153SM 152SM(N,G) E=THERMAL: {~EGAF} 153SM c Evaluated Gamma-ray Activation File (EGAF). 153SM2c Evaluated by R.B. Firestone (LBNL), December 2003. 153SM c BR$|s{-0}=206 6 (1984MuZY) 153SM cG RI$Elemental |s(|g) assuming %Abundance=26.75 16 153SM N 3.74 2 3.74 2 153SM PN C 153SM2PN Thermal cross section in barns. 153SM cN NR$Isotopic |s(|g)=NR*RI. 153SM2cN Divide by |s{-0} for intensity per neutron capture. 153SM L 0.0 3/2+ 153SM L 7.5350 225/2+ 153SM G 7.5350 22 153SM L 35.8431 223/2- 153SM G 28.308 3 1.30 25 153SM G 35.8431 22 3.9 10 153SM L 53.5332 227/2+ 153SM G 45.998 3 0.16 3 153SM G 53.5332 22 0.084 23 153SM L 65.468 59/2+ 153SM G 11.9 1 153SM G 57.933 5 0.026 7 153SM L 90.8742 255/2- 153SM G 37.341 3 0.14 3 153SM G 55.031 3 0.106 21 153SM G 83.339 3 1.06 19 153SM G 90.8742 25 1.6 3 153SM L 112.954 6 153SM G 59.421 6 0.016 4 153SM G 105.419 6 0.0099 25 153SM L 127.297 33/2- 153SM G 36.423 3 0.013 3 153SM G 91.454 3 0.50 9 153SM G 119.762 3 1.77 23 153SM G 127.297 3 4.1 3 153SM L 174.173 4(7/2-) 153SM G 83.299 4 0.037 10 153SM G 108.704 6 0.16 3 153SM G 120.639 4 0.081 15 153SM G 138.330 5 0.022 5 153SM G 166.638 4 0.48 8 153SM L 182.902 45/2- 153SM G 55.604 4 0.018 5 153SM G 92.028 4 0.050 10 153SM G 129.369 4 0.43 7 153SM G 147.059 4 0.15 3 153SM G 175.367 4 0.75 13 153SM G 182.902 4 0.93 16 153SM L 194.655 13(5/2) 153SM G 187.120 13 0.0050 15 153SM G 194.655 13 0.013 4 153SM L 262.331 5(7/2)+ 153SM G 79.429 5 0.013 4 153SM G 88.158 6 0.0045 16 153SM G 171.456 5 0.043 8 153SM G 196.862 6 0.130 23 153SM G 208.797 5 0.064 13 153SM G 254.796 5 0.28 5 153SM G 262.331 5 0.0035 12 153SM L 265.927 11(7/2-) 153SM G 83.025 11 0.027 7 153SM G 138.630 11 0.0093 20 153SM G 258.392 11 0.005 3 153SM L 276.713 5(3/2)+ 153SM G 93.811 5 0.0050 15 153SM G 149.415 5 0.016 3 153SM G 185.838 5 0.035 7 153SM G 223.179 5 0.16 3 153SM G 240.869 5 0.029 7 153SM G 269.178 5 0.49 9 153SM G 276.712 5 1.01 18 153SM L 321.114 63/2+ 153SM G 126.458 13 0.007 3 153SM G 138.212 7 0.015 3 153SM G 193.816 7 0.037 8 153SM G 230.239 6 0.0093 20 153SM G 267.580 6 0.0087 24 153SM G 285.270 7 0.012 3 153SM G 313.578 6 0.15 3 153SM G 321.113 6 1.6 3 153SM L 356.687 7(5/2)+ 153SM G 35.573 5 0.019 4 153SM G 90.759 10 0.072 19 153SM G 182.514 7 0.015 4 153SM G 229.389 7 0.0039 13 153SM G 265.812 7 0.027 5 153SM G 291.218 8 0.056 11 153SM G 303.153 7 0.065 14 153SM G 349.151 7 0.073 13 153SM G 356.686 7 0.024 7 153SM L 362.289 9(5/2+) 153SM G 188.116 9 0.017 3 153SM G 234.991 10 0.018 4 153SM G 271.414 9 0.007 3 153SM G 296.820 10 0.017 4 153SM G 308.755 10 0.062 11 153SM G 326.445 10 0.019 5 153SM G 354.753 9 0.63 11 153SM G 362.288 9 0.50 9 153SM L 405.468 143/2- 153SM G 278.170 14 0.121 22 153SM G 314.593 14 0.062 11 153SM G 369.624 14 0.19 3 153SM G 397.932 14 2.1 4 153SM L 414.931 141/2+ 153SM G 138.218 13 0.015 3 153SM G 287.633 14 0.019 4 153SM G 379.087 14 0.082 15 153SM G 407.395 14 0.106 20 153SM G 414.930 14 1.9 3 153SM L 447.05 3(7/2+) 153SM G 170.341 25 0.008 3 153SM G 393.52 3 0.068 13 153SM G 439.52 3 0.17 3 153SM L 450.051 11(5/2)- 153SM G 173.338 10 0.085 16 153SM G 359.176 11 0.020 5 153SM G 396.517 11 0.27 5 153SM G 442.515 11 0.47 8 153SM L 481.093 14(3/2)+ 153SM G 66.162 9 0.0050 15 153SM G 204.380 14 0.043 8 153SM G 298.190 14 0.024 5 153SM G 368.138 15 0.051 10 153SM G 390.218 14 0.42 7 153SM G 445.249 14 0.102 20 153SM G 473.557 14 1.39 25 153SM G 481.092 14 0.43 8 153SM L 524.364 19(5/2+) 153SM G 162.076 19 0.017 4 153SM G 203.251 19 0.026 7 153SM G 258.437 20 0.005 3 153SM G 350.191 19 0.097 18 153SM G 433.490 19 0.044 10 153SM G 470.830 19 1.16 21 153SM G 488.521 19 0.084 17 153SM G 516.829 19 0.29 5 153SM G 524.364 19 0.093 24 153SM L 584.31 4 153SM G 263.20 4 0.0099 25 153SM L 630.21 4 1/2-,3/2- 153SM G 435.56 4 0.017 6 153SM G 447.31 4 0.031 7 153SM G 456.04 4 0.011 6 153SM G 539.34 4 0.068 22 153SM G 564.74 4 0.087 24 153SM G 622.68 4 0.88 16 153SM G 630.21 4 1.13 21 153SM L 647.9 6 153SM G 647.9 6 153SM L 695.80 4(1/2)- 153SM G 374.69 4 0.030 7 153SM G 568.50 4 0.14 3 153SM G 582.85 4 0.17 4 153SM G 659.96 4 1.29 23 153SM L 734.86 3 1/2+,3/2+ 153SM G 329.40 3 0.116 21 153SM G 413.75 3 0.11 3 153SM G 540.21 3 0.081 23 153SM G 551.96 3 0.059 18 153SM G 681.33 3 0.18 4 153SM G 727.33 3 0.26 6 153SM G 734.86 3 1.02 20 153SM L 750.32 5(3/2)- 153SM G 393.64 5 153SM G 473.61 5 153SM G 567.42 5 0.32 7 153SM G 742.79 5 0.11 4 153SM G 750.32 5 0.12 4 153SM L 916.8 4 1/2+,3/2+ 153SM G 916.8 4 153SM L 984.3 5 1/2-,3/2- 153SM G 984.3 5 153SM L 1004.3 6 153SM G 1004.3 6 153SM L 1018.3 6 153SM G 1018.3 6 153SM L 1110.4 5 1/2+,3/2+ 153SM G 1110.4 5 153SM L 1171.1 5 1/2-,3/2- 153SM G 1171.1 5 153SM L 1223.7 6 1/2+,3/2+ 153SM G 1223.7 6 153SM L 1322.6 3 1/2-,3/2- 153SM G 1322.6 3 153SM L 1344.0 4 1/2+,3/2+ 153SM G 1344.0 4 153SM L 1362.7 3 1/2-,3/2- 153SM G 1362.7 3 153SM L 1393.9 5 153SM G 1393.9 5 153SM L 1400.0 5 153SM G 1400.0 5 153SM L 1527.0 7 1/2-,3/2- 153SM G 1527.0 7 153SM L 1557.9 7 1/2+,3/2+ 153SM G 1557.9 7 153SM L 1924.9 5 153SM G 1924.9 5 153SM L 1933.8 4 153SM G 1933.8 4 153SM L 2496.6 7 153SM G 2496.6 7 153SM L 2642.8 5 153SM G 2642.8 5 153SM L 5868.40 101/2+ 153SM G 3225.6 5 0.12 3 153SM G 3371.8 7 0.35 6 153SM G 3934.6 4 0.29 5 153SM G 3943.5 5 0.21 4 153SM G 4310.5 7 0.17 4 153SM G 4341.3 7 0.54 11 153SM G 4468.3 5 0.081 18 153SM G 4474.4 5 0.068 17 153SM G 4505.6 3 0.43 8 153SM G 4524.3 4 0.17 3 153SM G 4545.7 3 0.56 11 153SM G 4644.6 6 0.087 19 153SM G 4697.2 5 0.58 12 153SM G 4757.9 5 0.056 21 153SM G 4850.0 6 0.056 16 153SM G 4864.0 6 0.23 4 153SM G 4884.0 5 0.22 5 153SM G 4951.5 4 0.075 18 153SM G 5117.98 11 0.24 4 153SM G 5133.44 11 0.025 13 153SM G 5172.50 11 0.36 7 153SM G 5220.4 6 0.010 6 153SM G 5238.09 11 0.63 11 153SM G 5283.98 11 0.021 8 153SM G 5387.20 10 0.25 5 153SM G 5453.36 10 0.14 3 153SM G 5462.82 10 0.19 4 153SM G 5506.00 10 0.0062 21 153SM G 5511.60 10 0.0043 20 153SM G 5547.17 10 0.065 16 153SM G 5591.57 10 0.052 10 153SM G 5740.98 10 2.7 5 153SM G 5832.43 10 0.61 11 153SM G 5860.74 10 0.006 4 153SM G 5868.28 10 0.092 18 153SM 152SM(N,G) E=THERMAL:^BUDAPEST 153SM c Budapest Reactor data measured with thermal beam. 153SM cG RI$Elemental |s(|g) assuming %Abundance=26.75 16 153SM N 3.75 3 153SM PN C 153SM2PN Thermal cross section in barns. 153SM L 0.0 3/2+ 153SM L 7.534 35/2+ 153SM L 35.843 33/2- 153SM L 53.533 37/2+ 153SM L 65.68 219/2+ 153SM G 58.1521 153SM L 91.95 65/2- 153SM G 84.75 7 153SM G 91.0713 1.8 3 153SM L 112.95 13 153SM G 59.4213 153SM L 127.34 63/2- 153SM G 119.7910 153SM G 127.33 7 4.1 3 153SM L 174.172 5(7/2-) 153SM L 182.902 45/2- 153SM L 194.655 13(5/2) 153SM L 261.67 10(7/2)+ 153SM G 79.1121 153SM G 87.4111 153SM L 265.926 11(7/2-) 153SM L 277.26 12(3/2)+ 153SM G 186.0219 153SM G 223.3 3 153SM G 269.4 3 2.8 6 153SM G 276.7222 153SM L 321.113 73/2+ 153SM L 353.5 153SM L 356.30 11(5/2)+ 153SM G 182.2711 153SM L 362.68 22(5/2+) 153SM G 355.1522 153SM L 406.0 33/2- 153SM G 278.7 3 153SM L 414.923 131/2+ 153SM L 447.04 5(7/2+) 153SM L 450.050 11(5/2)- 153SM L 481.79 13(3/2)+ 153SM G 67.0317 153SM G 481.5620 153SM L 524.4 8(5/2+) 153SM G 350.2 8 153SM L 584.31 4 153SM L 631.29 9 1/2-,3/2- 153SM G 436.6415 153SM G 539.31 9 153SM L 647.9 7 153SM L 695.80 4(1/2)- 153SM L 734.86 3 1/2+,3/2+ 153SM G 414.7725 1.7 6 153SM L 750.88 11(3/2)- 153SM G 750.8811 49 6 153SM L 916.8 5 1/2+,3/2+ 153SM L 984.3 6 1/2-,3/2- 153SM L 1004.3 7 153SM L 1018.4 5 153SM L 1110.4 6 1/2+,3/2+ 153SM L 1170.1 4 1/2-,3/2- 153SM L 1223.7 7 1/2+,3/2+ 153SM L 1322.6 4 1/2-,3/2- 153SM L 1344.0 5 1/2+,3/2+ 153SM L 1363.6 3 1/2-,3/2- 153SM L 1393.9 6 153SM L 1400.0 6 153SM L 1527.0 8 1/2-,3/2- 153SM L 1557.9 8 1/2+,3/2+ 153SM L 1924.9 6 153SM L 1933.8 5 153SM L 2496.6 8 153SM L 2642.5 3 153SM L 5868.39 211/2+ 153SM G 3225.9 3 153SM G 4503.9 4 4.5 9 153SM G 4698.6 4 3.2 6 153SM G 4849.8 6 153SM G 5171.814 153SM G 5236.2 5 4.2 7 153SM G 5514.9 5 2.2 6 153SM G 5739.3 6 5.4 7 153SM G 5867.9 5