LLNL Evaluation, September 2005 1 0 0 0 5.413100+4 1.309051+2 -1 0 0 05447 1451 1 1.639300+5 0.000000+0 2 1 0 65447 1451 2 1.000000+0 2.000000+7 0 0 10 65447 1451 3 0.000000+0 0.000000+0 0 0 47 25447 1451 4 54-Xe-131 LLNL EVAL-Aug03 R. D. Hoffman, K. Kelley, et al. 5447 1451 5 DIST- REV- 5447 1451 6 LLNL Evaluation, September 2005 5447 1451 7 5447 1451 8 R. D. Hoffman, K. Kelley, F. S. Dietrich, R. Bauer, M. Mustafa, 5447 1451 9 D. Brown 5447 1451 10 5447 1451 11 ******************************************************************5447 1451 12 5447 1451 13 MF=3: CROSS SECTIONS FOR TARGET 131-XE (M1) 5447 1451 14 5447 1451 15 Cross sections to the ground state and any isomeric states in the 5447 1451 16 residual have been included for the following reactions: 5447 1451 17 5447 1451 18 (n,p) 5447 1451 19 5447 1451 20 Cross sections were calculated for incident energies from 5 keV 5447 1451 21 to 20 MeV, using the STAPRE code with a exiton model for 5447 1451 22 pre-equilibrium emission. Direct reaction contributions are not 5447 1451 23 included. 5447 1451 24 5447 1451 25 Exit particles considered are neutrons and protons only, with 5447 1451 26 transmission coefficients obtained from the optical potential of 5447 1451 27 Koning and Delaroche using the ECIS code. A simple Lorentzian is 5447 1451 28 assumed for the E1 photon strength function, and is normalized to 5447 1451 29 measured or systematic values of the average total s-wave 5447 1451 30 radiation width at the neutron binding energy. 5447 1451 31 5447 1451 32 Backshifted Fermi gas level density parameters are derived from 5447 1451 33 measured s-wave resonance spacings where available. For other 5447 1451 34 nuclei, systematic values are adopted. At low energies a constant 5447 1451 35 temperature form is adopted, and the two formulae are matched at 5447 1451 36 an energy between the backshift and the neutron binding energy so 5447 1451 37 as to give the best possible fit to known spectroscopic levels. 5447 1451 38 5447 1451 39 Discrete levels are taken from the Reference Input Parameter 5447 1451 40 Library (RIPL) with additional evaluations performed by R. Bauer. 5447 1451 41 5447 1451 42 Further details regarding this modeling effort can be found in R. 5447 1451 43 D. Hoffman, F. S. Dietrich, R. Bauer, K. Kelley, & M. Mustafa, 5447 1451 44 "Neutron and Charged- Particle Induced Cross Sections for 5447 1451 45 Radiochemistry in the Region of Iodine and Xenon", 2004, LLNL, 5447 1451 46 UCRL-TR-206721, available online at http://www.osti.gov/bridge 5447 1451 47 5447 1451 48 ******************************************************************5447 1451 49 5447 1451 50 *************************** DICTIONARY ***************************5447 1451 51 1 451 53 05447 1451 52 3 103 88 05447 1451 53 0.000000+0 0.000000+0 0 0 0 05447 1 099999 0.000000+0 0.000000+0 0 0 0 05447 0 0 0 5.413100+4 1.309051+2 0 0 0 05447 3103 1 -2.330030+4-2.330030+4 0 0 1 2545447 3103 2 254 2 5447 3103 3 2.347984+4 3.59263-15 2.520000+4 1.000000-9 2.830000+4 1.000000-95447 3103 4 3.170000+4 1.000000-9 3.560000+4 1.000000-9 4.000000+4 1.000000-95447 3103 5 4.490000+4 1.000000-9 5.040000+4 1.000000-9 5.660000+4 1.000000-95447 3103 6 6.350000+4 1.000000-9 7.130000+4 1.000000-9 8.000000+4 1.000000-95447 3103 7 8.940000+4 1.000000-9 1.000000+5 1.000000-9 1.050000+5 1.000000-95447 3103 8 1.100000+5 1.000000-9 1.150000+5 1.000000-9 1.200000+5 1.000000-95447 3103 9 1.260000+5 1.000000-9 1.320000+5 1.000000-9 1.380000+5 1.000000-95447 3103 10 1.450000+5 1.000000-9 1.520000+5 1.000000-9 1.590000+5 1.000000-95447 3103 11 1.660000+5 1.000000-9 1.740000+5 1.000000-9 1.820000+5 1.000000-95447 3103 12 1.910000+5 1.000000-9 2.000000+5 1.000100-9 2.090000+5 1.001100-95447 3103 13 2.190000+5 1.003600-9 2.300000+5 1.007900-9 2.410000+5 1.013700-95447 3103 14 2.520000+5 1.021200-9 2.640000+5 1.031200-9 2.760000+5 1.043100-95447 3103 15 2.890000+5 1.058000-9 3.030000+5 1.076400-9 3.170000+5 1.097300-95447 3103 16 3.320000+5 1.122300-9 3.480000+5 1.151900-9 3.650000+5 1.186700-95447 3103 17 3.820000+5 1.224800-9 4.000000+5 1.268700-9 4.190000+5 1.318900-95447 3103 18 4.390000+5 1.376000-9 4.590000+5 1.437200-9 4.810000+5 1.509300-95447 3103 19 5.040000+5 1.589700-9 5.280000+5 1.679000-9 5.530000+5 1.777700-95447 3103 20 5.790000+5 1.886300-9 6.060000+5 2.005100-9 6.350000+5 2.139200-95447 3103 21 6.650000+5 2.284800-9 6.960000+5 2.442200-9 7.290000+5 2.616900-95447 3103 22 7.640000+5 2.809800-9 8.000000+5 3.015700-9 8.370000+5 3.234600-95447 3103 23 8.750000+5 3.466300-9 9.150000+5 3.717000-9 9.560000+5 3.980200-95447 3103 24 1.000000+6 4.268500-9 1.100000+6 4.940500-9 1.200000+6 5.624000-95447 3103 25 1.300000+6 6.304900-9 1.400000+6 6.969200-9 1.500000+6 7.602700-95447 3103 26 1.600000+6 8.191400-9 1.700000+6 8.721200-9 1.800000+6 9.177900-95447 3103 27 1.900000+6 9.547500-9 2.000000+6 9.815900-9 2.100000+6 9.969000-95447 3103 28 2.200000+6 1.000000-8 2.300000+6 1.165300-8 2.400000+6 3.000000-85447 3103 29 2.500000+6 5.194400-8 2.600000+6 8.891600-8 2.700000+6 1.288700-75447 3103 30 2.800000+6 1.922900-7 2.900000+6 2.849200-7 3.000000+6 4.108700-75447 3103 31 3.100000+6 5.822100-7 3.200000+6 7.936500-7 3.300000+6 1.060900-65447 3103 32 3.400000+6 1.388900-6 3.500000+6 1.794600-6 3.600000+6 2.277300-65447 3103 33 3.700000+6 2.855000-6 3.800000+6 3.518000-6 3.900000+6 4.284600-65447 3103 34 4.000000+6 5.146700-6 4.100000+6 6.121400-6 4.200000+6 7.199000-65447 3103 35 4.300000+6 8.396700-6 4.400000+6 9.709300-6 4.500000+6 1.115400-55447 3103 36 4.600000+6 1.272800-5 4.700000+6 1.445000-5 4.800000+6 1.633100-55447 3103 37 4.900000+6 1.839100-5 5.000000+6 2.064800-5 5.100000+6 2.313100-55447 3103 38 5.200000+6 2.586400-5 5.300000+6 2.889000-5 5.400000+6 3.224900-55447 3103 39 5.500000+6 3.599500-5 5.600000+6 4.017200-5 5.700000+6 4.485600-55447 3103 40 5.800000+6 5.008600-5 5.900000+6 5.596100-5 6.000000+6 6.251700-55447 3103 41 6.100000+6 6.987700-5 6.200000+6 7.808300-5 6.300000+6 8.728700-55447 3103 42 6.400000+6 9.751400-5 6.500000+6 1.089500-4 6.600000+6 1.216100-45447 3103 43 6.700000+6 1.357200-4 6.800000+6 1.513000-4 6.900000+6 1.685800-45447 3103 44 7.000000+6 1.875600-4 7.100000+6 2.085000-4 7.200000+6 2.314300-45447 3103 45 7.300000+6 2.566200-4 7.400000+6 2.840600-4 7.500000+6 3.140600-45447 3103 46 7.600000+6 3.466100-4 7.700000+6 3.820600-4 7.800000+6 4.203500-45447 3103 47 7.900000+6 4.618200-4 8.000000+6 5.064400-4 8.100000+6 5.545400-45447 3103 48 8.200000+6 6.060900-4 8.300000+6 6.614800-4 8.400000+6 7.205900-45447 3103 49 8.500000+6 7.837800-4 8.600000+6 8.510000-4 8.700000+6 9.226200-45447 3103 50 8.800000+6 9.985000-4 8.900000+6 1.079000-3 9.000000+6 1.164000-35447 3103 51 9.100000+6 1.253900-3 9.200000+6 1.348500-3 9.300000+6 1.448200-35447 3103 52 9.400000+6 1.552800-3 9.500000+6 1.662600-3 9.600000+6 1.777500-35447 3103 53 9.700000+6 1.897800-3 9.800000+6 2.023400-3 9.900000+6 2.154600-35447 3103 54 1.000000+7 2.291000-3 1.010000+7 2.432800-3 1.020000+7 2.580300-35447 3103 55 1.030000+7 2.734000-3 1.040000+7 2.893100-3 1.050000+7 3.057100-35447 3103 56 1.060000+7 3.226800-3 1.070000+7 3.403200-3 1.080000+7 3.585000-35447 3103 57 1.090000+7 3.771700-3 1.100000+7 3.964300-3 1.110000+7 4.163500-35447 3103 58 1.120000+7 4.368200-3 1.130000+7 4.577800-3 1.140000+7 4.792900-35447 3103 59 1.150000+7 5.013600-3 1.160000+7 5.240200-3 1.170000+7 5.473500-35447 3103 60 1.180000+7 5.712300-3 1.190000+7 5.955400-3 1.200000+7 6.204200-35447 3103 61 1.210000+7 6.459800-3 1.220000+7 6.720700-3 1.230000+7 6.985800-35447 3103 62 1.240000+7 7.256300-3 1.250000+7 7.533700-3 1.260000+7 7.816200-35447 3103 63 1.270000+7 8.102600-3 1.280000+7 8.394100-3 1.290000+7 8.692200-35447 3103 64 1.300000+7 8.995300-3 1.310000+7 9.301700-3 1.320000+7 9.612800-35447 3103 65 1.330000+7 9.930300-3 1.340000+7 1.025200-2 1.350000+7 1.057700-25447 3103 66 1.360000+7 1.090500-2 1.370000+7 1.124000-2 1.380000+7 1.157900-25447 3103 67 1.390000+7 1.191900-2 1.400000+7 1.226200-2 1.410000+7 1.260900-25447 3103 68 1.420000+7 1.295900-2 1.430000+7 1.331300-2 1.440000+7 1.367000-25447 3103 69 1.450000+7 1.402700-2 1.460000+7 1.438600-2 1.470000+7 1.474800-25447 3103 70 1.480000+7 1.511200-2 1.490000+7 1.547600-2 1.500000+7 1.584000-25447 3103 71 1.510000+7 1.620600-2 1.520000+7 1.657300-2 1.530000+7 1.693700-25447 3103 72 1.540000+7 1.730100-2 1.550000+7 1.766500-2 1.560000+7 1.802800-25447 3103 73 1.570000+7 1.838700-2 1.580000+7 1.874500-2 1.590000+7 1.910100-25447 3103 74 1.600000+7 1.945600-2 1.610000+7 1.980600-2 1.620000+7 2.015200-25447 3103 75 1.630000+7 2.049500-2 1.640000+7 2.083400-2 1.650000+7 2.117000-25447 3103 76 1.660000+7 2.150200-2 1.670000+7 2.182800-2 1.680000+7 2.214800-25447 3103 77 1.690000+7 2.246400-2 1.700000+7 2.277500-2 1.710000+7 2.307900-25447 3103 78 1.720000+7 2.337600-2 1.730000+7 2.366800-2 1.740000+7 2.395400-25447 3103 79 1.750000+7 2.423200-2 1.760000+7 2.450200-2 1.770000+7 2.476700-25447 3103 80 1.780000+7 2.502500-2 1.790000+7 2.527400-2 1.800000+7 2.551700-25447 3103 81 1.810000+7 2.575200-2 1.820000+7 2.598000-2 1.830000+7 2.620000-25447 3103 82 1.840000+7 2.641200-2 1.850000+7 2.661700-2 1.860000+7 2.681600-25447 3103 83 1.870000+7 2.700600-2 1.880000+7 2.718900-2 1.890000+7 2.736300-25447 3103 84 1.900000+7 2.753100-2 1.910000+7 2.769100-2 1.920000+7 2.784400-25447 3103 85 1.930000+7 2.799000-2 1.940000+7 2.812800-2 1.950000+7 2.826000-25447 3103 86 1.960000+7 2.838400-2 1.970000+7 2.850100-2 1.980000+7 2.861200-25447 3103 87 1.990000+7 2.861200-2 2.000000+7 2.861200-2 5447 3103 88 0.000000+0 0.000000+0 0 0 0 05447 3 099999 0.000000+0 0.000000+0 0 0 0 05447 0 0 0 0.000000+0 0.000000+0 0 0 0 0 0 0 0 0 0.000000+0 0.000000+0 0 0 0 0 -1 0 0 0