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Added beta version of standard77 data set related to #18
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@jhmatthews
jhmatthews committed Dec 9, 2013
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710 changes: 710 additions & 0 deletions atomic77/Badnell_GS_RR.txt
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13 changes: 13 additions & 0 deletions atomic77/README.md
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This data set is the same as standard73 except for the extrapolated cross sections.

The procedure is pretty klugey:

* identify odd XSections by eye
* Check none of them are the ground state
* If the gradient is above ~3 (I used 2.9 to give a slight buffer) and it is in the 'odd looking' list, then fudge it by setting gradient to -3
* if not, use the gradient at the last point in the data
* extrapolate up to 100Kev



It is prepared using extrapolate_log.py and subroutines in extrapolate_sub.py
807 changes: 807 additions & 0 deletions atomic77/chianti_dr.dat
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465 changes: 465 additions & 0 deletions atomic77/chianti_rr.dat
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134 changes: 134 additions & 0 deletions atomic77/coll.data
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#Added all lines in G&S longward of 82 A
#Collisional excitation crossections using the formalism of Gaetz and Salpeter
# ele z istate energy(eV) wave(A) alpha beta log(tm)
Xcol Fe 26 7 82.32 150.9 0.39 0.296 5.65
Xcol Fe 26 6 74.87 165.6 1.60 0.083 5.40
Xcol Fe 26 7 74.62 166.2 1.29 0.112 5.56
Xcol Fe 26 8 73.98 167.9 1.37 0.141 5.90
Xcol Fe 26 8 73.65 168.7 1.08 0.142 5.90
Xcol Fe 26 9 72.48 171.1 7.59 0.278 6.00
Xcol 0 8 6 83.65 173.0 0.176 0.058 5.45
Xcol Fe 26 10 71.70 174.5 3.87 0.162 6.10
Xcol Fe 26 7 71.60 176.9 2.13 0.115 5.65
Xcol Fe 26 10 70.19 178.3 2.12 0.163 6.10
Xcol Fe 26 9 69.33 180.7 2.98 0.168 6.15
Xcol Fe 26 8 66.87 185.8 1.20 0.147 5.90
Xcol Fe 26 10 67.19 186.3 0.809 0.165 6.10
Xcol Fe 26 11 66.09 189.3 0.923 0.101 6.15
Xcol Fe 26 12 75.06 189.7 0.631 0 6.20
Xcol Fe 26 12 74.95 190.1 0.632 0 6.20
Xcol Fe 26 12 63.86 194.1 4.07 0.174 6.20
Xcol Fe 26 12 68.73 196.1 0.689 0.0 6.20
Xcol Fe 26 12 71.30 201.4 0.664 0.0 6.20
Xcol Fe 26 13 63.07 201.9 1.54 0.18 6.30
Xcol Fe 26 13 61.63 206.8 0.348 0.181 6.30
Xcol Fe 26 24 59.24 209.3 0.342 0.167 7.25
Xcol Fe 26 14 58.82 216.5 1.14 0.027 6.45
Xcol Fe 26 13 63.07 217.1 0.316 0.180 6.30
Xcol S 16 9 55.61 224.9 0.427 0.091 6.00
Xcol Si 14 9 55.42 226.0 0.439 0.110 6.10
Xcol Fe 26 15 84.35 230.7 0.281 0.0 6.55
Xcol O 8 4 52.02 238.5 0.272 0.230 5.20
Xcol Fe 26 15 94.49 243.8 0.122 0.117 6.55
Xcol Si 14 6 50.40 247.0 0.274 0.126 5.60
Xcol Fe 26 13 51.51 248.7 0.982 0.034 6.30
Xcol S 16 13 48.30 256.7 1.15 0.149 6.40
Xcol S 16 10 47.42 261.5 0.714 0.179 6.15
Xcol Fe 26 14 48.83 262.3 2.21 0.019 6.45
Xcol Si 14 7 45.25 275.5 0.523 0.129 5.80
Xcol Fe 26 6 44.94 276.8 1.67 0.298 5.40
Xcol Mg 12 7 44.90 277.7 0.689 0.153 5.80
Xcol Fe 26 14 45.21 284.0 0.253 0.019 6.45
Xcol Fe 26 15 43.63 284.1 3.64 0.150 6.55
Xcol Si 14 9 42.66 294.4 0.350 0.068 6.10
Xcol Si 14 11 40.84 303.6 1.12 0.028 6.25
Xcol He 2 2 40.80 303.8 0.290 0.206 4.70
Xcol He 2 2 40.80 303.8 0.106 -0.302 4.70
Xcol 0 8 3 40.58 305.7 0.416 0.204 4.95
Xcol Mg 12 8 39.68 314.6 1.49 0.089 5.90
Xcol Fe 26 13 39.30 316.0 0.773 0.017 6.30
Xcol Si 14 8 39.03 317.7 1.26 0.083 5.95
Xcol Fe 26 16 36.10 343.5 2.36 0.152 6.65
Xcol Fe 26 14 37.27 347.2 1.32 0.011 6.45
Xcol Si 14 9 36.24 347.4 0.606 0.073 6.10
Xcol Fe 26 10 35.86 352.1 0.850 0.045 6.10
Xcol Mg 12 8 35.22 353.2 0.761 0.127 5.45
Xcol Fe 26 11 35.77 353.8 1.70 0.027 6.15
Xcol Fe 26 12 34.70 357.3 2.46 0.030 6.20
Xcol Ne 10 5 34.64 358.9 0.378 0.233 5.45
Xcol Fe 26 13 35.79 363.3 1.36 0.013 6.30
Xcol Mg 12 7 34.08 366.4 0.432 0.217 5.80
Xcol Mg 12 8 33.69 368.1 1.61 0.111 6.00
Xcol Ne 10 6 30.98 401.7 2.30 0.178 5.60
Xcol Mg 12 6 30.86 401.8 1.76 0.185 5.60
Xcol Mg 12 7 28.88 433.0 0.646 0.196 5.80
Xcol Mg 12 8 28.80 434.6 0.924 0.096 5.90
Xcol Ne 10 7 26.65 465.2 2.11 0.068 5.70
Xcol Ne 10 5 25.81 482.2 0.717 0.184 5.45
Xcol Si 14 12 24.49 506.2 1.03 0.136 6.30
Xcol O 8 3 24.44 507.9 0.565 0.163 4.95
Xcol O 8 4 22.40 555.4 1.38 0.148 5.20
Xcol Ne 10 6 22.19 561.4 0.464 0.113 5.60
Xcol Ne 10 5 21.81 571.0 0.893 0.164 5.45
Xcol O 8 4 20.38 609.4 0.395 0.123 5.20
Xcol Mg 12 10 20.17 614.8 1.33 0.126 6.06
Xcol O 8 5 19.69 629.7 3.08 0.067 5.40
Xcol N 7 3 18.10 685.7 1.34 0.195 4.90
Xcol O 8 3 17.65 703.4 0.932 0.128 4.95
Xcol S 16 4 16.62 749.6 3.50 0.171 5.10
Xcol N 7 4 16.20 765.2 4.03 0.157 5.20
Xcol Ne 10 8 16.03 773.7 1.93 0.117 5.80
Xcol S 16 5 15.76 786.5 8.63 0.135 5.20
Xcol O 8 4 15.74 789.4 1.05 0.098 5.20
Xcol O 8 2 14.87 833.8 0.583 0.289 4.45
Xcol O 8 3 14.88 834.5 1.16 0.108 4.95
Xcol C 6 2 14.45 858.4 0.423 -0.124 4.35
Xcol C 6 2 13.72 904.1 0.919 0.269 4.35
Xcol N 7 2 13.54 916.4 1.27 0.072 4.45
Xcol S 16 6 13.23 944.52 2.57 0.156 5.30
Xcol S 16 6 13.23 933.37 5.13 0.156 5.30
Xcol H 1 1 13.22 937.8 4.63e-2 0.030 4.10
Xcol H 1 1 13.06 949.7 8.48e-2 0.031 4.10
Xcol H 1 1 12.75 972.5 1.84e-1 0.033 4.10
Xcol C 6 3 12.69 977.02 4.61 0.095 4.85
Xcol N 7 3 12.53 991.0 9.30e-1 0.061 4.90
Xcol Si 14 2 12.53 991.7 5.84e-1 0.159 4.25
Xcol Ne 10 6 12.52 999.2 5.35e-2 -0.106 5.60
Xcol H 1 1 12.09 1025.7 5.50e-1 0.037 4.10
Xcol O 8 6 11.99 1037.61 0.99 0.103 5.45
Xcol O 8 6 11.99 1031.93 1.99 0.103 5.45
Xcol C 6 2 11.96 1036.8 3.50e-1 0.230 4.35
Xcol S 16 4 11.67 1069.6 9.37e-1 0.028 5.10
Xcol N 7 2 11.44 1085.1 1.39e00 0.062 4.45
Xcol Si 14 2 10.41 1194.1 4.69e-1 0.888 4.25
Xcol S 16 3 10.42 1197.5 2.97e-1 0.113 4.80
Xcol Si 14 3 10.28 1206.5 1.13e01 0.193 4.90
#G&S treat the Ly alpha in two parts
Xcol H 1 1 10.20 1215.7 3.73e-1 0.560 4.10
Xcol H 1 1 10.20 1215.7 1.98e-1 0.292 4.10
Xcol O 8 5 10.18 1218.3 3.48e-1 -0.325 5.40
Xcol N 7 5 9.998 1242.8 1.33 0.103 5.30
Xcol N 7 5 9.998 1238.8 2.65 0.103 5.30
Xcol Si 14 2 9.838 1263.3 1.73e00 0.439 4.25
Xcol Si 14 2 9.505 1307.6 2.64e-1 0.205 4.25
Xcol C 6 2 9.290 1335.71 0.53 0.148 4.35
Xcol C 6 2 9.290 1335.66 0.059 0.148 4.35
Xcol C 6 2 9.290 1334.53 0.57 0.148 4.35
# Xcol O 8 5 28.73 1371.3 1.07e-1 -0.048 5.40
# Xcol S 16 4 8.977 1393.4 5.78e-1 -0.466 5.10
Xcol Si 14 4 8.877 1402.77 3.36 0.135 5.10
Xcol Si 14 4 8.877 1393.76 6.74 0.135 5.10
Xcol O 8 4 8.882 1400.9 1.63e-1 -0.169 5.20
Xcol N 7 4 8.341 1486.5 5.24e-1 -0.290 5.20
Xcol Si 14 2 8.121 1531.2 4.52e-1 0.248 4.25
Xcol C 6 4 8.004 1550.77 1.71 0.108 5.00
Xcol C 6 4 8.004 1548.19 3.42 0.108 5.00
Xcol O 8 3 7.479 1663.4 1.10e-1 -0.205 4.95
Xcol N 7 3 7.102 1749.4 2.71e-1 -0.130 4.90
Xcol Si 14 2 6.859 1814.0 1.00e-1 0.133 4.25
Xcol Si 14 3 6.553 1892.0 2.47e00 -0.494 4.90
Xcol C 6 3 6.496 1908.7 8.81e-1 -0.162 4.85
Xcol N 7 2 5.801 2141.5 4.24e-1 -0.365 4.45
Xcol C 6 3 18.090 2297.6 3.81e-1 -0.039 4.85
Xcol C 6 2 5.336 2325.9 5.14e-1 -0.055 4.35
Xcol Si 14 2 5.332 2335.9 2.10 -0.302 4.25
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