seq ='ar' nucch1 =36 ADF23 final conf indexing bwnf = 6761775.8 nprf = 2 -------------------- indf code WJ wnf ---- ---- -- ------------ 1 *2p6 3s2 3p5 ( 2.5) 0.0 2 2p6 3s1 3p6 ( 0.5) 656128.4 initial conf indexing bwni = 6367535.2 nlev = 43 -------------------- indi code WJ wni ---- ---- -- ------------ 1 *2p6 3s2 3p6 ( 0.0) 0.0 2 2p6 3s1 3p6 3d1 ( 9.5) 1467594.7 3 2p6 3s1 3p6 4s1 ( 1.5) 3659872.9 4 2p6 3s1 3p6 4p1 ( 5.5) 3874011.4 5 2p6 3s1 3p6 4d1 ( 9.5) 4189613.6 6 2p6 3s1 3p6 4f1 ( 13.5) 4443918.2 7 2p6 3s1 3p6 5s1 ( 1.5) 5017777.1 8 2p6 3s1 3p6 5p1 ( 5.5) 5120128.0 9 2p6 3s1 3p6 5d1 ( 9.5) 5266758.4 10 2p6 3s1 3p6 5f1 ( 13.5) 5381046.3 11 2p6 3s1 3p6 6s1 ( 1.5) 5689631.6 12 2p6 3s1 3p6 6p1 ( 5.5) 5746251.2 13 2p6 3s1 3p6 6d1 ( 9.5) 5826583.4 14 2p6 3s1 3p6 6f1 ( 13.5) 5888929.6 15 2p6 3s1 3p6 7s1 ( 1.5) 6072096.6 16 2p6 3s1 3p6 7p1 ( 5.5) 6106536.2 17 2p6 3s1 3p6 7d1 ( 9.5) 6155413.0 18 2p6 3s1 3p6 7f1 ( 13.5) 6193320.8 19 2p6 3s1 3p6 8s1 ( 1.5) 6310592.9 20 2p6 3s1 3p6 8p1 ( 5.5) 6333095.6 21 2p6 3s1 3p6 8d1 ( 9.5) 6365034.9 22 2p6 3s1 3p6 8f1 ( 13.5) 6389957.2 23 2p5 3s2 3p6 3d1 ( 29.5) 3686877.6 24 2p5 3s2 3p6 4s1 ( 5.5) 5978683.7 25 2p5 3s2 3p6 4p1 ( 17.5) 6196290.4 26 2p5 3s2 3p6 4d1 ( 29.5) 6512134.6 27 2p5 3s2 3p6 4f1 ( 41.5) 6789022.5 28 2p5 3s2 3p6 5s1 ( 5.5) 7357800.2 29 2p5 3s2 3p6 5p1 ( 17.5) 7460877.0 30 2p5 3s2 3p6 5d1 ( 29.5) 7607104.1 31 2p5 3s2 3p6 5f1 ( 41.5) 7730344.7 32 2p5 3s2 3p6 6s1 ( 5.5) 8036994.2 33 2p5 3s2 3p6 6p1 ( 17.5) 8093775.2 34 2p5 3s2 3p6 6d1 ( 29.5) 8173704.1 35 2p5 3s2 3p6 6f1 ( 41.5) 8240647.6 36 2p5 3s2 3p6 7s1 ( 5.5) 8422685.5 37 2p5 3s2 3p6 7p1 ( 17.5) 8457205.7 38 2p5 3s2 3p6 7d1 ( 29.5) 8505759.9 39 2p5 3s2 3p6 7f1 ( 41.5) 8546329.3 40 2p5 3s2 3p6 8s1 ( 5.5) 8662956.1 41 2p5 3s2 3p6 8p1 ( 17.5) 8685458.8 42 2p5 3s2 3p6 8d1 ( 29.5) 8717236.8 43 2p5 3s2 3p6 8f1 ( 41.5) 8743691.6 ----------------------------------------------------------------------------- meti*= 1 ionis rates ----------- indf Te= 8.00E+05 2.00E+06 4.00E+06 8.00E+06 2.00E+07 4.00E+07 8.00E+07 2.00E+08 4.00E+08 8.00E+08 2.00E+09 4.00E+09 ---- --- 1 2.89E-15 3.91E-12 4.63E-11 1.62E-10 3.29E-10 3.87E-10 3.83E-10 3.26E-10 2.71E-10 2.18E-10 1.58E-10 1.22E-10 2 2.12E-16 5.86E-13 8.79E-12 3.48E-11 7.75E-11 9.53E-11 9.74E-11 8.51E-11 7.14E-11 5.77E-11 4.19E-11 3.23E-11 excit rates ----------- indi Te= 8.00E+05 2.00E+06 4.00E+06 8.00E+06 2.00E+07 4.00E+07 8.00E+07 2.00E+08 4.00E+08 8.00E+08 2.00E+09 4.00E+09 ---- --- 22 1.32E-16 8.13E-14 5.47E-13 1.16E-12 7.51E-13 5.34E-13 3.83E-13 2.45E-13 1.74E-13 1.23E-13 7.80E-14 5.52E-14 23 1.47E-20 2.32E-14 2.27E-12 2.01E-11 6.36E-11 6.36E-11 6.00E-11 4.69E-11 3.54E-11 2.53E-11 1.54E-11 1.03E-11 24 1.45E-24 2.79E-17 6.17E-15 7.60E-14 2.79E-13 2.76E-13 2.72E-13 2.26E-13 1.73E-13 1.23E-13 7.24E-14 4.62E-14 25 1.48E-23 3.48E-16 8.25E-14 1.03E-12 3.54E-12 2.71E-12 1.88E-12 1.19E-12 8.43E-13 5.97E-13 3.78E-13 2.67E-13 26 2.00E-23 7.02E-16 1.80E-13 2.58E-12 1.08E-11 1.19E-11 1.15E-11 9.88E-12 8.30E-12 6.73E-12 4.93E-12 3.83E-12 27 1.25E-24 5.19E-17 1.41E-14 1.91E-13 7.00E-13 6.30E-13 5.54E-13 4.16E-13 3.13E-13 2.28E-13 1.47E-13 1.05E-13 28 5.86E-26 4.69E-18 1.66E-15 2.52E-14 1.03E-13 1.04E-13 1.03E-13 8.89E-14 7.07E-14 5.25E-14 3.30E-14 2.25E-14 29 6.17E-25 6.03E-17 2.21E-14 3.35E-13 1.32E-12 1.07E-12 7.25E-13 4.54E-13 3.21E-13 2.27E-13 1.44E-13 1.02E-13 30 1.06E-24 1.30E-16 5.27E-14 9.01E-13 4.13E-12 4.67E-12 4.25E-12 2.97E-12 1.88E-12 9.78E-13 1.99E-13 -1.25E-13 31 1.39E-25 1.67E-17 6.62E-15 1.05E-13 4.21E-13 3.87E-13 3.38E-13 2.56E-13 1.93E-13 1.41E-13 9.10E-14 6.48E-14 32 8.21E-27 1.53E-18 6.88E-16 1.19E-14 5.06E-14 5.36E-14 5.90E-14 7.27E-14 7.88E-14 7.87E-14 7.14E-14 6.28E-14 33 1.08E-25 2.03E-17 8.75E-15 1.56E-13 6.52E-13 5.60E-13 3.89E-13 2.49E-13 1.78E-13 1.26E-13 8.02E-14 5.68E-14 34 2.37E-25 4.64E-17 2.27E-14 4.21E-13 2.04E-12 2.40E-12 2.30E-12 1.93E-12 1.57E-12 1.22E-12 8.46E-13 6.29E-13 35 3.27E-26 7.46E-18 3.51E-15 6.07E-14 2.52E-13 2.37E-13 2.07E-13 1.58E-13 1.19E-13 8.73E-14 5.63E-14 4.01E-14 36 2.30E-27 6.72E-19 3.50E-16 6.49E-15 2.88E-14 3.04E-14 3.14E-14 3.40E-14 3.37E-14 3.15E-14 2.68E-14 2.28E-14 37 3.01E-26 8.86E-18 4.67E-15 8.70E-14 3.68E-13 3.20E-13 2.18E-13 1.38E-13 9.78E-14 6.93E-14 4.39E-14 3.11E-14 38 7.53E-26 2.25E-17 1.16E-14 2.33E-13 1.18E-12 1.37E-12 1.18E-12 6.71E-13 2.68E-13 -3.83E-14 -2.68E-13 -3.38E-13 39 1.29E-26 3.76E-18 2.01E-15 3.71E-14 1.60E-13 1.53E-13 1.32E-13 1.01E-13 7.61E-14 5.57E-14 3.59E-14 2.56E-14 40 1.02E-27 3.73E-19 2.10E-16 4.03E-15 1.81E-14 1.91E-14 1.97E-14 2.09E-14 2.01E-14 1.81E-14 1.48E-14 1.23E-14 41 1.32E-26 4.88E-18 2.77E-15 5.19E-14 2.31E-13 2.02E-13 1.37E-13 8.71E-14 6.19E-14 4.39E-14 2.79E-14 1.97E-14 42 3.34E-26 1.25E-17 6.89E-15 1.45E-13 7.50E-13 9.58E-13 1.19E-12 1.83E-12 2.24E-12 2.44E-12 2.37E-12 2.16E-12 43 6.01E-27 2.21E-18 1.27E-15 2.43E-14 1.07E-13 1.04E-13 9.12E-14 7.00E-14 5.31E-14 3.89E-14 2.51E-14 1.79E-14 C---------------------------------------------------------------------------- C Data generated by Stuart Loch on 03/20/03 C C The rates were calculated using configuration-average ionization cross C sections, with semi-relativistic wavefunctions, using the C relaxed-core approximation, the post form for the scattering C potentials, and the natural-phase approximation.