seq ='eu' nucch1 =74 ADF23 final conf indexing bwnf = 1980334.5 nprf = 3 -------------------- indf code WJ wnf ---- ---- -- ------------ 1 4d10 4f13 5s2 5p1 ( 41.5) 0.0 2 4d10 4f12 5s1 5p2 ( 1364.5) 333509.2 3 4d10 4f13 5s2 5p2 ( 104.5) 142267.8 initial conf indexing bwni = 1813231.0 nlev = 31 -------------------- indi code WJ wni ---- ---- -- ------------ 1 4d10 4f13 5s2 5p2 ( 104.5) 0.0 2 4d10 4f12 5s2 5p3 ( 909.5) 113561.9 3 4d10 4f12 5s2 5p2 5d1 ( 6824.5) 576681.7 4 4d10 4f12 5s2 5p2 5f1 ( 9554.5) 1024477.1 5 4d10 4f12 5s2 5p2 6s1 ( 1364.5) 845020.2 6 4d10 4f12 5s2 5p2 6p1 ( 4094.5) 979229.8 7 4d10 4f12 5s2 5p2 6d1 ( 6824.5) 1163768.0 8 4d10 4f12 5s2 5p2 6f1 ( 9554.5) 1359113.9 9 4d10 4f12 5s2 5p2 7s1 ( 1364.5) 1269587.1 10 4d10 4f12 5s2 5p2 7p1 ( 4094.5) 1336611.2 11 4d10 4f12 5s2 5p2 7d1 ( 6824.5) 1432429.1 12 4d10 4f12 5s2 5p2 7f1 ( 9554.5) 1538974.0 13 4d10 4f12 5s2 5p2 8s1 ( 1364.5) 1487758.3 14 4d10 4f12 5s2 5p2 8p1 ( 4094.5) 1526149.9 15 4d10 4f12 5s2 5p2 8d1 ( 6824.5) 1582608.3 16 4d10 4f12 5s2 5p2 8f1 ( 9554.5) 1647696.7 17 4d10 4f13 5s1 5p3 ( 279.5) 340282.6 18 4d10 4f13 5s1 5p2 5d1 ( 2099.5) 784609.8 19 4d10 4f13 5s1 5p2 5f1 ( 2939.5) 1223291.2 20 4d10 4f13 5s1 5p2 6s1 ( 419.5) 1045850.7 21 4d10 4f13 5s1 5p2 6p1 ( 1259.5) 1177398.6 22 4d10 4f13 5s1 5p2 6d1 ( 2099.5) 1360243.0 23 4d10 4f13 5s1 5p2 6f1 ( 2939.5) 1554137.1 24 4d10 4f13 5s1 5p2 7s1 ( 419.5) 1464852.3 25 4d10 4f13 5s1 5p2 7p1 ( 1259.5) 1530908.6 26 4d10 4f13 5s1 5p2 7d1 ( 2099.5) 1626242.5 27 4d10 4f13 5s1 5p2 7f1 ( 2939.5) 1732303.6 28 4d10 4f13 5s1 5p2 8s1 ( 419.5) 1681168.4 29 4d10 4f13 5s1 5p2 8p1 ( 1259.5) 1719076.2 30 4d10 4f13 5s1 5p2 8d1 ( 2099.5) 1775373.2 31 4d10 4f13 5s1 5p2 8f1 ( 2939.5) 1840300.3 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 0.0000E+00 31 1.0000E+00 ----------------------------------------------------------------------------- meti*= 1 ionis rates ----------- indf Te= 2.88E+05 7.20E+05 1.44E+06 2.88E+06 7.20E+06 1.44E+07 2.88E+07 7.20E+07 1.44E+08 2.88E+08 7.20E+08 1.44E+09 ---- --- 1 6.88E-10 8.75E-10 9.54E-10 9.57E-10 8.57E-10 7.33E-10 5.98E-10 4.35E-10 3.33E-10 2.51E-10 1.71E-10 1.27E-10 2 4.33E-10 5.64E-10 6.32E-10 6.61E-10 6.36E-10 5.78E-10 4.99E-10 3.85E-10 3.04E-10 2.34E-10 1.61E-10 1.20E-10 3 3.72E-09 5.44E-09 6.85E-09 8.13E-09 9.20E-09 9.34E-09 8.93E-09 7.80E-09 6.73E-09 5.64E-09 4.31E-09 3.45E-09 excit rates ----------- indi Te= 2.88E+05 7.20E+05 1.44E+06 2.88E+06 7.20E+06 1.44E+07 2.88E+07 7.20E+07 1.44E+08 2.88E+08 7.20E+08 1.44E+09 ---- --- 31 1.71D+00 1.59D+00 1.51D+00 1.31D+00 7.76D-01 6.97D-01 6.66D-01 6.50D-01 6.45D-01 6.43D-01 6.42D-01 6.41D-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----------------------------------------------------------------------------