seq ='nb' nucch1 =74 ADF23 final conf indexing bwnf = 11659008.0 nprf = 5 -------------------- indf code WJ wnf ---- ---- -- ------------ 1 3d10 4s2 4p6 4d4 ( 104.5) 0.0 2 3d10 4s2 4p5 4d5 ( 755.5) 1666661.9 3 3d10 4s1 4p6 4d5 ( 251.5) 3036898.0 4 3d9 4s2 4p6 4d5 ( 1259.5) 14263897.2 5 3p5 3d10 4s2 4p6 4d5 ( 2.5) 18617374.2 initial conf indexing bwni = 11231025.5 nlev = 55 -------------------- indi code WJ wni ---- ---- -- ------------ 1 3d10 4s2 4p6 4d5 ( 125.5) 0.0 2 3d10 4s1 4p6 4d6 ( 209.5) 3039637.1 3 3d10 4s1 4p6 4d5 4f1 ( 3527.5) 4690963.2 4 3d10 4s1 4p6 4d5 5s1 ( 503.5) 6526101.7 5 3d10 4s1 4p6 4d5 5p1 ( 1511.5) 7079796.8 6 3d10 4s1 4p6 4d5 5d1 ( 2519.5) 7802060.5 7 3d10 4s1 4p6 4d5 5f1 ( 3527.5) 8505773.5 8 3d10 4s1 4p6 4d5 6s1 ( 503.5) 9319338.4 9 3d10 4s1 4p6 4d5 6p1 ( 1511.5) 9610340.9 10 3d10 4s1 4p6 4d5 6d1 ( 2519.5) 9992402.6 11 3d10 4s1 4p6 4d5 6f1 ( 3527.5) 10360269.1 12 3d10 4s1 4p6 4d5 7s1 ( 503.5) 10825163.3 13 3d10 4s1 4p6 4d5 7p1 ( 1511.5) 10996796.7 14 3d10 4s1 4p6 4d5 7d1 ( 2519.5) 11223759.3 15 3d10 4s1 4p6 4d5 7f1 ( 3527.5) 11442011.1 16 3d10 4s1 4p6 4d5 8s1 ( 503.5) 11732771.7 17 3d10 4s1 4p6 4d5 8p1 ( 1511.5) 11842381.5 18 3d10 4s1 4p6 4d5 8d1 ( 2519.5) 11988366.7 19 3d10 4s1 4p6 4d5 8f1 ( 3527.5) 12128867.3 20 3d10 4s2 4p5 4d6 ( 629.5) 1680523.2 21 3d10 4s2 4p5 4d5 4f1 ( 10583.5) 3329591.0 22 3d10 4s2 4p5 4d5 5s1 ( 1511.5) 5151340.8 23 3d10 4s2 4p5 4d5 5p1 ( 4535.5) 5712375.5 24 3d10 4s2 4p5 4d5 5d1 ( 7559.5) 6433832.6 25 3d10 4s2 4p5 4d5 5f1 ( 10583.5) 7137787.6 26 3d10 4s2 4p5 4d5 6s1 ( 1511.5) 7947803.7 27 3d10 4s2 4p5 4d5 6p1 ( 4535.5) 8241306.4 28 3d10 4s2 4p5 4d5 6d1 ( 7559.5) 8623126.2 29 3d10 4s2 4p5 4d5 6f1 ( 10583.5) 8991154.0 30 3d10 4s2 4p5 4d5 7s1 ( 1511.5) 9454354.5 31 3d10 4s2 4p5 4d5 7p1 ( 4535.5) 9627197.7 32 3d10 4s2 4p5 4d5 7d1 ( 7559.5) 9854079.6 33 3d10 4s2 4p5 4d5 7f1 ( 10583.5) 10072412.1 34 3d10 4s2 4p5 4d5 8s1 ( 1511.5) 10362204.8 35 3d10 4s2 4p5 4d5 8p1 ( 4535.5) 10472621.2 36 3d10 4s2 4p5 4d5 8d1 ( 7559.5) 10618445.1 37 3d10 4s2 4p5 4d5 8f1 ( 10583.5) 10759107.0 38 3d9 4s2 4p6 4d6 ( 1049.5) 14160561.5 39 3d9 4s2 4p6 4d5 4f1 ( 17639.5) 15819953.1 40 3d9 4s2 4p6 4d5 5s1 ( 2519.5) 17711791.9 41 3d9 4s2 4p6 4d5 5p1 ( 7559.5) 18272504.0 42 3d9 4s2 4p6 4d5 5d1 ( 12599.5) 18995816.1 43 3d9 4s2 4p6 4d5 5f1 ( 17639.5) 19701142.3 44 3d9 4s2 4p6 4d5 6s1 ( 2519.5) 20527611.9 45 3d9 4s2 4p6 4d5 6p1 ( 7559.5) 20820711.4 46 3d9 4s2 4p6 4d5 6d1 ( 12599.5) 21202611.9 47 3d9 4s2 4p6 4d5 6f1 ( 17639.5) 21566365.0 48 3d9 4s2 4p6 4d5 7s1 ( 2519.5) 22149579.8 49 3d9 4s2 4p6 4d5 7p1 ( 7559.5) 22214264.9 50 3d9 4s2 4p6 4d5 7d1 ( 12599.5) 22440904.9 51 3d9 4s2 4p6 4d5 7f1 ( 17639.5) 22658995.4 52 3d9 4s2 4p6 4d5 8s1 ( 2519.5) 23034201.5 53 3d9 4s2 4p6 4d5 8p1 ( 7559.5) 23063398.5 54 3d9 4s2 4p6 4d5 8d1 ( 12599.5) 23209061.1 55 3d9 4s2 4p6 4d5 8f1 ( 17639.5) 23349400.4 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 1.0000E+00 16 1.0000E+00 17 1.0000E+00 18 1.0000E+00 19 1.0000E+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 0.0000E+00 32 0.0000E+00 33 0.0000E+00 34 0.0000E+00 35 0.0000E+00 36 0.0000E+00 37 0.0000E+00 38 1.0000E+00 39 7.2984E-01 40 1.0000E+00 41 8.3951E-01 42 1.0000E+00 43 6.0527E-01 44 1.0000E+00 45 8.1563E-01 46 1.0000E+00 47 5.5953E-01 48 1.0000E+00 49 8.0227E-01 50 1.0000E+00 51 5.3742E-01 52 1.0000E+00 53 7.9402E-01 54 1.0000E+00 55 5.2506E-01 ----------------------------------------------------------------------------- meti*= 1 ionis rates ----------- indf Te= 2.31E+06 5.78E+06 1.16E+07 2.31E+07 5.78E+07 1.16E+08 2.31E+08 5.78E+08 1.16E+09 2.31E+09 5.78E+09 1.16E+10 ---- --- 1 1.40E-10 1.80E-10 1.97E-10 1.98E-10 1.75E-10 1.48E-10 1.20E-10 8.87E-11 6.96E-11 5.42E-11 3.88E-11 2.99E-11 2 1.05E-10 1.37E-10 1.52E-10 1.55E-10 1.42E-10 1.23E-10 1.03E-10 7.75E-11 6.13E-11 4.80E-11 3.43E-11 2.64E-11 3 2.51E-11 3.35E-11 3.82E-11 3.99E-11 3.68E-11 3.18E-11 2.60E-11 1.91E-11 1.48E-11 1.13E-11 7.94E-12 6.04E-12 4 6.65E-11 9.66E-11 1.18E-10 1.34E-10 1.41E-10 1.36E-10 1.23E-10 1.00E-10 8.21E-11 6.57E-11 4.76E-11 3.68E-11 5 2.00E-11 3.03E-11 3.84E-11 4.57E-11 5.15E-11 5.16E-11 4.84E-11 4.08E-11 3.42E-11 2.79E-11 2.06E-11 1.61E-11 excit rates ----------- indi Te= 2.31E+06 5.78E+06 1.16E+07 2.31E+07 5.78E+07 1.16E+08 2.31E+08 5.78E+08 1.16E+09 2.31E+09 5.78E+09 1.16E+10 ---- --- 15 3.38D-01 3.28D-01 3.28D-01 2.51D-01 1.84D-01 1.68D-01 1.62D-01 1.58D-01 1.57D-01 1.56D-01 1.56D-01 1.56D-01 16 3.12D-01 3.21D-01 3.32D-01 2.64D-01 1.80D-01 1.59D-01 1.49D-01 1.43D-01 1.41D-01 1.41D-01 1.40D-01 1.40D-01 17 8.83D-02 9.06D-02 9.70D-02 9.77D-02 1.19D-01 1.39D-01 1.53D-01 1.62D-01 1.63D-01 1.61D-01 1.54D-01 1.48D-01 18 1.53D-01 1.55D-01 1.64D-01 1.41D-01 1.12D-01 1.05D-01 1.03D-01 1.01D-01 1.00D-01 1.00D-01 9.98D-02 9.98D-02 19 2.05D-01 2.00D-01 2.00D-01 1.57D-01 1.12D-01 1.02D-01 9.80D-02 9.56D-02 9.49D-02 9.45D-02 9.43D-02 9.42D-02 38 8.92D+00 8.67D+00 8.46D+00 7.13D+00 3.87D+00 3.16D+00 2.85D+00 2.68D+00 2.63D+00 2.60D+00 2.58D+00 2.58D+00 39 3.69D+01 3.74D+01 3.97D+01 4.34D+01 3.56D+01 3.64D+01 3.73D+01 3.73D+01 3.63D+01 3.47D+01 3.18D+01 2.94D+01 40 2.21D-01 2.01D-01 1.87D-01 1.68D-01 7.52D-02 5.90D-02 5.31D-02 5.01D-02 4.91D-02 4.87D-02 4.84D-02 4.83D-02 41 5.67D-01 5.37D-01 5.17D-01 4.93D-01 2.98D-01 3.09D-01 3.63D-01 4.60D-01 5.40D-01 6.24D-01 7.36D-01 8.22D-01 42 4.23D+00 3.94D+00 3.73D+00 3.48D+00 1.71D+00 1.27D+00 1.10D+00 1.01D+00 9.78D-01 9.64D-01 9.56D-01 9.53D-01 43 9.40D+00 9.45D+00 9.85D+00 1.05D+01 8.46D+00 8.30D+00 8.39D+00 8.27D+00 7.94D+00 7.45D+00 6.62D+00 5.91D+00 44 9.50D-02 8.75D-02 8.05D-02 7.12D-02 3.12D-02 2.30D-02 2.04D-02 1.92D-02 1.88D-02 1.87D-02 1.86D-02 1.85D-02 45 2.73D-01 2.52D-01 2.31D-01 2.16D-01 1.20D-01 1.16D-01 1.36D-01 1.73D-01 2.04D-01 2.35D-01 2.78D-01 3.10D-01 46 1.75D+00 1.68D+00 1.61D+00 1.50D+00 7.49D-01 5.33D-01 4.53D-01 4.11D-01 3.99D-01 3.93D-01 3.89D-01 3.88D-01 47 4.60D+00 4.55D+00 4.62D+00 4.91D+00 3.93D+00 3.85D+00 4.04D+00 4.36D+00 4.59D+00 4.79D+00 5.02D+00 5.19D+00 48 6.68D-02 6.09D-02 5.55D-02 4.84D-02 2.11D-02 1.50D-02 1.32D-02 1.24D-02 1.22D-02 1.21D-02 1.20D-02 1.20D-02 49 1.55D-01 1.49D-01 1.36D-01 1.25D-01 6.66D-02 6.00D-02 6.60D-02 7.63D-02 8.31D-02 8.89D-02 9.52D-02 9.93D-02 50 1.06D+00 9.91D-01 9.39D-01 8.56D-01 4.34D-01 3.01D-01 2.54D-01 2.30D-01 2.22D-01 2.19D-01 2.17D-01 2.16D-01 51 2.54D+00 2.51D+00 2.57D+00 2.67D+00 2.14D+00 2.06D+00 2.14D+00 2.29D+00 2.40D+00 2.50D+00 2.62D+00 2.70D+00 52 3.66D-02 3.23D-02 2.87D-02 2.47D-02 1.09D-02 7.58D-03 6.67D-03 6.29D-03 6.18D-03 6.13D-03 6.10D-03 6.09D-03 53 1.06D-01 9.53D-02 8.55D-02 7.72D-02 4.07D-02 3.56D-02 3.92D-02 4.58D-02 5.03D-02 5.43D-02 5.88D-02 6.18D-02 54 6.28D-01 6.09D-01 5.59D-01 5.19D-01 2.65D-01 1.81D-01 1.52D-01 1.37D-01 1.33D-01 1.30D-01 1.29D-01 1.29D-01 55 1.53D+00 1.53D+00 1.57D+00 1.63D+00 1.30D+00 1.23D+00 1.25D+00 1.28D+00 1.29D+00 1.28D+00 1.25D+00 1.22D+00 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----------------------------------------------------------------------------