seq ='gd' nucch1 =74 ADF23 final conf indexing bwnf = 1813231.0 nprf = 3 -------------------- indf code WJ wnf ---- ---- -- ------------ 1 4d10 4f13 5s2 5p2 ( 104.5) 0.0 2 4d10 4f13 5s1 5p3 ( 279.5) 340266.4 3 4d10 4f12 5s2 5p3 ( 909.5) 113583.7 initial conf indexing bwni = 1649442.1 nlev = 31 -------------------- indi code WJ wni ---- ---- -- ------------ 1 4d10 4f13 5s2 5p3 ( 139.5) 0.0 2 4d10 4f12 5s2 5p4 ( 682.0) 86139.3 3 4d10 4f12 5s2 5p3 5d1 ( 9099.5) 533450.8 4 4d10 4f12 5s2 5p3 5f1 ( 12739.5) 961969.7 5 4d10 4f12 5s2 5p3 6s1 ( 1819.5) 772834.2 6 4d10 4f12 5s2 5p3 6p1 ( 5459.5) 898655.7 7 4d10 4f12 5s2 5p3 6d1 ( 9099.5) 1071498.9 8 4d10 4f12 5s2 5p3 6f1 ( 12739.5) 1252407.6 9 4d10 4f12 5s2 5p3 7s1 ( 1819.5) 1159896.5 10 4d10 4f12 5s2 5p3 7p1 ( 5459.5) 1221597.4 11 4d10 4f12 5s2 5p3 7d1 ( 9099.5) 1309914.4 12 4d10 4f12 5s2 5p3 7f1 ( 12739.5) 1407506.7 13 4d10 4f12 5s2 5p3 8s1 ( 1819.5) 1355161.8 14 4d10 4f12 5s2 5p3 8p1 ( 5459.5) 1390085.3 15 4d10 4f12 5s2 5p3 8d1 ( 9099.5) 1441623.7 16 4d10 4f12 5s2 5p3 8f1 ( 12739.5) 1500905.0 17 4d10 4f13 5s1 5p4 ( 209.5) 346654.3 18 4d10 4f13 5s1 5p3 5d1 ( 2799.5) 775253.8 19 4d10 4f13 5s1 5p3 5f1 ( 3919.5) 1194900.7 20 4d10 4f13 5s1 5p3 6s1 ( 559.5) 1008104.2 21 4d10 4f13 5s1 5p3 6p1 ( 1679.5) 1131425.4 22 4d10 4f13 5s1 5p3 6d1 ( 2799.5) 1302736.2 23 4d10 4f13 5s1 5p3 6f1 ( 3919.5) 1482193.1 24 4d10 4f13 5s1 5p3 7s1 ( 559.5) 1390166.0 25 4d10 4f13 5s1 5p3 7p1 ( 1679.5) 1450979.7 26 4d10 4f13 5s1 5p3 7d1 ( 2799.5) 1538812.7 27 4d10 4f13 5s1 5p3 7f1 ( 3919.5) 1636001.8 28 4d10 4f13 5s1 5p3 8s1 ( 559.5) 1583737.5 29 4d10 4f13 5s1 5p3 8p1 ( 1679.5) 1618257.7 30 4d10 4f13 5s1 5p3 8d1 ( 2799.5) 1669554.2 31 4d10 4f13 5s1 5p3 8f1 ( 3919.5) 1728674.1 Auger yields ----------- indi\indf 1 --------- 2 0.0000E+00 3 0.0000E+00 4 0.0000E+00 5 0.0000E+00 6 0.0000E+00 7 0.0000E+00 8 0.0000E+00 9 0.0000E+00 10 0.0000E+00 11 0.0000E+00 12 0.0000E+00 13 0.0000E+00 14 0.0000E+00 15 0.0000E+00 16 0.0000E+00 17 0.0000E+00 18 0.0000E+00 19 0.0000E+00 20 0.0000E+00 21 0.0000E+00 22 0.0000E+00 23 0.0000E+00 24 0.0000E+00 25 0.0000E+00 26 0.0000E+00 27 0.0000E+00 28 0.0000E+00 29 0.0000E+00 30 1.0000E+00 31 1.0000E+00 ----------------------------------------------------------------------------- meti*= 1 ionis rates ----------- indf Te= 2.42E+05 6.05E+05 1.21E+06 2.42E+06 6.05E+06 1.21E+07 2.42E+07 6.05E+07 1.21E+08 2.42E+08 6.05E+08 1.21E+09 ---- --- 1 1.23E-09 1.59E-09 1.75E-09 1.77E-09 1.60E-09 1.37E-09 1.13E-09 8.23E-10 6.31E-10 4.76E-10 3.23E-10 2.39E-10 2 4.95E-10 6.57E-10 7.42E-10 7.81E-10 7.59E-10 6.95E-10 6.06E-10 4.72E-10 3.75E-10 2.90E-10 2.01E-10 1.49E-10 3 3.81E-09 5.64E-09 7.21E-09 8.74E-09 1.02E-08 1.06E-08 1.04E-08 9.25E-09 8.07E-09 6.81E-09 5.24E-09 4.21E-09 excit rates ----------- indi Te= 2.42E+05 6.05E+05 1.21E+06 2.42E+06 6.05E+06 1.21E+07 2.42E+07 6.05E+07 1.21E+08 2.42E+08 6.05E+08 1.21E+09 ---- --- 30 2.24D+00 2.11D+00 2.03D+00 1.95D+00 1.09D+00 9.49D-01 8.93D-01 8.63D-01 8.53D-01 8.49D-01 8.46D-01 8.45D-01 31 2.55D+00 2.32D+00 2.18D+00 2.08D+00 1.15D+00 1.02D+00 9.68D-01 9.43D-01 9.35D-01 9.31D-01 9.29D-01 9.28D-01 C---------------------------------------------------------------------------- C Data generated by Stuart Loch on 21/10/05 C C The direct ionisation rates were calculated using configuration-average C ionization cross sections, with semi-relativistic wavefunctions, using the C relaxed-core approximation, the post form for the scattering C potentials, and the natural-phase approximation. C The excitation rates were calculated using configuration-average cross C sections. C---------------------------------------------------------------------------- C Correction to excitation data, due to an error in the conversion to C effective collision strength in the original files. C Stuart Loch 23/11/05 C----------------------------------------------------------------------------