs%Int = 100 * (neiiRLs%aeff/aeff_hb) * (4861.33/neiiRLs%Wave) * abund
end subroutine neii_rec_lines
subroutine xiii_rec_lines(te, ne, abund, xiiiRLs)
implicit none
real(kind=dp) :: aeff_Hb, Em_Hb, Te, Ne, abund, tered
type(xiiiRL), dimension(:) :: xiiiRLs
call get_aeff_hb(te,ne, aeff_hb, em_hb)
tered = te/90000. !ionic charge=3 so divide by 9
xiiiRLs%aeff = xiiiRLs%Br * 1e-13 * 3 * &
& (xiiiRLs%a*(tered**xiiiRLs%b)) / &
& (1 + (xiiiRLs%c * (tered**xiiiRLs%d)))
xiiiRLs%Int = 100 * (xiiiRLs%aeff/aeff_hb) * (4861.33/xiiiRLs%Wave) * abund
end subroutine xiii_rec_lines
subroutine get_aeff_hb(te, ne, aeff_hb, em_hb)
implicit none
real(kind=dp) :: Te, Ne, AE2, AE3, AE4, AE5, AE6, AE7, AE8, aeff_hb, Em_Hb, logem
!debugging
#ifdef CO
print *,"subroutine: get_aeff_hb"
#endif
AE2 = -9.06524E+00 -2.69954E+00 * log10(te) + 8.80123E-01 * &
&log10(te) ** 2 -1.57946E-01 * log10(te) ** 3 + &
&9.25920E-03 * log10(te) ** 4
AE3 = -8.13757E+00 -3.57392E+00 * log10(te) + 1.19331E+00 * &
&log10(te) ** 2 -2.08362E-01 * log10(te) ** 3 + &
&1.23303E-02 * log10(te) ** 4
AE4 = -6.87230E+00 -4.72312E+00 * log10(te) + 1.58890E+00 * &
&log10(te) ** 2 -2.69447E-01 * log10(te) ** 3 + &
&1.58955E-02 * log10(te) ** 4
AE5 = -5.15059E+00 -6.24549E+00 * log10(te) + 2.09801E+00 * &
&log10(te) ** 2 -3.45649E-01 * log10(te) ** 3 + &
&2.01962E-02 * log10(te) ** 4
AE6 = -2.35923E+00 -8.75565E+00 * log10(te) + 2.95600E+00 * &
&log10(te) ** 2 -4.77584E-01 * log10(te) ** 3 + &
&2.78852E-02 * log10(te) ** 4
AE7 = 1.55373E+00 -1.21894E+01 * log10(te) + 4.10096E+00 * &
&log10(te) ** 2 -6.49318E-01 * log10(te) ** 3 + &
&3.76487E-02 * log10(te) ** 4
AE8 = 6.59883E+00 -1.64030E+01 * log10(te) + 5.43844E+00 * &
&log10(te) ** 2 -8.40253E-01 * log10(te) ** 3 + &
&4.79786E-02 * log10(te) ** 4
if (log10(ne) .lt. 2) then
aeff_hb = ae2
elseif (log10(ne) .ge. 2 .and. log10(ne) .lt. 3) then
aeff_hb = AE2 + (AE3 - AE2) * (log10(ne) - 2)
elseif (log10(ne) .ge. 3 .and. log10(ne) .lt. 4) then
aeff_hb = AE3 + (AE4 - AE3) * (log10(ne) - 3)
elseif (log10(ne) .ge. 4 .and. log10(ne) .lt. 5) then
aeff_hb = AE4 + (AE5 - AE4) * (log10(ne) - 4)
elseif (log10(ne) .ge. 5 .and. log10(ne) .lt. 6) then
aeff_hb = AE5 + (AE6 - AE5) * (log10(ne) - 5)
elseif (log10(ne) .ge. 6 .and. log10(ne) .lt. 7) then
aeff_hb = AE6 + (AE7 - AE6) * (log10(ne) - 6)
elseif (log10(ne) .ge. 7 .and. log10(ne) .lt. 8) then
aeff_hb = AE7 + (AE8 - AE7) * (log10(ne) - 7)
else
aeff_hb = AE8
endif
LogEm = aeff_hb - 11.38871 ! = log10(hc/lambda in cgs)
aeff_hb = 10**aeff_hb
em_hb = 10**logem
end subroutine get_aeff_hb
end module mod_recombination_lines
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/types.f90������������������������������������������������������������������������0000664�0000000�0000000�00000026266�12714613141�0016076�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������module mod_abundtypes
implicit none
private :: dp
integer, parameter :: dp = kind(1.d0)
TYPE line
character(len=11) :: name
character(len=10) :: ion
real(kind=dp) :: wavelength
real(kind=dp) :: wavelength_observed !for use with output from ALFA
real(kind=dp) :: intensity
real(kind=dp) :: int_err
real(kind=dp) :: flambda
real(kind=dp) :: int_dered
real(kind=dp) :: blend_intensity !intensity for blended lines copied to this, set to zero for abundance calculations, then copied back for linelist
real(kind=dp) :: blend_int_dered
real(kind=dp) :: blend_int_err
real(kind=dp) :: freq
character(len=20) :: transition
real(kind=dp) :: abundance
real(kind=dp) :: weight ! to be used in abundance calculations
character(len=4) :: zone !high, medium or low ionisation zone
integer :: location !for CELs and He, this indicates the position of the line in the main linelist array, so that when its abundance is calculated it can be copied back into the linelist array for easy outputting
character(len=15) :: latextext ! ion name in latex format
character(len=85) :: linedata
end type
type CEL
integer :: location
character(len=11) :: name
character(len=10) :: ion
real(kind=dp) :: wavelength
character(len=20) :: transition
character(len=4) :: zone !high, medium or low ionisation zone
character(len=15) :: latextext ! ion name in latex format
end type CEL
type weightingarray
real(kind=dp) :: oiiDens = 0.d0
real(kind=dp) :: siiDens = 0.d0
real(kind=dp) :: oiiTemp = 0.d0
real(kind=dp) :: siiTemp = 0.d0
real(kind=dp) :: niiTemp = 0.d0
real(kind=dp) :: ciTemp = 0.d0
real(kind=dp) :: oiTemp = 0.d0
real(kind=dp) :: cliiiDens = 0.d0
real(kind=dp) :: ciiiDens = 0.d0
real(kind=dp) :: arivDens = 0.d0
real(kind=dp) :: oiiiIRDens = 0.d0
real(kind=dp) :: ariiiIRDens = 0.d0
real(kind=dp) :: siiiIRDens = 0.d0
real(kind=dp) :: neiiiIRDens = 0.d0
real(kind=dp) :: oiiiTemp = 0.d0
real(kind=dp) :: siiiTemp = 0.d0
real(kind=dp) :: ariiiTemp = 0.d0
real(kind=dp) :: neiiiTemp = 0.d0
real(kind=dp) :: neiiiIRTemp = 0.d0
real(kind=dp) :: oiiiIRTemp = 0.d0
real(kind=dp) :: oiiiUVTemp = 0.d0
real(kind=dp) :: neivDens = 0.d0
real(kind=dp) :: arvTemp = 0.d0
real(kind=dp) :: nevTemp = 0.d0
!balmer line weights for extinction calculation
real(kind=dp) :: ha = 0.d0
real(kind=dp) :: hg = 0.d0
real(kind=dp) :: hd = 0.d0
!helium abundance weights
real(kind=dp) :: he4471 = 0.d0
real(kind=dp) :: he5876 = 0.d0
real(kind=dp) :: he6678 = 0.d0
!he ii abundance weights
real(kind=dp), dimension(20,2:6) :: heii = 0.d0
!CEL abundance weights are not set in the weights variable but in the linelist itself
!recombination line multiplet weights
real(kind=dp) :: niiV3 = 0.d0
real(kind=dp) :: niiV5 = 0.d0
real(kind=dp) :: niiV8 = 0.d0
real(kind=dp) :: niiV12 = 0.d0
real(kind=dp) :: niiV20 = 0.d0
real(kind=dp) :: niiV28 = 0.d0
real(kind=dp) :: nii3d4f = 0.d0
real(kind=dp) :: oiiV1 = 0.d0
real(kind=dp) :: oiiV2 = 0.d0
real(kind=dp) :: oiiV5 = 0.d0
real(kind=dp) :: oiiV10 = 0.d0
real(kind=dp) :: oiiV11 = 0.d0
real(kind=dp) :: oiiV12 = 0.d0
real(kind=dp) :: oiiV19 = 0.d0
real(kind=dp) :: oiiV20 = 0.d0
real(kind=dp) :: oiiV25 = 0.d0
real(kind=dp) :: oiiV28 = 0.d0
real(kind=dp) :: oiiV33 = 0.d0
real(kind=dp) :: oii3d4f = 0.d0
end type weightingarray
end module mod_abundtypes
module mod_resultarrays
implicit none
private :: dp
integer, parameter :: dp = kind(1.d0)
TYPE resultarray
real(kind=dp) :: NC_abund_CEL=0d0
real(kind=dp) :: cii_abund_CEL=0d0
real(kind=dp) :: ciii_abund_CEL=0d0
real(kind=dp) :: civ_abund_CEL=0d0
real(kind=dp) :: C_icf_CEL=0d0
real(kind=dp) :: C_abund_CEL=0d0
real(kind=dp) :: Nii_abund_CEL=0d0
real(kind=dp) :: Niii_abund_CEL=0d0
real(kind=dp) :: Niv_abund_CEL=0d0
real(kind=dp) :: Nv_abund_CEL=0d0
real(kind=dp) :: N_icf_CEL=0d0
real(kind=dp) :: N_abund_CEL=0d0
real(kind=dp) :: NO_abund_CEL=0d0
real(kind=dp) :: Oii_abund_CEL=0d0
real(kind=dp) :: Oiii_abund_CEL=0d0
real(kind=dp) :: Oiv_abund_CEL=0d0
real(kind=dp) :: O_icf_CEL=0d0
real(kind=dp) :: O_abund_CEL=0d0
real(kind=dp) :: Neii_abund_CEL=0d0
real(kind=dp) :: Neiii_abund_CEL=0d0
real(kind=dp) :: Neiv_abund_CEL=0d0
real(kind=dp) :: Nev_abund_CEL=0d0
real(kind=dp) :: Ne_icf_CEL=0d0
real(kind=dp) :: Ne_abund_CEL=0d0
real(kind=dp) :: Ariii_abund_CEL=0d0
real(kind=dp) :: Ariv_abund_CEL=0d0
real(kind=dp) :: Arv_abund_CEL=0d0
real(kind=dp) :: Ar_icf_CEL=0d0
real(kind=dp) :: Ar_abund_CEL=0d0
real(kind=dp) :: Sii_abund_CEL=0d0
real(kind=dp) :: Siii_abund_CEL=0d0
real(kind=dp) :: Cliii_abund_CEL=0d0
real(kind=dp) :: Cl_icf_CEL=0d0
real(kind=dp) :: Cl_abund_CEL=0d0
real(kind=dp) :: S_icf_CEL=0d0
real(kind=dp) :: S_abund_CEL=0d0
real(kind=dp) :: Hei_abund_ORL=0d0
real(kind=dp) :: Heii_abund_ORL=0d0
real(kind=dp) :: He_abund_ORL=0d0
real(kind=dp) :: Cii_abund_ORL=0d0
real(kind=dp) :: Ciii_abund_ORL=0d0
real(kind=dp) :: C_icf_ORL=0d0
real(kind=dp) :: C_abund_ORL=0d0
real(kind=dp) :: Nii_abund_ORL=0d0
real(kind=dp) :: Niii_abund_ORL=0d0
real(kind=dp) :: N_icf_ORL=0d0
real(kind=dp) :: N_abund_ORL=0d0
real(kind=dp) :: Oii_abund_ORL=0d0
real(kind=dp) :: O_icf_ORL=0d0
real(kind=dp) :: O_abund_ORL=0d0
real(kind=dp) :: Neii_abund_ORL=0d0
real(kind=dp) :: Ne_icf_ORL=0d0
real(kind=dp) :: Ne_abund_ORL=0d0
real(kind=dp) :: OII_density=0d0
real(kind=dp) :: SII_density=0d0
real(kind=dp) :: low_density=0d0
real(kind=dp) :: OII_temp=0d0
real(kind=dp) :: NII_temp=0d0
real(kind=dp) :: SII_temp=0d0
real(kind=dp) :: OI_temp=0d0
real(kind=dp) :: CI_temp=0d0
real(kind=dp) :: low_temp=0d0
real(kind=dp) :: ClIII_density=0d0
real(kind=dp) :: ArIV_density=0d0
real(kind=dp) :: CIII_density=0d0
real(kind=dp) :: OIII_IR_density=0d0
real(kind=dp) :: SIII_IR_density=0d0
real(kind=dp) :: ArIII_IR_density=0d0
real(kind=dp) :: NeIII_IR_density=0d0
real(kind=dp) :: med_density=0d0
real(kind=dp) :: OIII_temp=0d0
real(kind=dp) :: OIII_IR_temp=0d0
real(kind=dp) :: OIII_UV_temp=0d0
real(kind=dp) :: NeIII_temp=0d0
real(kind=dp) :: NeIII_IR_temp=0d0
real(kind=dp) :: ArIII_temp=0d0
real(kind=dp) :: SIII_temp=0d0
real(kind=dp) :: med_temp=0d0
real(kind=dp) :: NeIV_density=0d0
real(kind=dp) :: high_density=0d0
real(kind=dp) :: ArV_temp=0d0
real(kind=dp) :: NeV_temp=0d0
real(kind=dp) :: high_temp=0d0
real(kind=dp) :: mean_cHb=0d0
real(kind=dp) :: O_R23_upper=0d0
real(kind=dp) :: O_R23_lower=0d0
real(kind=dp) :: O_N2=0d0
real(kind=dp) :: O_O3N2=0d0
real(kind=dp) :: O_Ar3O3=0d0
real(kind=dp) :: O_S3O3=0d0
real(kind=dp) :: adf_O=0d0
real(kind=dp) :: adf_O2plus=0d0
real(kind=dp) :: adf_N=0d0
real(kind=dp) :: adf_N2plus=0d0
real(kind=dp) :: adf_C=0d0
real(kind=dp) :: adf_C2plus=0d0
real(kind=dp) :: adf_Ne=0d0
real(kind=dp) :: adf_Ne2plus=0d0
real(kind=dp) :: OII_density_ratio=0d0
real(kind=dp) :: SII_density_ratio=0d0
real(kind=dp) :: NII_temp_ratio=0d0
real(kind=dp) :: OII_temp_ratio=0d0
real(kind=dp) :: SII_temp_ratio=0d0
real(kind=dp) :: CI_temp_ratio=0d0
real(kind=dp) :: OI_temp_ratio=0d0
real(kind=dp) :: ClIII_density_ratio=0d0
real(kind=dp) :: ArIV_density_ratio=0d0
real(kind=dp) :: CIII_density_ratio=0d0
real(kind=dp) :: OIII_IR_density_ratio=0d0
real(kind=dp) :: ArIII_IR_density_ratio=0d0
real(kind=dp) :: SIII_IR_density_ratio=0d0
real(kind=dp) :: NeIII_IR_density_ratio=0d0
real(kind=dp) :: OIII_temp_ratio=0d0
real(kind=dp) :: NeIII_temp_ratio=0d0
real(kind=dp) :: ArIII_temp_ratio=0d0
real(kind=dp) :: SIII_temp_ratio=0d0
real(kind=dp) :: OIII_IR_temp_ratio=0d0
real(kind=dp) :: OIII_UV_temp_ratio=0d0
real(kind=dp) :: NeIII_IR_temp_ratio=0d0
real(kind=dp) :: NeIV_density_ratio=0d0
real(kind=dp) :: ArV_temp_ratio=0d0
real(kind=dp) :: NeV_temp_ratio=0d0
real(kind=dp) :: Balmer_jump_temp=0d0
real(kind=dp) :: Paschen_jump_temp=0.d0
real(kind=dp) :: oii_v1_abund_orl=0d0
real(kind=dp) :: oii_v2_abund_orl=0d0
real(kind=dp) :: oii_v5_abund_orl=0d0
real(kind=dp) :: oii_v10_abund_orl=0d0
real(kind=dp) :: oii_v11_abund_orl=0d0
real(kind=dp) :: oii_v12_abund_orl=0d0
real(kind=dp) :: oii_v19_abund_orl=0d0
real(kind=dp) :: oii_v20_abund_orl=0d0
real(kind=dp) :: oii_v25_abund_orl=0d0
real(kind=dp) :: oii_v28_abund_orl=0d0
real(kind=dp) :: oii_v33_abund_orl=0d0
real(kind=dp) :: oii_3d4f_abund_orl=0d0
real(kind=dp) :: nii_v3_abund_orl=0d0
real(kind=dp) :: nii_v5_abund_orl=0d0
real(kind=dp) :: nii_v8_abund_orl=0d0
real(kind=dp) :: nii_v12_abund_orl =0d0
real(kind=dp) :: nii_v20_abund_orl =0d0
real(kind=dp) :: nii_v28_abund_orl=0d0
real(kind=dp) :: nii_3d4f_abund_orl=0d0
real(kind=dp) :: oii_te=0.d0
real(kind=dp) :: oii_ne=0.d0
real(kind=dp) :: ratio_5876_4471=0.d0
real(kind=dp) :: ratio_6678_4471=0.d0
real(kind=dp) :: Te_5876_4471=0.d0
real(kind=dp) :: Te_6678_4471=0.d0
real(kind=dp) :: nii5754recCEL=0.d0
real(kind=dp) :: oii7325recCEL=0.d0
real(kind=dp) :: oiii4363recCEL=0.d0
real(kind=dp) :: nii5754recRL=0.d0
real(kind=dp) :: oii7325recRL=0.d0
real(kind=dp) :: oiii4363recRL=0.d0
real(kind=dp) :: balmerdec_density=0.d0
real(kind=dp) :: paschendec_density=0.d0
end type resultarray
type arraycount
real(kind=dp) :: value
integer :: counts
end type arraycount
end module mod_resultarrays
module mod_atomicdata
implicit none
private :: dp
integer, parameter :: dp = kind(1.d0)
type atomic_data
integer :: NTEMPS
integer :: NLEVS
integer :: irats
character(len=10) :: ion
real(kind=dp),allocatable :: temps(:)
real(kind=dp),allocatable :: roott(:)
character(len=20),allocatable :: labels(:)
integer,allocatable :: G(:)
real(kind=dp),allocatable :: waveno(:)
real(kind=dp),allocatable :: A_coeffs(:,:)
real(kind=dp),allocatable :: col_str(:,:,:)
end type atomic_data
end module mod_atomicdata
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/source/weights.f90����������������������������������������������������������������������0000664�0000000�0000000�00000021670�12714613141�0016376�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������module mod_weights
use mod_abundtypes
use mod_abundIO
contains
subroutine setweights(configfile,weights,linelist,ILs,H_Balmer,H_Paschen,HeII_lines)
!will read configuration file in containing all the weights. currently just sets them.
implicit none
integer, parameter :: dp=kind(1.d0)
character(len=512) :: configfile
character(len=16) :: quantity
character(len=24) :: filecheck
real(kind=dp) :: weight
type(weightingarray) :: weights
type(line),dimension(:) :: linelist
type(cel),dimension(82) :: ILs
integer, dimension(3:40) :: H_Balmer
integer, dimension(4:39) :: H_Paschen
integer, dimension(20,2:6) :: HeII_lines
integer :: io, lineno, upper, lower
!balmer and paschen defaults
where (H_Balmer.gt.0)
linelist(H_Balmer)%weight = -1
endwhere
where (H_Paschen.gt.0)
linelist(H_Paschen)%weight = -1
endwhere
!open config file
open(631, file=trim(configfile),iostat=io,status="old")
read(631,"(24A)") filecheck
if (filecheck .ne. "#NEAT configuration file") then
print *," ",trim(configfile)," doesn't appear to be a NEAT configuration file"
call exit(1)
endif
do while (IO .ge. 0)
read(631,*,end=111) quantity
if (quantity(1:1).ne."#") then
backspace(631)
read(631,"(A16,F5.2)") quantity,weight
!conditions for weight assignment here. it's going to be ugly, no way around it
!low ionisation densities
if (trim(quantity).eq."oiiDens") then
weights%oiiDens = weight
cycle
elseif (trim(quantity).eq."siiDens") then
weights%siiDens = weight
cycle
!low ionisation temperatures
elseif (trim(quantity).eq."oiiTemp") then
weights%oiiTemp = weight
cycle
elseif (trim(quantity).eq."siiTemp") then
weights%siiTemp = weight
cycle
elseif (trim(quantity).eq."niiTemp") then
weights%niiTemp = weight
cycle
elseif (trim(quantity).eq."ciTemp") then
weights%ciTemp = weight
cycle
elseif (trim(quantity).eq."oiTemp") then
weights%oiTemp = weight
cycle
!medium ionisation densities
elseif (trim(quantity).eq."cliiiDens") then
weights%cliiiDens = weight
cycle
elseif (trim(quantity).eq."ciiiDens") then
weights%ciiiDens = weight
cycle
elseif (trim(quantity).eq."arivDens") then
weights%arivDens = weight
cycle
elseif (trim(quantity).eq."oiiiIRDens") then
weights%oiiiIRDens = weight
cycle
elseif (trim(quantity).eq."ariiiIRDens") then
weights%ariiiIRDens = weight
cycle
elseif (trim(quantity).eq."siiiIRDens") then
weights%siiiIRDens = weight
cycle
elseif (trim(quantity).eq."neiiiIRDens") then
weights%neiiiIRDens = weight
cycle
!medium ionisation temperatures
elseif (trim(quantity).eq."oiiiTemp") then
weights%oiiiTemp = weight
cycle
elseif (trim(quantity).eq."siiiTemp") then
weights%siiiTemp = weight
cycle
elseif (trim(quantity).eq."ariiiTemp") then
weights%ariiiTemp = weight
cycle
elseif (trim(quantity).eq."neiiiTemp") then
weights%neiiiTemp = weight
cycle
elseif (trim(quantity).eq."neiiiIRTemp") then
weights%neiiiIRTemp = weight
cycle
elseif (trim(quantity).eq."oiiiIRTemp") then
weights%oiiiIRTemp = weight
cycle
elseif (trim(quantity).eq."oiiiUVTemp") then
weights%oiiiUVTemp = weight
cycle
!high ionisation densities
elseif (trim(quantity).eq."neivDens") then
weights%neivDens = weight
cycle
!high ionisation temperatures
elseif (trim(quantity).eq."arvTemp") then
weights%arvTemp = weight
cycle
elseif (trim(quantity).eq."nevTemp") then
weights%nevTemp = weight
cycle
!balmer weights for extinction calculation
elseif (trim(quantity).eq."ha") then
weights%ha = weight
cycle
elseif (trim(quantity).eq."hg") then
weights%hg = weight
cycle
elseif (trim(quantity).eq."hd") then
weights%hd = weight
cycle
!helium abundance weights
elseif (trim(quantity).eq."he4471") then
weights%he4471 = weight
cycle
elseif (trim(quantity).eq."he5876") then
weights%he5876 = weight
cycle
elseif (trim(quantity).eq."he6678") then
weights%he6678 = weight
cycle
elseif (quantity(1:2).eq."he") then
read(quantity(3:4),"(I2)") upper
read(quantity(5:6),"(I2)") lower
if (HeII_lines(upper,lower) .gt. 0) then
if (weight .ge. 0.d0) then
weights%heii(upper,lower) = weight
else
weights%heii(upper,lower) = linelist(HeII_lines(upper,lower))%intensity
endif
linelist(HeII_lines(upper,lower))%weight = weights%heii(upper,lower)
endif
cycle
elseif (quantity(1:1).eq."H") then !balmer line weight
backspace(631)
read(631,"(A16,F5.2)") quantity,weight
read(quantity(2:3),"(I2)") lineno
if (H_Balmer(lineno).gt.0) then
linelist(H_Balmer(lineno))%weight = weight
endif
elseif(quantity(1:1).eq."P") then !paschen line weight
backspace(631)
read(631,"(A16,F5.2)") quantity,weight
read(quantity(2:3),"(I2)") lineno
if (H_Paschen(lineno).gt.0) then
linelist(H_Paschen(lineno))%weight = weight
endif
!nii recombination line multiplets
elseif(trim(quantity).eq."niiV3") then
weights%niiV3 = weight
cycle
elseif(trim(quantity).eq."niiV5") then
weights%niiV5 = weight
cycle
elseif(trim(quantity).eq."niiV8") then
weights%niiV8 = weight
cycle
elseif(trim(quantity).eq."niiV12") then
weights%niiV12 = weight
cycle
elseif(trim(quantity).eq."niiV20") then
weights%niiV20 = weight
cycle
elseif(trim(quantity).eq."niiV28") then
weights%niiV28 = weight
cycle
elseif(trim(quantity).eq."nii3d4f") then
weights%nii3d4f = weight
cycle
!oii recombination line multiplets
elseif(trim(quantity).eq."oiiV1") then
weights%oiiV1 = weight
cycle
elseif(trim(quantity).eq."oiiV2") then
weights%oiiV2 = weight
cycle
elseif(trim(quantity).eq."oiiV5") then
weights%oiiV5 = weight
cycle
elseif(trim(quantity).eq."oiiV10") then
weights%oiiV10 = weight
cycle
elseif(trim(quantity).eq."oiiV11") then
weights%oiiV11 = weight
cycle
elseif(trim(quantity).eq."oiiV12") then
weights%oiiV12 = weight
cycle
elseif(trim(quantity).eq."oiiV19") then
weights%oiiV19 = weight
cycle
elseif(trim(quantity).eq."oiiV20") then
weights%oiiV20 = weight
cycle
elseif(trim(quantity).eq."oiiV25") then
weights%oiiV25 = weight
cycle
elseif(trim(quantity).eq."oiiV28") then
weights%oiiV28 = weight
cycle
elseif(trim(quantity).eq."oiiV33") then
weights%oiiV33 = weight
cycle
elseif(trim(quantity).eq."oii3d4f") then
weights%oii3d4f = weight
cycle
elseif (ILs(get_ion(quantity(1:11),ILs))%location .gt. 0) then !it's a CEL, get its location in the linelist array to set the weight
linelist(ILs(get_ion(quantity(1:11),ILs))%location)%weight = weight
endif
endif
enddo
111 continue
!where the weight is the observed flux, set it here
where (linelist%weight .lt. 0)
linelist%weight = linelist%intensity
endwhere
end subroutine setweights
end module
������������������������������������������������������������������������NEAT-master/utilities/������������������������������������������������������������������������������0000775�0000000�0000000�00000000000�12714613141�0015111�5����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/utilities/complete_line_list������������������������������������������������������������0000664�0000000�0000000�00000266032�12714613141�0020717�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������07.9000 & [Ar~{\sc v}]
09.0000 & [Ar~{\sc iii}]
10.5000 & [S~{\sc iv}]
12.8000 & [Ne~{\sc ii}]
13.1000 & [Ar~{\sc v}]
14.3000 & [Ne~{\sc v}]
15.5000 & [Ne~{\sc iii}]
18.7000 & [S~{\sc iii}]
21.8000 & [Ar~{\sc iii}]
24.3000 & [Ne~{\sc v}]
25.9000 & [O~{\sc iii}]
33.5000 & [S~{\sc iii}]
36.0000 & [Ne~{\sc iii}]
52.0000 & [O~{\sc iii}]
57.0000 & [N~{\sc iii}]
88.0000 & [O~{\sc iii}]
122.000 & [N~{\sc ii}]
205.000 & [N~{\sc ii}]
429.647 & O~{\sc ii}
485.631 & O~{\sc ii}
914.000 & C~{\sc ii}
962.000 & C~{\sc ii}
997.000 & C~{\sc ii}
1025.27 & He~{\sc ii} & 2.6 & 2p+ 2P & 6d+ 2D* & 8 & *
1064.00 & C~{\sc ii}
1066.00 & C~{\sc ii}
1084.94 & He~{\sc ii} & 2.5 & 2p+ 2P & 5d+ 2D* & 8 & *
1142.00 & C~{\sc ii}
1157.00 & C~{\sc ii}
1215.13 & He~{\sc ii} & 2.4 & 2p+ 2P & 4d+ 2D* & 8 & *
1232.00 & C~{\sc ii}
1240.00 & [N~{\sc v}]
1270.00 & C~{\sc ii}
1324.00 & C~{\sc ii}
1483.32 & [N~{\sc iv}]
1485.00 & [N~{\sc iv}]b
1486.50 & [N~{\sc iv}]
1505.00 & C~{\sc ii}
1548.00 & C~{\sc ii}
1549.00 & [C~{\sc iv}]
1632.00 & C~{\sc ii}
1640.42 & He~{\sc ii} & 2.3 & 2p+ 2P & 3d+ 2D* & 8 & *
1653.00 & C~{\sc ii}
1682.00 & C~{\sc ii}
1721.00 & C~{\sc ii}
1751.00 & [N~{\sc iii}]
1760.00 & C~{\sc ii}
1762.00 & C~{\sc ii}
1796.00 & C~{\sc ii}
1906.68 & [C~{\sc iii}]
1908.73 & [C~{\sc iii}]
1909.00 & [C~{\sc iii}]b
1910.00 & C~{\sc ii}
1930.00 & C~{\sc ii}
2097.12 & He~{\sc ii} & 3.20 & 3d+ 2D & 20f +2F* & 18 & *
2102.35 & He~{\sc ii} & 3.19 & 3d+ 2D & 19f +2F* & 18 & *
2108.50 & He~{\sc ii} & 3.18 & 3d+ 2D & 18f +2F* & 18 & *
2115.82 & He~{\sc ii} & 3.17 & 3d+ 2D & 17f +2F* & 18 & *
2124.63 & He~{\sc ii} & 3.16 & 3d+ 2D & 16f +2F* & 18 & *
2135.35 & He~{\sc ii} & 3.15 & 3d+ 2D & 15f +2F* & 18 & *
2138.00 & C~{\sc ii}
2140.00 & C~{\sc ii}
2148.60 & He~{\sc ii} & 3.14 & 3d+ 2D & 14f +2F* & 18 & *
2165.25 & He~{\sc ii} & 3.13 & 3d+ 2D & 13f +2F* & 18 & *
2174.00 & C~{\sc ii}
2186.60 & He~{\sc ii} & 3.12 & 3d+ 2D & 12f +2F* & 18 & *
2189.00 & C~{\sc ii}
2214.67 & He~{\sc ii} & 3.11 & 3d+ 2D & 11f +2F* & 18 & *
2252.69 & He~{\sc ii} & 3.10 & 3d+ 2D & 10f +2F* & 18 & *
2261.00 & C~{\sc ii}
2306.19 & He~{\sc ii} & 3.9 & 3d+ 2D & 9f +2F* & 18 & *
2325.00 & [C~{\sc ii}]
2375.00 & C~{\sc ii}
2385.40 & He~{\sc ii} & 3.8 & 3d+ 2D & 8f +2F* & 18 & *
2422.36 & [Ne~{\sc iv}]
2424.00 & [Ne~{\sc iv}]b
2425.01 & [Ne~{\sc iv}]
2511.20 & He~{\sc ii} & 3.7 & 3d+ 2D & 7f +2F* & 18 & *
2575.00 & C~{\sc ii}
2733.30 & He~{\sc ii} & 3.6 & 3d+ 2D & 6f +2F* & 18 & *
2747.00 & C~{\sc ii}
2841.00 & C~{\sc ii}
2945.10 & He~{\sc i}
2975.00 & [Ne~{\sc v}]
2993.00 & C~{\sc ii}
3017.31 & Ne~{\sc ii}
3027.02 & Ne~{\sc ii}
3028.70 & Ne~{\sc ii}
3034.46 & Ne~{\sc ii}
3037.72 & Ne~{\sc ii}
3042.19 & Si~{\sc ii} & V14 & 3d'_4D* & 4f'_4D & 8 & 8
3044.24 & Ne~{\sc iii} & & 3s_3D* & 3p_3D & 3 & 5
3045.56 & Ne~{\sc ii}
3047.12 & O~{\sc iii} & V4 & 3s_3P* & 3p_3P & 5 & 5
3047.56 & Ne~{\sc ii} & V8 & 3p_4P* & 3d_4D & 4 & 6
3054.68 & Ne~{\sc ii}
3059.30 & O~{\sc iii} & V4 & 3s_3P* & 3p_3P & 5 & 3
3061.49 & [Cr~{\sc iii}] & & 3d4_1F & 3d4_1G & 7 & 9
3109.17 & [Ar~{\sc iii}] & & 3p4_3P & 3p4_1S & 3 & 1
3115.68 & O~{\sc iii} & V12 & 3p_3S & 3d_3P* & 3 & 1
3121.64 & O~{\sc iii} & V12 & 3p_3S & 3d_3P* & 3 & 3
3124.95 & Ne~{\sc ii} & & 3d'_2F & 5f'2<3>* & 6 & 6
3132.79 & O~{\sc iii} & V12 & 3p_3S & 3d_3P* & 3 & 5
3138.13 & Ne~{\sc ii} & & 3d_4F & 5f_2<2>* & 4 & 4
3149.09 & Ne~{\sc ii} & & 3d_2F & 5f_2<3>* & 6 & 8
3154.80 & Ne~{\sc ii}
3162.66 & C~{\sc ii} & & 4f_2F* & 5d_2D & 6 & 6
3165.47 & C~{\sc ii} & V9 & 2p3_2D* & 3p'_2P & 6 & 4
3169.02 & He~{\sc i} & & 2s_1S & 15p_1P* & 1 & 3
3173.57 & Ne~{\sc ii}
3176.00 & C~{\sc ii}
3176.27 & He~{\sc i} & & 2s_1S & 14p_1P* & 1 & 3
3187.74 & He~{\sc i} & V3 & 2s_3S & 4p_3P* & 3 & 9
3188.74 & He~{\sc i}
3198.92 & Ne~{\sc ii}
3203.17 & He~{\sc ii} & 3.5 & 3d 2D & 5f 2F* & 6 & 8
3208.97 & Ne~{\sc ii}
3210.74 & [Fe~{\sc ii}] & & a6D & b2F & 4 & 8
3213.74 & Ne~{\sc ii}
3214.33 & Ne~{\sc ii}
3214.67 & [Fe~{\sc ii}] & & (5D)4s_6D & (3D)4s_4D & 8 & 8
3218.19 & Ne~{\sc ii} & V13 & 3p_4D* & 3d_4F & 8 & 10
3229.55 & Si~{\sc ii} & & 3d'_2P* & 4f'_2D & 4 & 6
3230.54 & N~{\sc ii} & & 3D & 3P* & 7 & 5
3244.09 & Ne~{\sc ii} & V13 & 3p_4D* & 3d_4F & 6 & 8
3250.84 & Fe~{\sc iii} & & 4G_4d3I & 2I_5p3I* & 11 & 11
3258.56 & [Mn~{\sc ii}] & & a7S & a3H & 7 & 11
3260.85 & O~{\sc iii} & V8 & 3p_3D & 3d_3F* & 5 & 7
3265.32 & O~{\sc iii} & V8 & 3p_3D & 3d_3F* & 7 & 9
3267.20 & O~{\sc iii} & V8 & 3p_3D & 3d_3F* & 3 & 5
3270.80 & Ne~{\sc ii}
3277.35 & Fe~{\sc ii}] & V1 & a4D & z6D* & 8 & 10
3287.35 & [Fe~{\sc ii}] & & a6D & b4D & 2 & 6
3289.98 & O~{\sc ii} & V23 & 3p_4P* & 4s_4P & 2 & 4
3297.73 & Ne~{\sc ii}
3299.40 & O~{\sc iii} & V3 & 3s_3P* & 3p_3S & 1 & 3
3304.31 & Fe~{\sc iii} & & 2S_4s3S & 4D_4p3P* & 3 & 5
3311.27 & Ne~{\sc ii}
3311.42 & N~{\sc ii} & V22 & 3p 3D & 4s 3P & 3 & 5
3312.32 & O~{\sc iii} & V3 & 3s_3P* & 3p_3S & 3 & 3
3318.10 & N~{\sc ii} & V22 & 3p 3D & 4s 3P & 5 & 5
3322.53 & [Fe~{\sc iii}] & & 5D & 7S & 9 & 7
3324.47 & Cr~{\sc ii} & & x6D* & 5D_9s6D & 8 & 10
3324.57 & N~{\sc ii} & V22 & 3p 3D & 4s 3P & 3 & 3
3327.15 & Ne~{\sc ii} & V2 & 3s_4P & 3p_4D* & 4 & 4
3328.73 & N~{\sc ii} & V22 & 3p 3D & 4s 3P & 7 & 5
3329.16 & Ne~{\sc ii} & V12 & 3p_4D* & 3d_4D & 8 & 8
3330.31 & N~{\sc ii} & V22 & 3p 3D & 4s 3P & 3 & 1
3330.73 & Ne~{\sc ii} & V20 & 3p_2D* & 3d_2F & 6 & 6
3331.31 & N~{\sc ii} & V22 & 3p 3D & 4s 3P & 5 & 3
3331.96 & [Fe~{\sc ii}] & & a6D & b2G & 8 & 10
3334.84 & Ne~{\sc ii} & V2 & 3s_4P & 3p_4D* & 6 & 8
3340.76 & O~{\sc iii} & V3 & 3s_3P* & 3p_3S & 5 & 3
3342.44 & [Ne~{\sc iii}]
3342.50 & [Ne~{\sc iii}] & & 2p4_1D & 2p4_1S & 5 & 1
3344.40 & Ne~{\sc ii}
3345.40 & [Ne~{\sc v}]
3345.88 & Ne~{\sc ii} & V12 & 3p_4D* & 3d_4D & 6 & 4
3350.62 & Fe~{\sc i} & & z5P* & 7/2<3/2> & 3 & 5
3353.17 & [Cl~{\sc iii}] & & 3p3_4S* & 3p3_2P* & 4 & 2
3354.55 & He~{\sc i} & V8 & 2s_1S & 7p_1P* & 1 & 3
3355.02 & Ne~{\sc ii} & V2 & 3s_4P & 3p_4D* & 4 & 6
3357.82 & Ne~{\sc ii} & V12 & 3p_4D* & 3d_4D & 6 & 6
3360.60 & Ne~{\sc ii} & V2 & 3s_4P & 3p_4D* & 1 & 3
3362.94 & Ne~{\sc ii} & V12 & 3p_4D* & 3d_4D & 4 & 2
3367.22 & Ne~{\sc ii} & V20 & 3p_2D* & 3d_2F & 6 & 8
3370.92 & Co~{\sc ii} & V2 & a5P & z5D* & 3 & 1
3374.06 & Ne~{\sc ii} & V12 & 3p_4D* & 3d_4D & 4 & 4
3377.15 & O~{\sc ii} & V9 & 3p 2S* & 3d 2P & 2 & 2
3387.09 & [Fe~{\sc ii}] & & a4F & b4D & 10 & 6
3388.42 & Ne~{\sc ii}
3390.21 & O~{\sc ii} & V9 & 3p 2S* & 3d 2P & 2 & 4
3390.55 & Ne~{\sc ii} & V12 & 3p_4D* & 3d_4D & 2 & 4
3403.52 & O~{\sc iv} & V2 & 3p_2P* & 3d_2D & 2 & 4
3405.71 & O~{\sc iii} & V15 & 3p_3P & 3d_3P* & 1 & 3
3408.12 & O~{\sc iii} & V15 & 3p_3P & 3d_3P* & 3 & 1
3411.69 & O~{\sc iv} & V2 & 3p_2P* & 3d_2D & 4 & 6
3413.64 & O~{\sc iv} & V2 & 3p_2P* & 3d_2D & 4 & 4
3415.26 & O~{\sc iii} & V15 & 3p_3P & 3d_3P* & 3 & 3
3416.91 & Ne~{\sc ii} & V21 & 3p_2D* & 3d_2D & 6 & 6
3417.69 & Ne~{\sc ii} & V19 & 3p_2D* & 3d_4F & 6 & 8
3423.91 & Ne~{\sc i} & V2.4 & 3s_2<2>* & 4p_1<2> & 3 & 3
3425.50 & [Ne~{\sc v}]
3425.86 & [Ne~{\sc v}] & F1 & 2p2 3P & 2p2 1D & 5 & 5
3437.15 & N~{\sc ii} & V13 & 3s 1P* & 3p 1S & 3 & 1
3444.07 & O~{\sc iii} & V15 & 3p 3P & 3d 3P* & 5 & 5
3470.78 & O~{\sc ii} & & 3p 2S* & 3d 4D & 2 & 4
3474.93 & O~{\sc ii} & V8 & 3p 2S* & 3d 4D & 2 & 2
3478.97 & He~{\sc i} & V43 & 2p 3P* & 15d 3D & 9 & 15
3488.17 & O~{\sc ii} & V7 & 3p 2S* & 3d 4P & 2 & 2
3496.28 & O~{\sc ii} & V7 & 3p 2S* & 3d 4P & 2 & 4
3512.52 & He~{\sc i} & V38 & 2p 3P* & 12d 3D & 9 & 15
3530.50 & He~{\sc i} & V36 & 2p 3P* & 11d 3D & 9 & 15
3554.42 & He~{\sc i} & V34 & 2p 3P* & 10d 3D & 9 & 15
3568.50 & Ne~{\sc ii} & V9 & 3s' 2D & 3p' 2F* & 6 & 8
3587.28 & He~{\sc i} & V31 & 2p 3P* & 9d 3D & 9 & 15
3593.60 & N~{\sc ii} & V26 & 3p 3S & 4s 3P & 3 & 5
3609.10 & N~{\sc ii} & V26 & 3p 3S & 4s 3P & 3 & 3
3613.64 & He~{\sc i} & V6 & 2s 1S & 5p 1P* & 1 & 3
3615.86 & N~{\sc ii} & V26 & 3p 3S & 4s 3P & 3 & 1
3634.25 & He~{\sc i} & V28 & 2p 3P* & 8d 3D & 9 & 15
3643.93 & Ne~{\sc ii}
3645.50 & Balmer Jump-
3646.50 & Balmer Jump+
3655.12 & H~{\sc i} & H40 & 2p+ 3P* & 40d+ 2D & 8 & *
3655.59 & H~{\sc i} & H39 & 2p+ 3P* & 39d+ 2D & 8 & *
3656.11 & H~{\sc i} & H38 & 2p+ 3P* & 38d+ 2D & 8 & *
3656.66 & H~{\sc i} & H37 & 2p+ 3P* & 37d+ 2D & 8 & *
3657.27 & H~{\sc i} & H36 & 2p+ 3P* & 36d+ 2D & 8 & *
3657.92 & H~{\sc i} & H35 & 2p+ 3P* & 35d+ 2D & 8 & *
3658.64 & H~{\sc i} & H34 & 2p+ 3P* & 34d+ 2D & 8 & *
3659.42 & H~{\sc i} & H33 & 2p+ 3P* & 33d+ 2D & 8 & *
3660.28 & H~{\sc i} & H32 & 2p+ 3P* & 32d+ 2D & 8 & *
3661.22 & H~{\sc i} & H31 & 2p+ 3P* & 31d+ 2D & 8 & *
3662.26 & H~{\sc i} & H30 & 2p+ 3P* & 30d+ 2D & 8 & *
3663.40 & H~{\sc i} & H29 & 2p+ 3P* & 29d+ 2D & 8 & *
3664.07 & Ne~{\sc ii} & V1 & 3s 4P & 3p 4P* & 6 & 4
3664.68 & H~{\sc i} & H28 & 2p+ 3P* & 28d+ 2D & 8 & *
3666.10 & H~{\sc i} & H27 & 2p+ 2P* & 27d+ 2D & 8 & *
3667.68 & H~{\sc i} & H26 & 2p+ 2P* & 26d+ 2D & 8 & *
3669.46 & H~{\sc i} & H25 & 2p+ 3P* & 25d+ 2D & 8 & *
3671.48 & H~{\sc i} & H24 & 2p+ 2P* & 24d+ 2D & 8 & *
3673.74 & H~{\sc i} & H23 & 2p+ 2P* & 23d+ 2D & 8 & *
3673.76 & H~{\sc i} & H23 & 2p+ 3P* & 23d+ 2D & 8 & *
3676.36 & H~{\sc i} & H22 & 2p+ 2P* & 22d+ 2D & 8 & *
3679.36 & H~{\sc i} & H21 & 2p+ 2P* & 21d+ 2D & 8 & *
3682.81 & H~{\sc i} & H20 & 2p+ 2P* & 20d+ 2D & 8 & *
3686.83 & H~{\sc i} & H19 & 2p+ 2P* & 19d+ 2D & 8 & *
3691.56 & H~{\sc i} & H18 & 2p+ 2P* & 18d+ 2D & 8 & *
3694.21 & Ne~{\sc ii} & V1 & 3s 4P & 3p 4P* & 6 & 6
3697.15 & H~{\sc i} & H17 & 2p+ 2P* & 17d+ 2D & 8 & *
3703.86 & H~{\sc i} & H16 & 2p+ 2P* & 16d+ 2D & 8 & *
3705.02 & He~{\sc i} & V25 & 2p 3P* & 7d 3D & 9 & 15
3707.25 & O~{\sc iii} & V14 & 3p 3P & 3d 3D* & 3 & 5
3709.62 & Ne~{\sc ii} & V1 & 3s 4P & 3p 4P* & 4 & 2
3711.97 & H~{\sc i} & H15 & 2p+ 2P* & 15d+ 2D & 8 & *
3712.74 & O~{\sc ii} & V3 & 3s 4P & 3p 4S* & 2 & 4
3713.08 & Ne~{\sc ii} & V5 & 3s 2P & 3p 2D* & 4 & 6
3715.08 & O~{\sc iii} & V14 & 3p 3P & 3d 3D* & 5 & 7
3721.63 & [S~{\sc iii}] & F2 & 3p2 3P & 3p2 1S & 3 & 1
3721.94 & H~{\sc i} & H14 & 2p+ 2P* & 14d+ 2D & 8 & *
3726.03 & [O~{\sc ii}] & F1 & 2p3 4S* & 2p3 2D* & 4 & 4
3727.00 & [O~{\sc ii}]b
3727.11 & Ne~{\sc ii}
3727.32 & O~{\sc ii} & V3 & 3s 4P & 3p 4S* & 4 & 4
3728.82 & [O~{\sc ii}] & F1 & 2p3 4S* & 2p3 2D* & 4 & 6
3734.37 & H~{\sc i} & H13 & 2p+ 2P* & 13d+ 2D & 8 & *
3734.94 & Ne~{\sc ii}
3749.48 & O~{\sc ii} & V3 & 3s 4P & 3p 4S* & 6 & 4
3749.49 & O~{\sc ii} & V3 & 3s 4P & 3p 4S* & 6 & 4
3750.15 & H~{\sc i} & H12 & 2p+ 2P* & 12d+ 2D & 8 & *
3751.25 & Ne~{\sc ii}
3754.69 & O~{\sc iii} & V2 & 3s 3P* & 3p 3D & 3 & 5
3754.70 & O~{\sc iii} & V2 & 3s 3P* & 3p 3D & 3 & 5
3757.24 & O~{\sc iii} & V2 & 3s 3P* & 3p 3D & 1 & 3
3759.87 & O~{\sc iii} & V2 & 3s 3P* & 3p 3D & 5 & 7
3762.60 & N~{\sc iii} & V11 & 3p 4D & 3d 4P* & 4 & 4
3766.26 & Ne~{\sc ii}
3766.64 & Ne~{\sc ii} & V1 & 3s 4P & 3p 4P* & 4 & 6
3770.63 & H~{\sc i} & H11 & 2p+ 2P* & 11d+ 2D & 8 & *
3774.02 & O~{\sc iii} & V2 & 3s 3P* & 3p 3D & 3 & 3
3777.14 & Ne~{\sc ii} & V1 & 3s 4P & 3p 4P* & 2 & 4
3784.89 & He~{\sc i} ? & & & & &
3791.27 & O~{\sc iii} & V2 & 3s 3P* & 3p 3D & 5 & 5
3796.33 & He~{\sc ii} & 4.20 & 4f+ 2F & 20g+ 2G* & 32 & *
3797.90 & H~{\sc i} & H10 & 2p+ 2P* & 10d+ 2D & 8 & *
3805.74 & He~{\sc i} & V58 & 2p 1P* & 11d 1D & 3 & 5
3813.49 & He~{\sc ii} & 4.19 & 4f+ 2F* & 19g+ 2G & 32 & *
3819.62 & He~{\sc i} & V22 & 2p 3P* & 6d 3D & 9 & 15
3829.79 & N~{\sc ii} & V30 & 3p 3P & 4s 3P & 3 & 5
3833.07 & O~{\sc ii} & V13 & 3p 4D* & 3d 2F & 6 & 8
3833.80 & He~{\sc ii} & 4.18 & 4f+ 2F & 18g+ 2G* & 32 & *
3835.39 & H~{\sc i} & H9 & 2p+ 2P* & 9d+ 2D & 8 & *
3838.37 & N~{\sc ii} & V30 & 3p 3P & 4s 3P & 5 & 5
3842.18 & N~{\sc ii} & V30 & 3p 3P & 4s 3P & 1 & 3
3842.82 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 2 & 4
3843.59 & O~{\sc ii} & V13 & 3p 4D* & 3d 2F & 4 & 6
3847.41 & N~{\sc ii} & V30 & 3p 3P & 4s 3P & 3 & 3
3847.89 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 2 & 2
3850.80 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 4 & 6
3851.03 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 4 & 4
3851.47 & O~{\sc ii} & V13 & 3p 4D* & 3d 2F & 8 & 8
3855.10 & N~{\sc ii} & V30 & 3p 3P & 4s 3P & 3 & 1
3856.02 & S~{\sc iii} & V12 & 3p2 2D & 4p 2P* & 6 & 4
3856.06 & N~{\sc ii} & V30 & 3p 3P & 4s 3P & 5 & 3
3856.13 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 4 & 2
3857.17 & O~{\sc ii} & V13 & 3p 4D* & 3d 2F & 6 & 6
3858.07 & He~{\sc ii} & 4.17 & 4f+ 2F* & 17g+ 2G & 32 & *
3862.60 & Si~{\sc ii} & V1 & 3p2 2D & 4p 2P* & 4 & 2
3863.50 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 6 & 8
3864.12 & O~{\sc ii} & V11 & 3p 4D* & 3d 4P & 2 & 2
3864.43 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 6 & 6
3864.67 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 6 & 4
3868.75 & [Ne~{\sc iii}] & F1 & 2p4 3P & 2p4 1D & 5 & 5
3872.44 & O~{\sc ii} & V11 & 3p 4D* & 3d 4P & 4 & 2
3874.09 & O~{\sc ii} & V11 & 3p 4D* & 3d 4P & 2 & 4
3875.80 & O~{\sc ii} & V13 & 3p 4D* & 3d 2F & 8 & 6
3882.19 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 8 & 8
3882.45 & O~{\sc ii} & V11 & 3p 4D* & 3d 4P & 4 & 4
3883.13 & O~{\sc ii} & V12 & 3p 4D* & 3d 4D & 8 & 6
3887.44 & He~{\sc ii} & 4.16 & 4f+ 2F & 16g+ 2G* & 32 & *
3888.65 & He~{\sc i} & V2 & 2s 3S & 3p 3P* & 3 & 9
3889.05 & H~{\sc i} & H8 & 2p+ 2P* & 8d+ 2D & 8 & *
3893.52 & O~{\sc ii} & V11 & 3p 4D* & 3d 4P & 4 & 6
3896.30 & O~{\sc ii} & V11 & 3p 4D* & 3d 4P & 6 & 4
3907.45 & O~{\sc ii} & V11 & 3p 4D* & 3d 4P & 6 & 6
3907.46 & O~{\sc ii} & V11 & 3p 4D* & 3d 4P & 6 & 6
3918.98 & C~{\sc ii} & V4 & 3p 2P* & 4s 2S & 2 & 2
3919.00 & N~{\sc ii} & V17 & 3p 1P & 3d 1P & 3 & 3
3920.00 & C~{\sc ii}
3920.69 & C~{\sc ii} & V4 & 3p 2P* & 4s 2S & 4 & 2
3923.48 & He~{\sc ii} & 4.15 & 4f+ 2F* & 15g+ 2G & 32 & *
3926.54 & He~{\sc i} & V58 & 2p 1P* & 8d 1D & 3 & 5
3933.66 & Ca~{\sc ii} & V1 & 4s 2S & 4p 2P* & 2 & 4
3945.04 & O~{\sc ii} & V6 & 3s 2P & 3p 2P* & 2 & 4
3954.36 & O~{\sc ii} & V6 & 3s 2P & 3p 2P* & 2 & 2
3964.73 & He~{\sc i} & V5 & 2s 1S & 4p 1P* & 1 & 3
3967.44 & O~{\sc ii} & V22 & 3p 4P* & 3d 2P & 2 & 2
3967.46 & [Ne~{\sc iii}] & F1 & 2p4 3P & 2p4 1D & 3 & 5
3968.43 & He~{\sc ii} & 4.14 & 4f+ 2F & 14g+ 2G* & 32 & *
3970.07 & H~{\sc i} & H7 & 2p+ 2P* & 7d+ 2D & 8 & 98
3973.26 & O~{\sc ii} & V6 & 3s 2P & 3p 2P* & 4 & 4
3982.71 & O~{\sc ii} & V6 & 3s 2P & 3p 2P* & 4 & 2
3985.42 & O~{\sc ii} & V22 & 3p 4P* & 3d 2P & 2 & 4
3994.99 & N~{\sc ii} & V12 & 3s 1P* & 3p 1D & 3 & 5
4003.58 & N~{\sc iii} & V17 & 4d 2D & 5f 2F* & 6 & 8
4009.26 & He~{\sc i} & V55 & 2p 1P* & 7d 1D & 3 & 5
4019.00 & C~{\sc ii}
4025.60 & He~{\sc ii} & 4.13 & 4f+ 2F & 13g+ 2G* & 32 & *
4026.07 & N~{\sc ii} & V39b & 3d 3F* & 4f 2<5> & 7 & 9
4026.08 & N~{\sc ii} & V39b & 3d 3F* & 4f 2[5] & 7 & 9
4026.21 & He~{\sc i} & V18 & 2p 3P* & 5d 3D & 9 & 15
4026.31 & O~{\sc ii} & V50b & 3d 4F & 4f F3* & 4 & 6
4032.25 & O~{\sc ii} & V50a & 3d 4F & 4f F4* & 6 & 8
4032.48 & O~{\sc ii} & V50c & 3d 4F & 4f F2* & 4 & 6
4033.16 & O~{\sc ii} & V50c & 3d 4F & 4f F2* & 4 & 4
4035.07 & O~{\sc ii} & V50b & 3d 4F & 4f F3* & 6 & 6
4035.08 & N~{\sc ii} & V39a & 3d 3F* & 4f 2[4] & 5 & 7
4035.46 & O~{\sc ii} & V50b & 3d 4F & 4f F3* & 6 & 8
4041.29 & O~{\sc ii} & V50c & 3d 4F & 4f F2* & 6 & 6
4041.31 & N~{\sc ii} & V39b & 3d 3F* & 4f 2[5] & 9 & 11
4041.95 & O~{\sc ii} & V50c & 3d 4F & 4f F2* & 6 & 4
4043.53 & N~{\sc ii} & V39a & 3d 3F* & 4f 2[4] & 7 & 9
4044.78 & N~{\sc ii} & V39a & 3d 3F* & 4f 2<4> & 7 & 7
4044.94 & O~{\sc ii} & V50a & 3d 4F & 4f F4* & 8 & 8
4046.11 & O~{\sc ii} & V50a & 3d 4F & 4f F4* & 8 & 0
4047.80 & O~{\sc ii} & V50b & 3d 4F & 4f F3* & 8 & 6
4048.21 & O~{\sc ii} & V50b & 3d 4F & 4f F3* & 8 & 8
4054.08 & O~{\sc ii} & V50c & 3d 4F & 4f F2* & 8 & 6
4056.90 & N~{\sc ii} & V39a & 3d 3F* & 4f 2<4> & 9 & 9
4058.16 & N~{\sc ii} & V39a & 3d 3F* & 4f 2<4> & 9 & 7
4060.60 & O~{\sc ii} & V97 & 3d 2F & 4f 2[4]* & 8 & *
4061.20 & O~{\sc ii} & V46c & 3d 4F & 4f D1* & 4 & 2
4061.22 & O~{\sc ii} & V46c & 3d 4F & 4f D1* & 4 & 4
4061.75 & O~{\sc ii} & V50a & 3d 4F & 4f F4* & 0 & 8
4062.94 & O~{\sc ii} & V50a & 3d 4F & 4f F4* & 0 & 0
4065.04 & O~{\sc ii} & V50b & 3d 4F & 4f F3* & 0 & 8
4067.94 & C~{\sc iii} & V16 & 4f 3F* & 5g 3G & 5 & 7
4068.60 & [S~{\sc ii}] & F1 & 2p3 4S* & 2p3 2P* & 4 & 4
4068.92 & C~{\sc iii} & V16 & 4f 3F* & 5g 3G & 7 & 7
4069.62 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 2 & 4
4069.89 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 4 & 6
4070.14 & O~{\sc ii} & V46c & 3d 4F & 4f D1* & 6 & 4
4070.26 & C~{\sc iii} & V16 & 4f 3F* & 5g 3G & 9 & 11
4071.23 & O~{\sc ii} & V48a & 3d 4F & 4f G5* & 8 & 10
4072.16 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 6 & 8
4075.86 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 8 & 10
4076.35 & [S~{\sc ii}] & F1 & 2p3 4S* & 2p3 2P* & 2 & 4
4077.59 & O~{\sc ii} & V46b & 3d 4F & 4f D2* & 4 & 6
4077.72 & O~{\sc ii} & V46b & 3d 4F & 4f D2* & 4 & 4
4078.84 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 4 & 4
4083.89 & O~{\sc ii} & V48b & 3d 4F & 4f G4* & 6 & 8
4083.90 & O~{\sc ii} & V48b & 3d 4F & 4f G4* & 6 & 8
4084.65 & O~{\sc ii} & V21 & 3p 4P* & 3d 2F & 6 & 8
4085.11 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 6 & 6
4086.58 & O~{\sc ii} & V46b & 3d 4F & 4f D2* & 6 & 6
4086.71 & O~{\sc ii} & V46b & 3d 4F & 4f D2* & 6 & 4
4087.15 & O~{\sc ii} & V48c & 3d 4F & 4f G3* & 4 & 6
4088.27 & O~{\sc ii} & V48a & 3d 4F & 4f G5* & 0 & 0
4089.29 & O~{\sc ii} & V48a & 3d 4F & 4f G5* & 10 & 12
4092.93 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 8 & 8
4094.14 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 6 & 4
4095.64 & O~{\sc ii} & V48c & 3d 4F & 4f G3* & 6 & 8
4096.19 & O~{\sc ii} & V48c & 3d 4F & 4f G3* & 6 & 6
4096.52 & O~{\sc ii} & V21 & 3p 4P* & 3d 2F & 4 & 6
4096.93 & O~{\sc ii} & V48b & 3d 4F & 4f G4* & 8 & 8
4097.25 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 2 & 4
4097.26 & O~{\sc ii} & V48b & 3d 4F & 4f G4* & 8 & 10
4097.33 & N~{\sc iii} & V1 & 3s 2S & 3p 2P* & 2 & 4
4098.24 & O~{\sc ii} & V46a & 3d 4F & 4f D3* & 4 & 6
4099.63 & O~{\sc ii} & V46b & 3d 4F & 4f D2* & 8 & 6
4100.04 & He~{\sc ii} & 4.12 & 4f+ 2F* & 12g+ 2G & 32 & *
4101.74 & H~{\sc i} & H6 & 2p+ 2P* & 6d+ 2D & 8 & 72
4103.00 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 2 & 2
4104.72 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 4 & 6
4104.99 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 4 & 4
4106.02 & O~{\sc ii} & V10 & 3p 4D* & 3d 4F & 8 & 6
4107.09 & O~{\sc ii} & V46a & 3d 4F & 4f D3* & 6 & 8
4107.33 & O~{\sc ii} & V46a & 3d 4F & 4f D3* & 6 & 6
4108.75 & O~{\sc ii} & V48c & 3d 4F & 4f G3* & 8 & 8
4109.29 & O~{\sc ii} & V48c & 3d 4F & 4f G3* & 8 & 6
4110.78 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 4 & 2
4110.79 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 4 & 2
4112.02 & O~{\sc ii} & V21 & 3p 4P* & 3d 2F & 6 & 6
4114.18 & O~{\sc ii} & V48b & 3d 4F & 4f G4* & 0 & 8
4114.50 & O~{\sc ii} & V48b & 3d 4F & 4f G4* & 0 & 0
4119.22 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 6 & 8
4120.28 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 6 & 6
4120.51 & O~{\sc ii} & V46a & 3d 4F & 4f D3* & 8 & 6
4120.54 & O~{\sc ii} & V20 & 3p 4P* & 3d 4D & 6 & 4
4120.82 & He~{\sc i}
4120.84 & He~{\sc i} & V16 & 2p 3P* & 5s 3S & 9 & 3
4121.46 & O~{\sc ii} & V19 & 3p 4P* & 3d 4P & 2 & 2
4126.09 & O~{\sc ii} & V48c & 3d 4F & 4f G3* & 0 & 8
4129.32 & O~{\sc ii} & V19 & 3p 4P* & 3d 4P & 4 & 2
4132.80 & O~{\sc ii} & V19 & 3p 4P* & 3d 4P & 2 & 4
4137.72 & O~{\sc ii} & V46a & 3d 4F & 4f D3* & 0 & 8
4140.70 & O~{\sc ii} & V19 & 3p 4P* & 3d 4P & 4 & 4
4143.76 & He~{\sc i} & V53 & 2p 1P* & 6d 1D & 3 & 5
4146.00 & O~{\sc ii} & V106 & 3p 6P & 3d 6D* & 8 & 8
4153.30 & O~{\sc ii} & V19 & 3p 4P* & 3d 4P & 4 & 6
4156.53 & O~{\sc ii} & V19 & 3p 4P* & 3d 4P & 6 & 4
4168.97 & He~{\sc i} & V52 & 2p 1P* & 6s 1S & 3 & 1
4169.22 & O~{\sc ii} & V19 & 3p 4P* & 3d 4P & 6 & 6
4176.16 & N~{\sc ii} & V43a & 3d 1D* & 4f 1[3] & 5 & 7
4185.45 & O~{\sc ii} & V36 & 3p' 2F* & 3d' 2G & 6 & 8
4186.90 & C~{\sc iii} & V18 & 4f 1F* & 5g 1G & 7 & 9
4189.79 & O~{\sc ii} & V36 & 3p' 2F* & 3d' 2G & 8 & 10
4195.76 & N~{\sc iii} & V6 & 3s' 2P* & 3p' 2D & 2 & 4
4199.83 & He~{\sc ii} & 4.11 & 4f+ 2F* & 11g+ 2G & 32 & *
4200.10 & N~{\sc iii} & V6 & 3s' 2P* & 3p' 2D & 4 & 6
4219.37 & Ne~{\sc ii} & V52a & 3d 4D & 4f 2[4]* & 8 & 8
4219.74 & Ne~{\sc ii} & V52a & 3d 4D & 4f 2[4]* & 8 & 10
4221.70 & O~{\sc ii} & & 3d 4P & 4f F4* & 6 & 8
4224.80 & O~{\sc ii} & & 3d 4P & 4f F3* & 6 & 6
4225.26 & O~{\sc ii} & & 3d 4P & 4f F3* & 6 & 8
4227.20 & [Fe~{\sc v}] & F2 & 3d4 5D & 3d4 3H & 9 & 9
4227.74 & N~{\sc ii} & V33 & 3p 1D & 4s 1P* & 5 & 3
4232.35 & O~{\sc ii} & & 3d 4P & 4f F2* & 6 & 4
4236.91 & N~{\sc ii} & V48a & 3d 3D* & 4f 1[3] & 3 & 5
4237.05 & N~{\sc ii} & V48b & 3d 3D* & 4f 1[4] & 5 & 7
4237.93 & O~{\sc ii} & & 3d 4P & 4f F3* & 4 & 6
4241.24 & N~{\sc ii} & V48a & 3d 3D* & 4f 1[3] & 5 & 5
4241.78 & N~{\sc ii} & V48b & 3d 3D* & 4f 1[4] & 7 & 9
4242.49 & N~{\sc ii} & V48b & 3d 3D* & 4f 1<4> & 7 & 7
4243.98 & [Fe~{\sc ii}] & & & & &
4244.76 & O~{\sc ii} & & 3d 4P & 4f F2* & 4 & 6
4245.52 & O~{\sc ii} & & 3d 4P & 4f F2* & 4 & 4
4246.71 & N~{\sc ii} & V48a & 3d 3D* & 4f 1<3> & 7 & 5
4247.20 & N~{\sc ii} & V48a & 3d 3D* & 4f 1<3> & 7 & 7
4253.86 & O~{\sc ii} & V101 & 3d 2G & 4f 2[5]* & 10 & 10
4254.00 & O~{\sc ii} & V101 & 3d' 2G & 4f' H5* & 18 & 22
4257.55 & O~{\sc ii} & & 3d 4P & 4f F2* & 2 & 4
4263.27 & O~{\sc ii} & V53c & 3d 4P & 4f D1* & 6 & 4
4267.15 & C~{\sc ii} & V6 & 3d 2D & 4f 2F* & 10 & 14
4273.10 & O~{\sc ii} & V67a & 3d 4D & 4f F4* & 6 & 8
4274.24 & O~{\sc ii} & V67a & 3d 4D & 4f F4* & 8 & 8
4275.55 & O~{\sc ii} & V67a & 3d 4D & 4f F4* & 8 & 10
4275.99 & O~{\sc ii} & V67b & 3d 4D & 4f F3* & 4 & 6
4276.28 & O~{\sc ii} & V67b & 3d 4D & 4f F3* & 6 & 6
4276.62 & O~{\sc ii} & V53c & 3d 4P & 4f D1* & 4 & 4
4276.71 & O~{\sc ii} & V53c & 3d 4P & 4f D1* & 4 & 2
4276.75 & O~{\sc ii} & V67b & 3d 4D & 4f F3* & 6 & 8
4277.43 & O~{\sc ii} & V67c & 3d 4D & 4f F2* & 2 & 4
4277.89 & O~{\sc ii} & V67b & 3d 4D & 4f F3* & 8 & 8
4281.32 & O~{\sc ii} & V53b & 3d 4P & 4f D2* & 6 & 6
4281.45 & O~{\sc ii} & V53b & 3d 4P & 4f D2* & 6 & 4
4282.02 & O~{\sc ii} & V78a & 3d 2F & 4f F4* & 6 & 8
4282.96 & O~{\sc ii} & V67c & 3d 4D & 4f F2* & 4 & 6
4283.25 & O~{\sc ii} & V67c & 3d 4D & 4f F2* & 6 & 6
4283.73 & O~{\sc ii} & V67c & 3d 4D & 4f F2* & 4 & 4
4284.00 & O~{\sc ii} & V67c & 3d 4D & 4f F2* & 6 & 4
4284.39 & O~{\sc ii} & V67c & 3d 4D & 4f F2* & 8 & 6
4285.21 & O~{\sc ii} & V78b & 3d 2F & 4f F3* & 6 & 6
4285.69 & O~{\sc ii} & V78b & 3d 2F & 4f F3* & 6 & 8
4287.39 & [Fe~{\sc ii}] & F7 & & & &
4288.82 & O~{\sc ii} & V53c & 3d 4P & 4f D1* & 2 & 2
4291.25 & O~{\sc ii} & V55 & 3d 4P & 4f G3* & 6 & 8
4291.86 & O~{\sc ii} & V55 & 3d 4P & 4f G3* & 6 & 6
4292.16 & C~{\sc ii} & & 4f 2F* & 10g 2G & 14 & 18
4292.21 & O~{\sc ii} & V78c & 3d 2F & 4f F2* & 6 & 6
4292.95 & O~{\sc ii} & V78c & 3d 2F & 4f F2* & 6 & 4
4294.78 & O~{\sc ii} & V53b & 3d 4P & 4f D2* & 4 & 6
4294.92 & O~{\sc ii} & V53b & 3d 4P & 4f D2* & 4 & 4
4303.61 & O~{\sc ii} & V65a & 3d 4D & 4f G5* & 8 & 10
4303.82 & O~{\sc ii} & V53a & 3d 4P & 4f D3* & 6 & 8
4304.08 & O~{\sc ii} & V53a & 3d 4P & 4f D3* & 6 & 6
4305.39 & O~{\sc ii} & V55 & 3d 4P & 4f G3* & 4 & 6
4307.23 & O~{\sc ii} & V53b & 3d 4P & 4f D2* & 2 & 4
4309.00 & O~{\sc ii} & V63c & 3d 4D & 4f D1* & 2 & 2
4312.11 & O~{\sc ii} & V78a & 3d 2F & 4f F4* & 8 & 8
4313.44 & O~{\sc ii} & V78a & 3d 2F & 4f F4* & 8 & 0
4315.39 & O~{\sc ii} & V63c & 3d 4D & 4f D1* & 4 & 2
4315.69 & O~{\sc ii} & V63c & 3d 4D & 4f D1* & 6 & 4
4315.83 & O~{\sc ii} & V78b & 3d 2F & 4f F3* & 8 & 8
4317.14 & O~{\sc ii} & V2 & 3s 4P & 3p 4P* & 2 & 4
4317.70 & O~{\sc ii} & V53a & 3d 4P & 4f D3* & 4 & 6
4319.63 & O~{\sc ii} & V2 & 3s 4P & 3p 4P* & 4 & 6
4322.44 & O~{\sc ii} & V78c & 3d 2F & 4f F2* & 8 & 6
4324.79 & O~{\sc ii} & V75c & 3d 2F & 4f D1* & 6 & 4
4325.76 & O~{\sc ii} & V2 & 3s 4P & 3p 4P* & 2 & 2
4327.59 & O~{\sc ii} & V63b & 3d 4D & 4f D2* & 2 & 4
4329.00 & C~{\sc ii}
4331.13 & O~{\sc ii} & V65b & 3d 4D & 4f G4* & 6 & 8
4332.33 & O~{\sc ii} & V65b & 3d 4D & 4f G4* & 8 & 8
4332.71 & O~{\sc ii} & V65b & 3d 4D & 4f G4* & 8 & 0
4333.88 & O~{\sc ii} & V63b & 3d 4D & 4f D2* & 4 & 6
4334.03 & O~{\sc ii} & V63b & 3d 4D & 4f D2* & 4 & 4
4334.19 & O~{\sc ii} & V63b & 3d 4D & 4f D2* & 6 & 6
4334.33 & O~{\sc ii} & V63b & 3d 4D & 4f D2* & 6 & 4
4335.36 & O~{\sc ii} & V63b & 3d 4D & 4f D2* & 8 & 6
4336.86 & O~{\sc ii} & V2 & 3s 4P & 3p 4P* & 4 & 4
4338.67 & He~{\sc ii} & 4.10 & 4f+ 2F* & 10g+ 2G & 32 & *
4340.33 & O~{\sc ii} & V76b & 3d 2F & 4f G4* & 6 & 8
4340.47 & H~{\sc i} & H5 & 2p+ 2P* & 5d+ 2D & 8 & 50
4342.00 & O~{\sc ii} & V77 & 3d 2F & 4f 2[5]* & 8 & 10
4343.36 & O~{\sc ii} & V75b & 3d 2F & 4f D2* & 6 & 6
4343.51 & O~{\sc ii} & V75b & 3d 2F & 4f D2* & 6 & 4
4344.42 & O~{\sc ii} & V65c & 3d 4D & 4f G3* & 6 & 8
4344.68 & O~{\sc ii} & V65c & 3d 4D & 4f G3* & 4 & 6
4344.96 & O~{\sc ii} & V65c & 3d 4D & 4f G3* & 6 & 6
4345.55 & O~{\sc ii} & V65c & 3d 4D & 4f G3* & 8 & 8
4345.56 & O~{\sc ii} & V2 & 3s 4P & 3p 4P* & 4 & 2
4346.16 & O~{\sc ii} & V65c & 3d 4D & 4f G3* & 8 & 6
4349.43 & O~{\sc ii} & V2 & 3s 4P & 3p 4P* & 6 & 6
4351.81 & [Fe~{\sc ii}] & & & & &
4353.59 & O~{\sc ii} & V76c & 3d 2F & 4f G3* & 6 & 8
4354.18 & O~{\sc ii} & V76c & 3d 2F & 4f G3* & 6 & 6
4357.25 & O~{\sc ii} & V63a & 3d 4D & 4f D3* & 6 & 6
4358.45 & O~{\sc ii} & V63a & 3d 4D & 4f D3* & 8 & 8
4358.70 & O~{\sc ii} & V63a & 3d 4D & 4f D3* & 8 & 6
4358.81 & [Fe~{\sc ii}] & F7 & 3d6 3D & 3d6 3P1 & 2 & 4
4363.21 & [O~{\sc iii}] & F2 & 2p2 1D & 2p2 1S & 5 & 1
4366.53 & O~{\sc ii} & V75a & 3d 2F & 4f D3* & 6 & 8
4366.79 & O~{\sc ii} & V75a & 3d 2F & 4f D3* & 6 & 6
4366.89 & N~{\sc iii} & V2 & 3s 4P & 3p 4P* & 6 & 4
4369.86 & Ne~{\sc ii} & V56 & 3d 4F & 4f 0[3]* & 4 & 6
4371.24 & O~{\sc ii} & V76b & 3d 2F & 4f G4* & 8 & 8
4371.62 & O~{\sc ii} & V76b & 3d 2F & 4f G4* & 8 & 10
4374.30 & O~{\sc ii} & V75b & 3d 2F & 4f D2* & 8 & 6
4379.11 & N~{\sc iii} & V18 & 4f 2F* & 5g 2G & 14 & 18
4379.55 & Ne~{\sc ii} & V60b & 3d 2F & 4f 1[4]* & 8 & 10
4384.70 & O~{\sc ii} & V76c & 3d 2F & 4f G3* & 8 & 8
4385.32 & O~{\sc ii} & V76c & 3d 2F & 4f G3* & 8 & 6
4386.01 & O~{\sc ii} & & 3d' 2D & 4f' G4* & 6 & 8
4387.93 & He~{\sc i} & V51 & 2p 1P* & 5d 1D & 3 & 5
4391.99 & Ne~{\sc ii} & V55e & 3d 4F & 4f 2[5]* & 10 & 12
4392.00 & Ne~{\sc ii} & V55e & 3d 4F & 4f 2[5]* & 10 & 10
4397.85 & O~{\sc ii} & V75a & 3d 2F & 4f D3* & 8 & 8
4397.99 & Ne~{\sc ii} & V57b & 3d 4F & 4f 1[4]* & 6 & 8
4398.10 & O~{\sc ii} & V75a & 3d 2F & 4f D3* & 8 & 6
4404.95 & O~{\sc ii} & & 3d 2P & 4f F3* & 4 & 6
4409.30 & Ne~{\sc ii} & V55e & 3d 4F & 4f 2[5]* & 8 & 10
4412.36 & O~{\sc ii} & & 3d 2P & 4f F2* & 4 & 6
4413.11 & Ne~{\sc ii} & V57c & 3d 4F & 4f 1[3]* & 4 & 6
4413.18 & O~{\sc ii} & & 3d 2P & 4f F2* & 4 & 4
4413.22 & Ne~{\sc ii} & V65 & 3d 4P & 4f 0[3]* & 6 & 8
4414.90 & O~{\sc ii} & V5 & 3s 2P & 3p 2D* & 4 & 6
4416.97 & O~{\sc ii} & V5 & 3s 2P & 3p 2D* & 2 & 4
4417.82 & N~{\sc ii} & V55b & 3d 3P* & 4f 2<2> & 5 & 3
4427.96 & N~{\sc ii} & V55b & 3d 3P* & 4f 2<2> & 3 & 3
4428.52 & Ne~{\sc ii} & V61b & 3d 2D & 4f 2[3]* & 6 & 8
4428.64 & Ne~{\sc ii} & V60c & 3d 2F & 4f 1[3]* & 6 & 8
4430.94 & Ne~{\sc ii} & V61a & 3d 2D & 4f 2[4]* & 6 & 8
4431.82 & N~{\sc ii} & V55a & 3d 3P* & 4f 2<3> & 5 & 5
4432.73 & N~{\sc ii} & V55a & 3d 3P* & 4f 2<3> & 5 & 7
4432.74 & N~{\sc ii} & V55a & 3d 3P* & 4f 2[3] & 5 & 7
4432.75 & N~{\sc ii} & V55b & 3d 3P* & 4f 2[3] & 5 & 7
4433.48 & N~{\sc ii} & V55b & 3d 3P* & 4f 2<2> & 1 & 3
4435.11 & N~{\sc i} ? & & 3p 2P* & 3d 2P & 2 & 2
4435.51 & O~{\sc ii} & & 3d 2P & 4f F2* & 2 & 4
4437.55 & He~{\sc i} & V50 & 2p 1P* & 5s 1S & 3 & 1
4442.02 & N~{\sc ii} & V55a & 3d 3P* & 4f 2[3] & 3 & 5
4446.81 & O~{\sc ii} & V86c & 3d 2P & 4f D1* & 4 & 4
4447.03 & N~{\sc ii} & V15 & 3p 1P & 3d 1D & 3 & 5
4448.19 & O~{\sc ii} & V35 & 3p' 2F* & 3d' 2F & 8 & 8
4452.37 & O~{\sc ii} & V5 & 3s 2P & 3p 2D* & 4 & 4
4457.05 & Ne~{\sc ii} & V61d & 3d 2D & 4f 2[2]* & 4 & 6
4457.24 & Ne~{\sc ii} & V61d & 3d 2D & 4f 2[2]* & 4 & 4
4459.93 & N~{\sc ii} & V21 & 3p 3D & 3d 3P & 3 & 1
4459.94 & N~{\sc ii} & V21 & 3p 3D & 3d 3P* & 3 & 1
4463.00 & C~{\sc ii}
4465.53 & N~{\sc ii} & V21 & 3p 3D & 3d 3P & 3 & 3
4466.41 & O~{\sc ii} & V86b & 3d 2P & 4f D2* & 4 & 6
4466.42 & O~{\sc ii} & V86b & 3d 2P & 4f D2* & 4 & 6
4466.59 & O~{\sc ii} & V86b & 3d 2P & 4f D2* & 4 & 4
4469.48 & O~{\sc ii} & V86c & 3d 2P & 4f D1* & 2 & 4
4471.50 & He~{\sc i} & V14 & 2p 3P* & 4d 3D & 9 & 15
4475.89 & N~{\sc ii} & V21 & 3p 3D & 3d 3P & 3 & 5
4477.69 & N~{\sc ii} & V21 & 3p 3D & 3d 3P & 5 & 3
4477.90 & O~{\sc ii} & V88 & 3d 2P & 4f G3* & 4 & 6
4481.21 & Mg~{\sc ii} & V4 & 3d 2D & 4f 2F* & 10 & 14
4485.45 & S~{\sc ii} & V43 & 3d 2D & 4f 2[3] & 4 & 6
4487.72 & O~{\sc ii} & V104 & 3d' 2P & 4f' D2* & 2 & 4
4488.12 & N~{\sc ii} & V21 & 3p 3D & 3d 3P & 5 & 5
4488.20 & O~{\sc ii} & V104 & 3d' 2P & 4f' D2* & 4 & 6
4488.75 & [Fe~{\sc ii}] & F6 & 4s 6D & 4s 4F & 6 & 6
4489.49 & O~{\sc ii} & V86b & 3d 2P & 4f D2* & 2 & 4
4491.07 & C~{\sc ii} & & 4f 2F* & 9g 2G & 14 & 18
4491.23 & O~{\sc ii} & V86a & 3d 2P & 4f D3* & 4 & 6
4507.56 & N~{\sc ii} & V21 & 3p 3D & 3d 3P & 7 & 5
4510.91 & N~{\sc iii} & V3 & 3s' 4P* & 3p' 4D & 2 & 4
4514.86 & N~{\sc iii} & V3 & 3s' 4P* & 3p' 4D & 6 & 8
4518.15 & N~{\sc iii} & V3 & 3s' 4P* & 3p' 4D & 2 & 2
4523.58 & N~{\sc iii} & V3 & 3s' 4P* & 3p' 4D & 4 & 4
4530.41 & N~{\sc ii} & V58b & 3d 1F* & 4f 2[5] & 7 & 9
4530.86 & N~{\sc iii} & V3 & 3s' 4P* & 3p' 4D & 4 & 2
4534.58 & N~{\sc iii} & V3 & 3s' 4P* & 3p' 4D & 6 & 6
4541.59 & He~{\sc ii} & 4.9 & 4f+ 2F* & 9g+ 2G & 32 & *
4552.53 & N~{\sc ii} & V58a & 3d 1F* & 4f 2[4] & 7 & 9
4562.60 & Mg~{\sc i}] & & 3s2 1S & 3s3p 3P* & 1 & 5
4563.18 & O~{\sc ii} & N50 & 3p 2D* & 3d 2P & 4 & 4
4571.10 & Mg~{\sc i}] & & 3s2 1S & 3s3p 3P* & 1 & 3
4590.97 & O~{\sc ii} & V15 & 3s' 2D & 3p' 2F* & 6 & 8
4595.96 & O~{\sc ii} & V15 & 3s' 2D & 3p' 2F* & 6 & 6
4596.18 & O~{\sc ii} & V15 & 3s' 2D & 3p' 2F* & 4 & 6
4601.48 & N~{\sc ii} & V5 & 3s 3P* & 3p 3P & 3 & 5
4602.13 & O~{\sc ii} & V92b & 3d 2D & 4f F3* & 4 & 6
4607.03 & [Fe~{\sc iii}] & F3 & 3d6 5D & 3d6 3F2 & 9 & 7
4607.16 & N~{\sc ii} & V5 & 3s 3P* & 3p 3P & 1 & 3
4609.44 & O~{\sc ii} & V92a & 3d 2D & 4f F4* & 6 & 8
4610.20 & O~{\sc ii} & V92c & 3d 2D & 4f F2* & 4 & 6
4611.07 & O~{\sc ii} & V92c & 3d 2D & 4f F2* & 4 & 4
4613.14 & O~{\sc ii} & V92b & 3d 2D & 4f F3* & 6 & 6
4613.68 & O~{\sc ii} & V92b & 3d 2D & 4f F3* & 6 & 8
4613.87 & N~{\sc ii} & V5 & 3s 3P* & 3p 3P & 3 & 3
4619.00 & C~{\sc ii}
4620.26 & C~{\sc ii} & & & & &
4621.25 & O~{\sc ii} & V92 & 3d 2D & 4f 2[2]* & 6 & 6
4621.27 & O~{\sc ii} & V92c & 3d 2D & 4f F2* & 6 & 6
4621.39 & N~{\sc ii} & V5 & 3s 3P* & 3p 3P & 3 & 1
4622.14 & O~{\sc ii} & V92c & 3d 2D & 4f F2* & 6 & 4
4624.92 & [Ar~{\sc v}]
4625.53 & [Ar~{\sc v}] & & 3p2 1D & 3p2 1S & 5 & 1
4630.54 & N~{\sc ii} & V5 & 3s 3P* & 3p 3P & 5 & 5
4634.14 & N~{\sc iii} & V2 & 3p 2P* & 3d 2D & 2 & 4
4638.85 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 2 & 4
4638.86 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 2 & 4
4639.00 & C~{\sc ii}
4640.64 & N~{\sc iii} & V2 & 3p 2P* & 3d 2D & 4 & 6
4641.81 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 4 & 6
4641.84 & N~{\sc iii} & V2 & 3p 2P* & 3d 2D & 4 & 4
4643.08 & N~{\sc ii} & V5 & 3s 3P* & 3p 3P & 5 & 3
4643.09 & N~{\sc ii} & V5 & 3s 3P* & 3p 3P & 5 & 3
4647.42 & C~{\sc iii} & V1 & 3s 3S & 3p 3P* & 3 & 5
4649.13 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 6 & 8
4650.25 & C~{\sc iii} & V1 & 3s 3S & 3p 3P* & 3 & 3
4650.84 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 2 & 2
4651.47 & C~{\sc iii} & V1 & 3s 3S & 3p 3P* & 3 & 1
4658.10 & [Fe~{\sc iii}] & F3 & 3d6 5D & 3d6 3F2 & 9 & 9
4658.64 & C~{\sc iv} & V8 & 5f 2F* & 6g 2G & 14 & 18
4659.04 & O~{\sc ii} & V89c & 3d 2D & 4f D1* & 6 & 4
4661.63 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 4 & 4
4669.27 & O~{\sc ii} & V89b & 3d 2D & 4f D2* & 4 & 6
4669.43 & O~{\sc ii} & V89b & 3d 2D & 4f D2* & 4 & 4
4673.73 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 4 & 2
4676.23 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 6 & 6
4676.24 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 6 & 6
4677.07 & O~{\sc ii} & V91 & 3d 2D & 4f G4* & 6 & 8
4678.14 & N~{\sc ii} & V61b & 3d 1P* & 4f 2[2] & 3 & 5
4680.58 & O~{\sc ii} & V89b & 3d 2D & 4f D2* & 6 & 6
4680.77 & O~{\sc ii} & V89b & 3d 2D & 4f D2* & 6 & 4
4681.80 & O~{\sc ii} & & 3d 2D & 4f G3* & 4 & 6
4685.68 & He~{\sc ii} & 3.4 & 3d+ 2D & 4f+ 2F* & 18 & 32
4693.19 & O~{\sc ii} & & 3d 2D & 4f G3* & 6 & 6
4696.35 & O~{\sc ii} & V1 & 3s 4P & 3p 4D* & 6 & 4
4699.22 & O~{\sc ii} & V25 & 3p 2D* & 3d 2F & 4 & 6
4701.62 & [Fe~{\sc iii}] & F3 & 3d6 5D & 3d6 3F2 & 7 & 7
4705.35 & O~{\sc ii} & V25 & 3p 2D* & 3d 2F & 6 & 8
4707.48 & O~{\sc ii} & V89a & 3d 2D & 4f D3* & 6 & 8
4707.81 & O~{\sc ii} & V89a & 3d 2D & 4f D3* & 6 & 6
4710.01 & O~{\sc ii} & V24 & 3p 2D* & 3d 4D & 4 & 6
4711.37 & [Ar~{\sc iv}] & F1 & 3p3 4S* & 3p3 2D* & 4 & 6
4713.17 & He~{\sc i} & V12 & 2p 3P* & 4s 3S & 9 & 3
4714.17 & [Ne~{\sc iv}] & F1 & 2p3 2D* & 2p3 2P* & 6 & 4
4715.21 & [Ne~{\sc iv}]b
4715.66 & [Ne~{\sc iv}] & F1 & 2p3 2D* & 2p3 2P* & 6 & 2
4717.99 & O~{\sc ii} & & 3p 2D* & 3d 4D & 4 & 2
4724.15 & [Ne~{\sc iv}] & F1 & 2p3 2D* & 2p3 2P* & 4 & 4
4724.89 & [Ne~{\sc iv}]b
4725.62 & [Ne~{\sc iv}] & F1 & 2p3 2D* & 2p3 2P* & 4 & 2
4733.91 & [Fe~{\sc iii}] & F3 & 3d6 5D & 3d6 3F2 & 5 & 5
4740.17 & [Ar~{\sc iv}] & F1 & 3p3 4S* & 3p3 2D* & 4 & 4
4741.71 & O~{\sc ii} & V25 & 3p 2D* & 3d 2F & 6 & 6
4751.27 & O~{\sc ii} & V24 & 3p 2D* & 3d 4D & 6 & 8
4752.00 & C~{\sc ii}
4752.68 & O~{\sc ii} & V24 & 3p 2D* & 3d 4D & 6 & 6
4753.05 & O~{\sc ii} & & 3p 2D* & 3d 4D & 6 & 4
4754.69 & [Fe~{\sc iii}] & F3 & 3d6 5D & 3d6 3F2 & 7 & 9
4754.7 & [Fe III] & F 3 & & & &
4769.4 & [Fe III] & F 3 & & & &
4774.06 & O~{\sc ii} & & 3p 2D* & 3d 4P & 4 & 6
4774.24 & N~{\sc ii} & V20 & 3p 3D & 3d 3D & 3 & 5
4779.72 & N~{\sc ii} & V20 & 3p 3D & 3d 3D & 3 & 3
4781.19 & N~{\sc ii} & V20 & 3p 3D & 3d 3D & 5 & 7
4788.13 & N~{\sc ii} & V20 & 3p 3D & 3d 3D* & 5 & 5
4793.65 & N~{\sc ii} & V20 & 3p 3D & 3d 3D & 5 & 3
4800.99 & O~{\sc ii} & & 3p 2D* & 3d 4P & 6 & 4
4802.23 & C~{\sc ii} & & 4f 2F* & 8g 2G & 14 & 18
4803.29 & N~{\sc ii} & V20 & 3p 3D & 3d 3D* & 7 & 7
4810.31 & N~{\sc ii} & V20 & 3p 3D & 3d 3D & 7 & 5
4814.53 & [Fe~{\sc ii}] & F20 & & & &
4815.55 & S~{\sc ii} & V9 & 4s 4P & 4p 4S* & 6 & 4
4817.93 & O~{\sc ii} & & 3p 2D* & 3d 4P & 6 & 6
4844.91 & O~{\sc ii} & V30 & 3p 4S* & 3d 2F & 4 & 6
4856.40 & O~{\sc ii} & V29 & 3p 4S* & 3d 4D & 4 & 6
4856.76 & O~{\sc ii} & V29 & 3p 4S* & 3d 4D & 4 & 4
4859.32 & He~{\sc ii} & 4.8 & 4f+ 2F & 8g+ 2G* & 32 & *
4861.33 & H~{\sc i} & H4 & 2p+ 2P* & 4d+ 2D & 8 & 32
4864.88 & O~{\sc ii} & V29 & 3p 4S* & 3d 4D & 4 & 2
4881.11 & [Fe~{\sc iii}] & F2 & 3d6 5D & 3d6 3H & 9 & 9
4890.86 & O~{\sc ii} & V28 & 3p 4S* & 3d 4P & 4 & 2
4906.83 & [Fe~{\sc iv}] & V28 & 3p 4S* & 3d 4P & 4 & 4
4921.93 & He~{\sc i} & V48 & 2p 1P* & 4d 1D & 3 & 5
4923.93 & [Fe~{\sc ii}] & & 4s2 4P & 4p 6P* & 6 & 4
4924.53 & O~{\sc ii} & V28 & 3p 4S* & 3d 4P & 4 & 6
4931.80 & [O~{\sc iii}] & F1 & 2p2 3P & 2p2 1D & 1 & 5
4958.91 & [O~{\sc iii}] & F1 & 2p2 3P & 2p2 1D & 3 & 5
4987.37 & N~{\sc ii} & V24 & 3p 3S & 3d 3P & 3 & 1
4994.36 & N~{\sc ii} & V24 & 3p 3S & 3d 3P & 3 & 3
5001.14 & N~{\sc ii} & V19 & 3p 3D & 3d 3F & 3 & 5
5001.48 & N~{\sc ii} & V19 & 3p 3D & 3d 3F & 5 & 7
5002.70 & N~{\sc ii} & V4 & 3s 3P* & 3p 3S & 1 & 3
5005.15 & N~{\sc ii} & V19 & 3p 3D & 3d 3F & 7 & 9
5006.84 & [O~{\sc iii}] & F1 & 2p2 3P & 2p2 1D & 5 & 5
5007.32 & N~{\sc ii} & V24 & 3p 3S & 3d 3P & 3 & 5
5010.62 & N~{\sc ii} & V4 & 3s 3P* & 3p 3S & 3 & 3
5015.68 & He~{\sc i} & V4 & 2s 1S & 3p 1P* & * & 1
5016.39 & N~{\sc ii} & V19 & 3p 3D & 3d 3F & 5 & 5
5025.66 & N~{\sc ii} & V19 & 3p 3D & 3d 3F & 7 & 7
5040.72 & N~{\sc ii} & V19 & 3p 3D & 3d 3F & 7 & 5
5045.10 & N~{\sc ii} & V4 & 3s 3P* & 3p 3S & 5 & 3
5047.74 & He~{\sc i} & V47 & 2p 1P* & 4s 1S & 3 & 1
5060.00 & C~{\sc ii}
5122.00 & C~{\sc ii}
5159.94 & O~{\sc ii} & V32 & 3p 2P* & 3d 2P & 2 & 2
5175.90 & O~{\sc ii} & V32 & 3p 2P* & 3d 2P & 4 & 2
5190.50 & O~{\sc ii} & V32 & 3p 2P* & 3d 2P & 2 & 4
5191.82 & [Ar~{\sc iii}] & F3 & 2p4 1D & 2p4 1S & 5 & 1
5199.84 & [N~{\sc i}] & F1 & 2p3 4S* & 2p3 2D* & 4 & 4
5200.26 & [N~{\sc i}] & F1 & 2p3 4S* & 2p3 2D* & 4 & 6
5206.65 & O~{\sc ii} & V32 & 3p 2P* & 3d 2P & 4 & 4
5224.78 & O~{\sc ii} & & 3p 4S* & 3d 4F & 4 & 4
5270.40 & [Fe~{\sc iii}] & F1 & 3d6 5D & 3d6 3P2 & 7 & 5
5342.38 & C~{\sc ii} & & 4f 2F* & 7g 2G & 14 & 18
5345.90 & [Kr~{\sc iv}] & F1 & & & &
5381.77 & O~{\sc ii} & & 3p 2P* & 3d 4D & 2 & 4
5391.74 & O~{\sc ii} & & 3p 2P* & 3d 4D & 2 & 2
5399.13 & O~{\sc ii} & & 3p 2P* & 3d 4D & 4 & 4
5409.20 & O~{\sc ii} & & 3p 2P* & 3d 4D & 4 & 2
5411.52 & He~{\sc ii} & 4.7 & 4f+ 2F* & 7g+ 2G & 32 & 98
5423.64 & O~{\sc ii} & & 3p 2P* & 3d 4P & 2 & 2
5441.30 & O~{\sc ii} & & 3p 2P* & 3d 4P & 4 & 2
5443.32 & O~{\sc ii} & & 3p 2P* & 3d 4P & 2 & 4
5452.08 & N~{\sc ii} & V29 & 3p 3P & 3d 3P & 1 & 3
5453.83 & S~{\sc ii} & V6 & 4s 4P & 4p 4D* & 6 & 8
5454.22 & N~{\sc ii} & V29 & 3p 3P & 3d 3P & 3 & 1
5461.04 & O~{\sc ii} & & 3p 2P* & 3d 4P & 4 & 4
5462.59 & N~{\sc ii} & V29 & 3p 3P & 3d 3P & 3 & 3
5478.10 & N~{\sc ii} & V29 & 3p 3P & 3d 3P & 3 & 5
5480.06 & N~{\sc ii} & V29 & 3p 3P & 3d 3P & 5 & 3
5483.01 & O~{\sc ii} & & 3p 2P* & 3d 4P & 4 & 6
5495.67 & N~{\sc ii} & V29 & 3p 3P & 3d 3P & 5 & 5
5517.66 & [Cl~{\sc iii}] & F1 & 2p3 4S* & 2p3 2D* & 4 & 6
5537.60 & [Cl~{\sc iii}] & F1 & 2p3 4S* & 2p3 2D* & 4 & 4
5577.34 & [O~{\sc i}] & F3 & 2p4 1D & 2p4 1S & 5 & 1
5666.63 & N~{\sc ii} & V3 & 3s 3P* & 3p 3D & 3 & 5
5676.02 & N~{\sc ii} & V3 & 3s 3P* & 3p 3D & 1 & 3
5679.56 & N~{\sc ii} & V3 & 3s 3P* & 3p 3D & 5 & 7
5686.21 & N~{\sc ii} & V3 & 3s 3P* & 3p 3D & 3 & 3
5695.92 & C~{\sc iii} & V2 & 3p 1P* & 3d 1D & 3 & 5
5710.77 & N~{\sc ii} & V3 & 3s 3P* & 3p 3D & 5 & 5
5730.65 & N~{\sc ii} & V3 & 3s 3P* & 3p 3D & 5 & 3
5754.60 & [N~{\sc ii}] & F3 & 2p2 1D & 2p2 1S & 5 & 1
5801.51 & C~{\sc iv} & V1 & 3s 2S & 3p 2P* & 2 & 4
5812.14 & C~{\sc iv} & V1 & 3s 2S & 3p 2P* & 2 & 2
5868.00 & [Kr~{\sc iv}] & & 4p3 4S & 3d3 2G & 4 & 4
5875.66 & He~{\sc i} & V11 & 2p 3P* & 3d 3D & 9 & 15
5890.00 & C~{\sc ii}
5927.81 & N~{\sc ii} & V28 & 3p 3P & 3d 3D* & 1 & 3
5931.78 & N~{\sc ii} & V28 & 3p 3P & 3d 3D* & 3 & 5
5940.24 & N~{\sc ii} & V28 & 3p 3P & 3d 3D & 3 & 3
5941.65 & N~{\sc ii} & V28 & 3p 3P & 3d 3D* & 5 & 7
5952.39 & N~{\sc ii} & V28 & 3p 3P & 3d 3D & 5 & 5
5960.90 & N~{\sc ii} & V28 & 3p 3P & 3d 3D & 5 & 3
5978.97 & S~{\sc iii} & V4 & & & &
6036.70 & He~{\sc ii} & 5.21 & 5g+ 2G & 21h+ 2H* & 50 & *
6074.19 & He~{\sc ii} & 5.20 & 5g+ 2G & 20f+ 2H* & 50 & *
6101.83 & [K~{\sc iv}] & F1 & 3p4 3P & 3d4 1D & 5 & 5
6114.60 & N~{\sc ii} & V36 & 3d 3F* & 4p 3D & 5 & 7
6118.26 & He~{\sc ii} & 5.19 & 5g+ 2G & 19f+ 2H* & 50 & *
6136.89 & N~{\sc ii} & V36 & 3d 3F* & 4p 3D & 7 & 7
6150.76 & N~{\sc ii} & V36 & 3d 3F* & 4p 3D & 5 & 5
6151.43 & C~{\sc ii} & V16.04 & 4d 2D & 6f 2F* & 10 & 14
6167.76 & N~{\sc ii} & V36 & 3d 3F* & 4p 3D & 9 & 7
6170.17 & N~{\sc ii} & V36 & 3d 3F* & 4p 3D & 5 & 3
6170.69 & He~{\sc ii} & 5.18 & 5g+ 2G & 18f+ 2H* & 50 & *
6173.31 & N~{\sc ii} & V36 & 3d 3F* & 4p 3D & 7 & 5
6233.82 & He~{\sc ii} & 5.17 & 5g+ 2G & 17f+ 2H* & 50 & *
6259.00 & C~{\sc ii}
6300.30 & [O~{\sc i}]
6300.34 & [O~{\sc i}] & F1 & 2p4 3P & 2p4 1D & 5 & 5
6310.85 & He~{\sc ii} & 5.16 & 5g+ 2G & 16f+ 2H* & 50 & *
6312.10 & [S~{\sc iii}] & F3 & 2p2 1D & 2p2 1S & 5 & 1
6347.10 & Si~{\sc ii} & V2 & 4s 2S & 4p 2P* & 2 & 4
6363.78 & [O~{\sc i}] & F1 & 2p4 3P & 2p4 1D & 3 & 5
6371.38 & S~{\sc iii} & V2 & 4s 2S & 4p 2P* & 2 & 2
6393.60 & [Mn~{\sc v}] & & 3d3 4F & 3d3 4P & 10 & 6
6406.38 & He~{\sc ii} & 5.15 & 5g+ 2G & 15f+ 2H* & 50 & *
6434.73 & [Ar~{\sc v}]
6461.95 & C~{\sc ii} & & 4f 2F* & 6g 2G & 14 & 18
6482.05 & N~{\sc ii} & V8 & 3s 1P* & 3p 1P & 3 & 3
6527.10 & He~{\sc ii} & 5.14 & 5g+ 2G & 14f+ 2H* & 50 & *
6548.10 & [N~{\sc ii}] & F1 & 2p2 3P & 2p2 1D & 3 & 5
6560.10 & He~{\sc ii} & 4.6 & 4f+ 2F* & 6g+ 2G & 32 & *
6562.77 & H~{\sc i} & H3 & 2p+ 2P* & 3d+ 2D & 8 & 18
6580.00 & C~{\sc ii}
6583.50 & [N~{\sc ii}] & F1 & 2p2 3P & 2p2 1D & 5 & 5
6610.56 & N~{\sc ii} & V31 & 3p 1D & 3d 1F & 5 & 7
6641.05 & O~{\sc ii} & V4 & 3s 2P & 3p 2S* & 2 & 2
6678.16 & He~{\sc i} & V46 & 2p 1P* & 3d 1D & 3 & 5
6683.20 & He~{\sc ii} & 5.13 & 5g+ 2G & 13h+ 2H* & 50 & *
6716.44 & [S~{\sc ii}] & F2 & 2p3 4S* & 2p3 2D* & 4 & 6
6721.40 & O~{\sc ii} & V4 & 3s 2P & 3p 2S* & 4 & 2
6730.82 & [S~{\sc ii}] & F2 & 2p3 4S* & 2p3 2D* & 4 & 4
6795.00 & [K~{\sc iv}] & F1 & 3p4 3P & 3p4 1D & 3 & 5
6890.90 & He~{\sc ii} & 5.12 & 5g+ 2G & 12f+ 2H* & 50 & *
7005.40 & [Ar~{\sc v}]
7005.67 & [Ar~{\sc v}] & F1 & 3s2 3P & 3s2 1D & 5 & 5
7065.25 & He~{\sc i} & V10 & 2p 3P* & 3s 3S & 9 & 3
7135.80 & [Ar~{\sc iii}] & F1 & 3p4 3P & 3p4 1D & 5 & 5
7160.56 & He~{\sc i} & & 3s 3S & 10p 3P* & 3 & 9
7177.52 & He~{\sc ii} & 5.11 & 5g+ 2G & 11f+ 2H* & 50 & *
7231.32 & C~{\sc ii} & V3 & 3p 2P* & 3d 2D & 2 & 4
7235.00 & C~{\sc ii}
7236.19 & C~{\sc ii} & V3 & 3p 2P* & 3d 2D & 4 & 6
7236.42 & C~{\sc ii} & V3 & 3p 2P* & 3d 2D & 4 & 6
7237.17 & C~{\sc ii} & V3 & 3p 2P* & 3d 2D & 4 & 4
7237.26 & [Ar~{\sc iv}] & F2 & 3p3 2D* & 3p3 2P* & 6 & 4
7254.38 & O~{\sc i} & V20 & 3p 3P & 5s 3S* & 3 & 3
7262.76 & [Ar~{\sc iv}] & F2 & 3p3 2D* & 3p3 2P* & 4 & 2
7281.35 & He~{\sc i} & V45 & 2p 1P* & 3s 1S & 3 & 1
7298.04 & He~{\sc i} & & 3s 3S & 9p 3P* & 3 & 9
7318.92 & [O~{\sc ii}] & F2 & 2p3 2D* & 2p3 2P* & 6 & 2
7319.45 & [O~{\sc ii}]b
7319.99 & [O~{\sc ii}] & F2 & 2p3 2D* & 2p3 2P* & 6 & 4
7329.67 & [O~{\sc ii}] & F2 & 2p3 2D* & 2p3 2P* & 4 & 2
7330.20 & [O~{\sc ii}]b
7330.73 & [O~{\sc ii}] & F2 & 2p3 2D* & 2p3 2P* & 4 & 4
7331.40 & [Ar~{\sc iv}] & F2 & 3p3 2D* & 3p3 2P* & 6 & 2
7449.07 & O~{\sc iii} & & 4d 3P* & 3s 3D & 5 & 5
7451.43 & [Ar~{\sc iii}] & F1 & 3p4 3P & 3p4 1D & 3 & 5
7452.50 & [Fe~{\sc ii}] & F14 & & & &
7455.36 & O~{\sc iii} & & 4s 3P* & 4p 3P & 5 & 5
7455.41 & O~{\sc iii} & & 4d 3P* & 3s 3D & 3 & 5
7499.84 & He~{\sc i} & & 3s 3S & 8p 3P* & 3 & 9
7530.54 & [Cl~{\sc iv}] & & 3p2 3P & 3p2 1D & 3 & 5
7530.83 & [Cl~{\sc iv}] & F1 & 3p2 3P & 3p2 1D & 3 & 5
7592.75 & He~{\sc ii} & 5.10 & 5g+ 2G & 10f+ 2H* & 50 & *
7618.46 & N~{\sc v} & V13 & 7g+ 2G & 8h+ 2H & * & *
7751.06 & [Ar~{\sc iii}] & & 3p4 3P & 3p4 1D & 3 & 5
7751.12 & [Ar~{\sc iii}] & F1 & 3p4 3P & 3p4 1D & 3 & 5
7751.43 & [Ar~{\sc iii}] & F1 & 3p4 3P & 3p4 1D & 3 & 5
7816.16 & He~{\sc i} & V69 & 3s 3S & 7p 3P* & 3 & 9
8001.86 & Ar~{\sc i} & &3d 2$<$1$>$*&8p 2$<$1$>$ & 3 & 3
8014.00 & N~{\sc iii} & & 3p' 2D & 3d' 2D* & 6 & 4
8018.08 & Fe~{\sc ii} & & 3P 5s4P & 3H 5p4G* & 6 & 8
8022.65 & [Fe~{\sc ii}] & & a4D & a2D2 & 2 & 4
8033.54 & [Ni~{\sc ii}] & & (3F)4s 4F & (3P)4s 4P & 4 & 6
8045.63 & [Cl~{\sc iv}] & & 3p2 3P & 3p2 1D & 5 & 5
8058.95 & Fe~{\sc ii} & & 4D sp6F* & 5D 5d6D & 10 & 8
8068.40 & C~{\sc iii} & & 5g 3G & 6h 3H* & 33 & 27
8076.62 & [V~{\sc ii}] & & a3G & a1F & 7 & 7
8083.88 & Fe~{\sc ii} & & z4D* & d4P & 4 & 6
8096.26 & Ti~{\sc iii} & & 3G* &3/2$<$9/2$>$& 11 & 9
8101.31 & Fe~{\sc iii} & & b2D 4s3D & 4P 4p5P* & 5 & 7
8101.56 & Ti~{\sc iii} & & 3d5f 1F* & 6g 2$<$4$>$& 7 & 7
8111.00 & N~{\sc ii} & & ? & ? & &
8116.60 & He~{\sc i} & 3.16 & 3p 3P* & 16d 3D & 9 &
8123.42 & Al~{\sc ii} & V110 & 5d 3D & 8f 3F* & 5 & 5
8133.90 & Si~{\sc i} & & 3d 3F* & 7p (11) & 5 & 3
8141.18 & Fe~{\sc iii} & & 4D 4d5G & 4G 5p5H* & 9 & 7
8159.95 & Fe~{\sc ii}] & & f4F & 3F 5p4G* & 8 & 10
8168.91 & He~{\sc i} & & 3p 3P* & 15s 3S & 9 & 3
8174.86 & Na~{\sc i} & & 2D & 2P* & 6 & 6
8176.22 & Na~{\sc i} & & 2D & 2P* & 6 & 6
8185.51 & Ne~{\sc i} & &4s 2$<$2$>$*&7p 2$<$1$>$ & 3 & 3
8186.56 & Na~{\sc i} & & 2D & 2P* & 6 & 6
8196.61 & Fe~{\sc i} & & d3F & w3F* & 9 & 7
8204.42 & Fe~{\sc ii} & & 4P sp4P* & 3F 4d4P & 2 & 4
8215.90 & N~{\sc ii} & & ? & ? & &
8222.04 & [Fe~{\sc ii}] & & a4G & c2D & 6 & 4
8225.10 & N~{\sc ii} & & 3P* & 3P & 5 & 3
8236.79 & He~{\sc ii} & 5.9 & 5g+ 2G & 9f+ 2H* & 50 & *
8237.15 & He~{\sc i} & & 3d 3D & 35p 3P* & 5 & 6
8243.69 & H~{\sc i} & P41 & 3d+ 2D & 41f+ 2F* & 18 &
8249.97 & H~{\sc i} & P40 & 3d+ 2D & 40f+ 2F* & 18 &
8255.02 & H~{\sc i} & P38 & 3d+ 2D & 38f+ 2F* & 18 &
8260.93 & H~{\sc i} & P36 & 3d+ 2D & 36f+ 2F* & 18 &
8264.28 & H~{\sc i} & P35 & 3d+ 2D & 35f+ 2F* & 18 &
8265.71 & He~{\sc i} & 3.9 & 3s 1S & 9p 1P* & 1 & 3
8267.94 & H~{\sc i} & P34 & 3d+ 2D & 34f+ 2F* & 18 &
8268.00 & C~{\sc ii}
8271.93 & H~{\sc i} & P33 & 3d+ 2D & 33f+ 2F* & 18 &
8276.31 & H~{\sc i} & P32 & 3d+ 2D & 32f+ 2F* & 18 &
8281.12 & H~{\sc i} & P31 & 3d+ 2D & 31f+ 2F* & 18 &
8286.43 & H~{\sc i} & P30 & 3d+ 2D & 30f+ 2F* & 18 &
8292.31 & H~{\sc i} & P29 & 3d+ 2D & 29f+ 2F* & 18 &
8298.83 & H~{\sc i} & P28 & 3d+ 2D & 28f+ 2F* & 18 &
8306.11 & H~{\sc i} & P27 & 3d+ 2D & 27f+ 2F* & 18 &
8314.26 & H~{\sc i} & P26 & 3d+ 2D & 26f+ 2F* & 18 &
8323.42 & H~{\sc i} & P25 & 3d+ 2D & 25f+ 2F* & 18 &
8333.78 & H~{\sc i} & P24 & 3d+ 2D & 24f+ 2F* & 18 &
8345.47 & H~{\sc i} & P23 & 3d+ 2D & 23f+ 2F* & 18 &
8359.00 & H~{\sc i} & P22 & 3d+ 2D & 22f+ 2F* & 18 &
8374.48 & H~{\sc i} & P21 & 3d+ 2D & 21f+ 2F* & 18 &
8392.40 & H~{\sc i} & P20 & 3d+ 2D & 20f+ 2F* & 18 &
8413.32 & H~{\sc i} & P19 & 3d+ 2D & 19f+ 2F* & 18 &
8421.99 & He~{\sc i} & 3.18 & 3d 3D & 18p 3P* & 15 &
8437.95 & H~{\sc i} & P18 & 3d+ 2D & 18f+ 2F* & 18 &
8444.69 & He~{\sc i} & & 3p 3P* & 11d 3D & 9 & 15
8451.20 & He~{\sc i} & 3.17 & 3d 3D & 17p 3P* & 15 &
8467.25 & H~{\sc i} & P17 & 3d+ 2D & 17f+ 2F* & 18 &
8480.85 & [Cl~{\sc iii}] & & 3p3 2D* & 3p3 2P* & 6 & 4
8486.31 & He~{\sc i} & 3.16 & 3d 3D & 16p 3P* & 15 &
8502.48 & H~{\sc i} & P16 & 3d+ 2D & 16f+ 2F* & 18 &
8519.35 & He~{\sc ii} & 6.31 & 6s+ 2S & 31p+ 2P* & 72 &
8528.99 & He~{\sc i} & 3.15 & 3d 3D & 15p 3P* & 15 &
8545.38 & H~{\sc i} & P15 & 3d+ 2D & 15f+ 2F* & 18 &
8561.99 & [V~{\sc ii}] & & b3D & d3P & 7 & 3
8566.92 & He~{\sc ii} & 6.29 & 6s+ 2S & 29p+ 2P* & 72 &
8578.69 & [Cl~{\sc ii}] & & 3p4 3P & 3p4 1D & 5 & 5
8581.87 & He~{\sc i} & & 3d 3D & 14f 3F* & 15 & 21
8598.39 & H~{\sc i} & P14 & 3d+ 2D & 14f+ 2F* & 18 &
8608.31 & He~{\sc i} & & 3p 1P* & 15d 1D & 3 & 5
8616.95 & [Fe~{\sc ii}] & & 4s 4H & 4s 2I & 14 & 14
8626.19 & He~{\sc ii} & 6.27 & 6s+ 2S & 27p+ 2P* & 72 &
8632.97 & He~{\sc i} & 3.10 & 3p 3P* & 10s 3S & 9 & 9
8648.25 & He~{\sc i} & 3.13 & 3d 3D & 13f 3F* & 15 &
8665.02 & H~{\sc i} & P13 & 3d+ 2D & 13f+ 2F* & 18 &
8676.35 & Ne~{\sc ii} & & 4d 4D &5f 1$<$3$>$*& 4 & 6
8680.28 & N~{\sc i} & V1 & 3s 4P & 3p 4D* & 6 & 8
8680.53 & Ca~{\sc iii} & &5d 2$<$4$>$*&5f 2$<$3$>$ & 9 & 7
8686.15 & N~{\sc i} & V1 & 3s 4P & 3p 4D* & 2 & 4
8691.28 & Fe~{\sc iii} & & 4D 4d3G & 4G 5p3G* & 9 & 9
8701.83 & N~{\sc ii} &V65.02a & 4d 3F* &5f 2$<$4$>$ & 7 & 7
8703.87 & [Ni~{\sc ii}] & & (3F)4s 2F & (1D)4s 2D & 8 & 6
8710.54 & N~{\sc ii} &V65.02b & 4d 3F* &5f 2$<$5$>$ & 9 & 11
8727.12 & [C~{\sc i}]
8728.90 & [Fe~{\sc iii}] & & 3P4 & 3D & 5 & 7
8733.43 & He~{\sc i} & 3.12 & 3d 3D & 12f 3F* & 15 &
8739.97 & He~{\sc i} & & 3d 3D & 12p 3P* & 5 & 3
8750.47 & H~{\sc i} & P12 & 3d+ 2D & 12f+ 2F* & 18 &
8776.97 & He~{\sc i} & 3.9 & 3p 3P* & 9d 3D & 1 & 3
8788.83 & O~{\sc ii} & & 4d 4F & 5f G4* & 6 & 8
8793.80 & C~{\sc ii} & V28.01 & 3p' 2D & 3d' 2F* & 6 & 8
8795.17 & [Cr~{\sc ii}] & & a2D & b2D & 4 & 6
8799.00 & He~{\sc ii} & 6.23 & 6s+ 2S & 23p+ 2P* & 72 &
8799.90 & C~{\sc ii} & V28.01 & 3p' 2D & 3d' 2F* & 4 & 6
8809.83 & Fe~{\sc ii} & & b4G & x4G* & 12 & 12
8816.64 & He~{\sc i} & & 3p 1P* & 12d 1D & 3 & 5
8822.18 & O~{\sc ii} & & 4d 4F & 5f G3* & 6 & 8
8822.73 & N~{\sc ii} & V65.01 & 4d 3F* &5f 1$<$4$>$ & 7 & 7
8845.37 & He~{\sc i} & 3.11 & 3d 3D & 11f 3F* & 15 &
8862.78 & H~{\sc i} & P11 & 3d+ 2D & 11f+ 2F* & 18 &
8869.00 & C~{\sc ii}
8899.31 & C~{\sc i} & & 3d 1D* & 8p 1D & 5 & 5
8914.77 & He~{\sc i} & 3.7 & 3s 1S & 7p 1P* & 1 & 3
8929.11 & He~{\sc ii} & 6.21 & 6s+ 2S & 21p+ 2P* & 72 &
8957.25 & Si~{\sc iv} & V3.01 & 5s 2S & 5p 2P* & 2 & 4
8970.83 & Ne~{\sc ii} & & 4p 4P* & 4d 4D & 2 & 4
8970.93 & Fe~{\sc ii}] & & a2F & z6D* & 8 & 10
8980.69 & Ni~{\sc ii} & & 3F 5s2F & 3F 5p2D* & 6 & 6
8984.40 & O~{\sc ii} & & 2D & P$<$1$>$* & 6 & 4
8997.02 & He~{\sc i} & 3.10 & 3d 3D & 10f 3F* & 15 &
9011.22 & He~{\sc ii} & 6.20 & 6s+ 2S & 20p+ 2P* & 72 & *
9014.91 & H~{\sc i} & P10 & 3d+ 2D & 10f+ 2F* & 18 &
9021.02 & O~{\sc ii} & & 4d 4D & 5f F2* & 4 & 6
9026.05 & O~{\sc ii} & & 4d 4D & 5f F2* & 4 & 4
9031.20 & Fe~{\sc ii}] & &4f 4$<$4$>$*& 5D 6d6D & 8 & 10
9039.10 & C~{\sc ii} & & 4P* & 4D & 6 & 8
9050.26 & O~{\sc ii} & & 4d 4D & 5f D1* & 2 & 2
9068.60 & [S~{\sc iii}] & & 3p2 3P & 3p2 1D & 3 & 5
9084.60 & Ne~{\sc ii} & & 3d 4F & 4p 4D* & 6 & 4
9095.46 & C~{\sc i} & & 3d 3D* & 9p 3D & 5 & 7
9095.94 & Ne~{\sc ii} & & 4p 4D* & 4d 4F & 8 & 10
9104.95 & O~{\sc ii} & & 4d 4D & 5f F4* & 8 & 10
9108.54 & He~{\sc ii} & 6.19 & 6s+ 2S & 19p+ 2P* & 72 &
9114.78 & Ne~{\sc ii} & & 4d 4F &5f 0$<$3$>$*& 8 & 6
9123.60 & [Cl~{\sc ii}] & & 3p4 3P & 3p4 1D & 3 & 5
9135.08 & O~{\sc ii} & & 4d 4D & 5f F2* & 8 & 6
9162.53 & [Fe~{\sc iii}] & & 7S & 5S & 7 & 5
9174.49 & He~{\sc i} & 3.8 & 3p 3P* & 8s 3S & 9 & 3
9182.83 & C~{\sc i} & V48 & 3p 1D & 4d 1D* & 5 & 5
9190.96 & Ne~{\sc ii} & & 4p' 2F* & 4d' 2G & 8 & 10
9199.74 & Ne~{\sc ii} & & 4p 4S* & 5s 4P & 4 & 4
9210.33 & He~{\sc i} & V83 & 3d 3D & 9f 3F* & 15 & 21
9225.23 & He~{\sc ii} & 6.18 & 6s+ 2S & 18p+ 2P* & 72 & *
9229.01 & H~{\sc i} & P9 & 3d+ 2D & 9f+ 2F* & 18 &
9230.00 & C~{\sc ii}
9241.44 & Ne~{\sc ii} & & 2D & 2$<$3$>$* & 6 & 6
9260.50 & O~{\sc ii} & & 5d 4P & 4f' P1* & 2 & 2
9266.62 & N~{\sc ii} &V65.05a & 4d 3D* &5f 1$<$3$>$ & 5 & 7
9272.40 & Ne~{\sc i} & &3/2$<$2/1$>$*&3/2$<$3/2$>$& 1 & 3
9276.23 & Fe~{\sc i} & & z5I* & e5H & 11 & 9
9283.39 & Fe~{\sc ii} & & c4F & z4G* & 8 & 8
9289.40 & [Fe~{\sc iv}] & & 4D & 2D5 & 8 & 6
9297.34 & N~{\sc ii} &V65.05a & 4d 3D* &5f 1$<$3$>$ & 7 & 7
9303.19 & He~{\sc i} & 3.9 & 3p 1P* & 9d 1D & 3 & 5
9306.56 & O~{\sc ii} & & 4d 4D & 5f D3* & 6 & 8
9323.06 & Fe~{\sc ii} & & e4D & 5D 5p4P* & 4 & 6
9331.50 & Ne~{\sc ii} & & 5g 2$<$4$>$&8f 2$<$5$>$*& 8 & 10
9339.40 & N~{\sc ii} & & ? & ? & &
9344.94 & He~{\sc ii} & 5.8 & 5g+ 2G & 8f+ 2H* & 50 & *
9350.15 & Ne~{\sc ii} & & 5g 2$<$6$>$&8f 2$<$5$>$*& 12 & 10
9367.03 & He~{\sc ii} & 6.17 & 6s+ 2S & 17p+ 2P* & 72 & *
9386.10 & Ni~{\sc ii} & &4f 4$<$2$>$*& 3F 6d4P & 6 & 4
9391.70 & [Fe~{\sc iv}] & & 3d5 2I & 3d5 2G2 & 12 & 10
9397.77 & Ni~{\sc ii} & & 3F 5d4G & 3F 7p4F* & 12 & 10
9402.17 & Ne~{\sc ii} & &4f 2$<$4$>$*&5g 1$<$5$>$ & 10 & 12
9408.85 & Ne~{\sc i} & &3d 2$<$4$>$*&8f 2$<$4$>$ & 9 & 9
9409.06 & O~{\sc ii} & & 4d 4P & 5f D2* & 4 & 6
9417.43 & Ne~{\sc ii} & & 6g 2$<$2$>$&4f'2$<$3$>$*& 4 & 6
9425.38 & Ne~{\sc i} & V8.01 & 3p 2$<$1$>$&3d 2$<$1$>$*& 1 & 3
9436.63 & [Fe~{\sc ii}] & & (3F2)4s 2F & (1D2)4s 2D & 6 & 4
9449.81 & Ne~{\sc ii} & & 4d 4P &5f 1$<$3$>$*& 6 & 8
9453.98 & Ne~{\sc i} & &3d 1$<$2$>$*&8f1$<$3,4$>$& 5 & 7
9459.07 & Ne~{\sc ii} & & 4d 2F &5f 2$<$5$>$*& 8 & 10
9463.58 & He~{\sc i} & V67 & 3s 3S & 5p 3P* & 3 & 9
9475.03 & Ni~{\sc ii} & &4f 3$<$3$>$*& 3F 6d2G & 8 & 10
9479.00 & [Co~{\sc iv}] & & 3F2 & 1I & 9 & 13
9486.98 & [Fe~{\sc ii}] & & b4P & b4D & 6 & 2
9490.85 & O~{\sc ii} & & 4d 4P & 5f D3* & 6 & 8
9499.27 & Ne~{\sc ii} & & 4d 2F &5f 2$<$3$>$*& 8 & 8
9516.63 & He~{\sc i} & V76 & 3p 3P* & 7d 3D & 9 & 15
9530.60 & [S~{\sc iii}] & & 3p2 3P & 3p2 1D & 5 & 5
9542.06 & He~{\sc ii} & 6.16 & 6s+ 2S & 16p+ 2P* & 72 & *
9545.97 & H~{\sc i} & P8 & 3d+ 2D & 8f+ 2F* & 18 &
9562.65 & Ne~{\sc i} & &3/2$<$1/2$>$&3/2$<$3/2$>$*& 3 & 3
9576.17 & Ar~{\sc ii} & &4f 2$<$3$>$*&5g 2$<$2$>$ & 6 & 6
9579.60 & [Mn~{\sc iii}] & & b4P & d2G & 6 & 8
9586.59 & Ni~{\sc ii} & &4f 4$<$5$>$*& 3F 6d4H & 12 & 14
9597.81 & C~{\sc iii} & V17.01 & 4f 1F* & 3p' 1D & 7 & 5
9598.78 & Fe~{\sc ii} & & e4D & 5D 5p6F* & 6 & 8
9603.44 & He~{\sc i} & V71 & 3s 1S & 6p 1P* & 1 & 3
9609.45 & Fe~{\sc i} & & e7D & 4F 5p3D* & 7 & 7
9614.55 & Ne~{\sc ii} & & 4d 2F &5f 1$<$3$>$*& 6 & 8
9620.50 & C~{\sc iii} & & 3H* & 3G & 33 & 27
9625.70 & He~{\sc i} & V90 & 3p 1P* & 8d 1D & 3 & 5
9632.33 & Ne~{\sc ii} & & 4d 2D &5f 2$<$2$>$*& 4 & 6
9634.21 & Fe~{\sc ii} & & e6D & 4P sp6D* & 8 & 10
9645.10 & [Fe~{\sc iii}] & & 5P & 3D & 3 & 7
9652.70 & [Fe~{\sc ii}] & & a4F & a4P & 4 & 6
9660.70 & Ar~{\sc i} & &3/2$<$1/2$>$&3/2$<$3/2$>$*& 3 & 3
9669.66 & [Fe~{\sc ii}] & & (3P2)4s 2P & (3D)4s 2D & 4 & 4
9680.62 & C~{\sc i} & & 3d 3D* & 7f 2$<$2$>$& 7 & 5
9693.00 & O~{\sc i} & & ? & ? & &
9702.71 & He~{\sc i} & V75 & 3p 3P* & 7s 3S & 9 & 3
9708.20 & C~{\sc iii} & & 6h 3H* & 7i 3I & 33 & 39
9713.99 & Ar~{\sc i} & &3d 2$<$2$>$*& 8p 2$<$1$>$& 3 & 1
9720.13 & Ne~{\sc ii} & & 4p 2S* & 4d 2P & 2 & 2
9741.50 & O~{\sc i} & V55.04 & 3p' 1F & 3d' 1G* & 7 & 9
9748.40 & O~{\sc i}] & & 5P & 3D* & 5 & 15
9762.15 & He~{\sc ii} & 6.15 & 6s+ 2S & 15p+ 2P* & 72 & *
9790.52 & Fe~{\sc ii} & &4f 4$<$6$>$*&5g 4$<$7$>$ & 14 & 16
9794.01 & N~{\sc ii} & V65.14 & 4d 1F* &5f 2$<$5$>$ & 7 & 9
9799.26 & Ne~{\sc ii} & & 2P* & 2P & 4 & 4
9808.85 & Ne~{\sc ii} & & 4s 2P & 4p 2P* & 2 & 4
9816.40 & Fe~{\sc ii} & & y2H* & 4s2 2G & 10 & 8
9824.13 & [C~{\sc i}] & & 2p2 3P & 2p2 1D & 3 & 5
9833.39 & O~{\sc ii} & & D$<$2$>$*& 2$<$2$>$ & 6 & 10
9849.96 & O~{\sc ii} & & 4d 2D & 5f F3* & 4 & 6
9850.26 & [C~{\sc i}] & & 2p2 3P & 2p2 1D & 5 & 5
9868.21 & N~{\sc ii} & V65.09 & 4f 1$<$3$>$&5g 1$<$4$>$*& 5 & 7
9891.09 & N~{\sc ii} &V65.11b & 4f 1$<$4$>$&5g 1$<$5$>$*& 18 & 27
9903.39 & O~{\sc ii} & & 4d 2D & 5f F3* & 6 & 6
9903.45 & O~{\sc ii} & & 4d 2D & 5f F3* & 6 & 8
9903.46 & C~{\sc ii} & V17.02 & 4f 2F* & 5g 2G & 22 & 26
9911.46 & O~{\sc ii} & & 2$<$4$>$& H$<$5$>$* & 10 & 10
9963.77 & Fe~{\sc ii} & &4f 1$<$3$>$*&5g 1$<$4$>$ & 6 & 8
9969.34 & N~{\sc ii} &V65.16a & 4f 2$<$4$>$&5g 2$<$5$>$*& 9 & 11
9969.43 & N~{\sc ii} &V65.16a & 4f 2$<$4$>$&5g 2$<$5$>$*& 9 & 9
9982.42 & O~{\sc ii} & & 4f G5* & 5g 2(6) & 12 & 14
9990.27 & O~{\sc ii} & & 4f D2* & 5g 1(3) & 6 & 8
9993.30 & C~{\sc ii} & & 4S & 4P* & 4 & 4
10004.46 & O~{\sc ii} & & G$<$4$>$* & 1$<$3$>$ & 10 & 8
10010.22 & Ne~{\sc ii} & & 4d 4P &5f 2$<$2$>$*& 4 & 4
10013.89 & [Fe~{\sc ii}] & & 3d7 2G & (3H)4s 2H & 8 & 10
10023.10 & He~{\sc i} & & 3d 1D & 7p 1P* & 5 & 3
10027.72 & He~{\sc i} & V81 & 3d 3D & 7f 3F* & 15 & 21
10030.20 & Ne~{\sc ii} & &4f 2$<$3$>$*&5g 2$<$5$>$ & 8 & 10
10038.70 & O~{\sc ii} & & 3d7 2H & (3G)4s 2G & 10 & 8
10049.37 & H~{\sc i} & P7 & 3d+ 2D & 7f+ 2F* & 18 &
10083.80 & Ne~{\sc ii} & & 4d 4P &5f 2$<$2$>$*& 6 & 6
10098.09 & [Fe~{\sc ii}] & & b2H & b2D & 10 & 6
10110.70 & Ne~{\sc ii} & & 4p 2P* & 5s 2P & 4 & 4
10123.61 & He~{\sc ii} & 4.5 & 4f+ 2F* & 5g+ 2G & 32 & 50
10160.60 & Cr~{\sc ii} & & 5D 4f4D* & 5g 0$<$4$>$& 6 & 8
10191.73 & Ne~{\sc ii} & & 2D & 2D* & 6 & 4
10203.60 & Ca~{\sc i} & & 4s4d 3D & 4s8f 1F* & 7 & 7
10212.11 & [Cr~{\sc ii}] & & a4G & b4P & 8 & 4
10292.08 & O~{\sc ii} & & G$<$5$>$* & 0$<$4$>$ & 10 & 18
10301.00 & C~{\sc ii}
10311.00 & He~{\sc i} & V74 & 3p 3P* & 6d 3D & 9 & 15
10374.40 & N~{\sc ii} & & ? & ? & &
10389.80 & N~{\sc ii} & & 3P* & 5P & 5 & 7
10404.00 & Si~{\sc i} & & 3d 3D* & 7f 2$<$2$>$& 3 & 5
10420.71 & Ne~{\sc ii} & & 3d 4P & 4p 4P* & 4 & 4
10471.30 & Fe~{\sc i} & & w5F* & f5P & 3 & 3
10491.40 & O~{\sc ii} & & 4f D3* & 5d 4D & 8 & 6
10530.70 & O~{\sc ii} & & 4f F2* & 5d 2F & 6 & 8
10623.00 & N~{\sc i} & V52 & 3p 4P* & 3d 4P & 2 & 2
10830.25 & He~{\sc i} & & 2s 3S & 2p 3P & &
10931.00 & C~{\sc ii}
11013.07 & He~{\sc i} & & 3s 1S & 5p 1P & &
11969.06 & He~{\sc i} & & 3p 3P & 5d 3D & &
12527.49 & He~{\sc i} & & 3s 3S & 4p 3P & &
12755.69 & He~{\sc i} & & 3d 1D & 5p 1P & &
12784.92 & He~{\sc i} & & 3d 3D & 5f 3F & &
12790.50 & He~{\sc i} & & 3d 1D & 5f 1F & &
12845.98 & He~{\sc i} & & 3p 3P & 5s 3S & &
12968.43 & He~{\sc i} & & 3p 1P & 5d 1D & &
12984.88 & He~{\sc i} & & 3d 3D & 5p 3P & &
13411.69 & He~{\sc i} & & 3p 1P & 5s 1S & &
15083.65 & He~{\sc i} & & 3s 1S & 4p 1P & &
17000.00 & C~{\sc ii}
17002.40 & He~{\sc i} & & 3p 3P & 4d 3D & &
17847.00 & C~{\sc ii}
18555.57 & He~{\sc i} & & 3d 1D & 4p 1P & &
18685.33 & He~{\sc i} & & 3d 3D & 4f 3F & &
18697.21 & He~{\sc i} & & 3d 1D & 4f 1F & &
19089.36 & He~{\sc i} & & 3p 1P & 4d 1D & &
19543.19 & He~{\sc i} & & 3d 3D & 4p 3P & &
20424.97 & He~{\sc i} & & 4s 3S & 6p 3P & &
20581.28 & He~{\sc i} & & 2s 1S & 2p 1P & &
20601.76 & He~{\sc i} & & 4p 3P & 7d 3D & &
21120.12 & He~{\sc i} & & 3p 3P & 4s 3S & &
21132.03 & He~{\sc i} & & 3p 1P & 4s 1S & &
21607.80 & He~{\sc i} & & 4d 3D & 7f 3F & &
21617.01 & He~{\sc i} & & 4d 1D & 7f 1F & &
31211.00 & C~{\sc ii}
������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������NEAT-master/utilities/plot.sh�����������������������������������������������������������������������0000775�0000000�0000000�00000001150�12714613141�0016423�0����������������������������������������������������������������������������������������������������ustar�00root����������������������������root����������������������������0000000�0000000������������������������������������������������������������������������������������������������������������������������������������������������������������������������#!/bin/bash
prefix=$1
for filename in $prefix*binned
do
val=`tail -n +2 $filename | sort -k 2 -g | tail -n 1 | awk ' { print $2/2. } '`
echo "set terminal png enhanced" > tmp.prg
echo "set output \""$filename".png\"" >> tmp.prg
# echo "f(x)=a*exp((-(x-mu)**2)/(2*sigma**2))" >> tmp.prg
# head -n 1 $filename | awk ' { print "mu="$1" ; sigma="($3-$2)/2 } ' >> tmp.prg
# tail -n +3 $filename | sort -k 2 -g | tail -n 1 | awk ' { print "a="$2 } ' >> tmp.prg
echo "plot '"$filename"' every :::1::1 w l, '"$filename"' every :::0::0 using 1:("$val"):2:3 w xerr" >> tmp.prg
gnuplot tmp.prg
done
rm tmp.prg
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