* written by atomwr on Tue Mar 3 20:45:13 2020 FE XIII * abnd awgt ** elemental abundance (H = 12), atomic weight 8.12 55.85 * ** number of levels, number of lines, number of continua, number of fixed ** usually only nk and nline are needed for coronal lines * nk,nline,ncont,nrfix 4 6 0 0 * E cm-1 g label ion S L J P Lande G 0.000 1.00 ' 3S2 3P2 3PE 0' 13 1.0 1.0 0.0 0 1.0000e+00 9303.000 3.00 ' 3S2 3P2 3PE 1' 13 1.0 1.0 1.0 0 1.5012e+00 ** standard lande g factor level 18561.600 5.00 ' 3S2 3P2 3PE 2' 13 1.0 1.0 2.0 0 1.5012e+00 ** Line to account for Sascha's calculation. * 18561.600 5.00 ' 3S2 3P2 3PE 2' 13 1.0 1.0 2.0 0 1.4950e+00 494942.000 3.00 ' 3S2 3P 3D 3PO 1' 13 1.0 1.0 1.0 1 1.5012e+00 ** ** Upper level, lower level, absorption oscillator strength, ** number of wavelengthn points across the line profile, ** maximum wavelength in units of QNORM (see input* files) ** wavelength between core (linear) and wing (logarithmic) wavelengths ** IWIDE is an obselete parameter not needed (0 here) ** then the three 0.00e+00 are obselete parameters to define Voigt profile ** * 3S2 3P2 3PE 1 3S2 3P2 3PE 0 10746.269 2 1 7.274e-07 30 10.0 10.0 0 0.00e+00 0.00e+00 0.00e+00 * 3S2 3P2 3PE 2 3S2 3P2 3PE 0 5385.968 3 1 1.386e-10 30 10.0 10.0 0 0.00e+00 0.00e+00 0.00e+00 * 3S2 3P 3D 3PO 1 3S2 3P2 3PE 0 202.044 4 1 6.e-02 30 10.0 10.0 0 0.00e+00 0.00e+00 0.00e+00 * 3S2 3P2 3PE 2 3S2 3P2 3PE 1 10797.804 3 2 2.880e-07 30 10.0 10.0 0 0.00e+00 0.00e+00 0.00e+00 * 3S2 3P 3D 3PO 1 3S2 3P2 3PE 1 205.914 4 2 4.011e-04 30 10.0 10.0 0 0.00e+00 0.00e+00 0.00e+00 * 3S2 3P 3D 3PO 1 3S2 3P2 3PE 2 209.916 4 3 .59e-03 30 10.0 10.0 0 0.00e+00 0.00e+00 0.00e+00 * WRITTEN BY COLWR ON Tue Mar 3 20:45:13 2020 * ATOM IS FE GENCOL ** grid of temperatures TEMP 8 1.00000e+04 3.16228e+04 1.00000e+05 3.16228e+05 1.00000e+06 3.16228e+06 1.00000e+07 3.16228e+07 ** ** level i level j Maxwellian averaged collision strengths between levels ** OHM 1 2 4.54e-01 6.69e-01 7.43e-01 5.82e-01 3.08e-01 1.28e-01 4.76e-02 1.68e-02 OHM 1 3 4.37e-01 7.07e-01 7.12e-01 5.69e-01 3.38e-01 1.88e-01 1.26e-01 1.05e-01 OHM 2 3 1.30e+00 2.57e+00 2.80e+00 2.25e+00 1.27e+00 6.12e-01 3.32e-01 2.31e-01 TEMP 2 1.e5 1.e8 OHM 1 4 20 40 TEMP 5 1.e6 1.5e6 2.e6 2.5e6 3.e6 ** proton collision rates between magnetic substates cm-3 /sec * Landman 1975 A+A 43, 285, table 4 * I J M M' CPMM 1 2 0 -1 .136e-10 .380e-10 .662e-10 .949e-10 1.23e-10 CPMM 1 2 0 0 .136e-10 .380e-10 .662e-10 .949e-10 1.23e-10 CPMM 1 2 0 1 .136e-10 .380e-10 .662e-10 .949e-10 1.23e-10 * CPMM 1 3 0 -2 .509e-10 1.26e-10 2.02e-10 2.70e-10 3.29e-10 CPMM 1 3 0 -1 .509e-10 1.26e-10 2.02e-10 2.70e-10 3.29e-10 CPMM 1 3 0 0 .509e-10 1.26e-10 2.02e-10 2.70e-10 3.29e-10 CPMM 1 3 0 1 .509e-10 1.26e-10 2.02e-10 2.70e-10 3.29e-10 CPMM 1 3 0 2 .509e-10 1.26e-10 2.02e-10 2.70e-10 3.29e-10 * CPMM 2 2 -1 0 1.21e-10 1.65e-10 2.01e-10 2.30e-10 2.54e-10 CPMM 2 2 -1 1 2.30e-10 2.99e-10 3.49e-10 3.88e-10 4.19e-10 CPMM 2 3 -1 -2 1.11e-10 2.19e-10 3.14e-10 3.93e-10 4.58e-10 CPMM 2 3 -1 -1 1.51e-10 2.84e-10 3.93e-10 4.79e-10 5.46e-10 CPMM 2 3 -1 0 1.46e-10 2.71e-10 3.70e-10 4.46e-10 5.03e-10 CPMM 2 3 -1 1 .975e-10 1.80e-10 2.46e-10 2.93e-10 3.28e-10 CPMM 2 3 -1 2 .047e-10 .108e-10 .160e-10 .198e-10 .222e-10 CPMM 2 3 0 -2 1.90e-10 3.49e-10 4.73e-10 5.66e-10 6.35e-10 CPMM 2 3 0 -1 .579e-10 1.15e-10 1.65e-10 2.06e-10 2.40e-10 CPMM 2 3 0 0 .138e-10 .369e-10 .622e-10 .864e-10 1.08e-10 * CPMM 3 3 -2 -1 2.08e-10 2.95e-10 3.55e-10 3.98e-10 4.32e-10 CPMM 3 3 -2 0 1.33e-10 1.79e-10 2.04e-10 2.17e-10 2.24e-10 CPMM 3 3 -2 1 .044e-10 .093e-10 .137e-10 .172e-10 .198e-10 CPMM 3 3 -2 2 .028e-10 .041e-10 .047e-10 .049e-10 .049e-10 * CPMM 3 3 -1 0 .529e-10 .985e-10 1.45e-10 1.89e-10 2.29e-10 CPMM 3 3 -1 1 1.96e-10 2.58e-10 2.90e-10 3.05e-10 3.11e-10 END