114IN 113IN(N,G) E=TH 1975RA07 114IN H TYP=FUL$AUT=J. TULI$COM=CHANGED DSID$ 114IN H TYP=FUL$AUT=Jean Blachot, Georges Marguier$CIT=NDS 75,739 (1995)$ 114IN2 H CUT=1-MAY-1995$ 114IN C JPI(113IN)=9/2+ 114IN C Measured: G, GG, GG(T), semi 114IN C The thermal-neutron capture state is mainly 4+ 114IN C Activity: enriched target 114IN CG E Calibration for high energy G's is based on 114IN2CG E(G)=7367.73 50 for n-capture in PB and E(G)=2223.29 7 114IN3CG for n-capture in hydrogen calibration for low energy G's is 114IN4CG based on known 116IN transitions, but quoted uncertainties for some 114IN5CG G's are unrealistically low. The 116IN calibration lines are known 114IN6CG at best to 0.02 KEV; therefore, the evaluator has increased to 114IN7CG 0.02 KEV the authors' uncertainties that are smaller than this 114IN CG E(A)$Existence of line is doubtful 114IN CG E(B)$Seen in GG only 114IN CG RI$Photons per 1000 neutron captures. The absolute intensity was 114IN2CG obtained from the known 116IN G rays and from the isomeric cross 114IN3CG section. Only relative uncertainties are given. The authors estimate 114IN4CG additional calibration uncertainty to be <20% for the high 114IN5CG energy G's. Values for the low energy G's are relative to 114IN6CG I(311.65G)=240 per 1000 n-captures; for absolute DRI the 114IN7CG uncertainty of +36-57 for this intensity must be included 114IN CL J$From 1975Ra07 based on configuration arguments, 114IN2CL T1/2, and GAMMA-ray decay patterns 114IN CL E$From 1975Ra07. 116IN calibration lines are known at best to 0.02 KEV; 114IN2CL therefore, the evaluator has increased to 0.02 KEV the uncertainties 114IN3CL that are smaller than this. 114IN CG E(C)$Possibly a doublet 114IN N 0.059 114IN cN SIGMAN=15.1 12 114IN G 48.28 4 0.67 17 114IN G 51.26 8 0.21 13 A 114IN G 98.47 3 0.29 8 114IN G 129.51 15 0.042 21 114IN G 146.18 12 1.83 21 114IN G 170.31 5 0.42 13 114IN G 205.67 3 0.52 6 114IN G 212.21 8 0.33 8 114IN G 220.41 8 0.25 8 114IN G 317.43 20 1.0 4 114IN G 397.2 4 0.75 17 114IN G 429.8 3 0.63 25 114IN G 447.3 5 0.46 17 114IN G 496.72 15 0.75 17 114IN G 532.7 6 0.38 21 114IN G 586.0 7 0.79 21 114IN G 591.6 8 1.0 3 114IN G 593.6 8 0.46 13 114IN G 612.8 7 0.63 25 114IN G 622.3 6 0.58 25 114IN G 635.1 8 0.75 25 114IN G 638.3 8 0.50 21 114IN G 644.2 4 1.4 4 114IN G 711.3 8 0.58 21 114IN G 734.4 7 0.71 25 114IN G 754.3 8 0.8 3 114IN G 757.2 8 1.3 3 114IN G 771.6 5 1.8 5 114IN G 787.0 4 1.0 3 114IN G 830.6 7 1.1 4 114IN G 838.6 7 1.1 6 114IN G 874.4 4 2.3 10 114IN G 881.4 8 0.42 21 114IN G 895.8 8 0.54 21 114IN G 899.6 9 0.54 21 114IN G 904.7 10 1.9 8 114IN G 906.8 7 3.8 17 114IN G 925.4 7 0.42 25 114IN G 940.4 4 2.4 7 114IN G 953.0 5 1.8 4 114IN G 957.7 8 0.46 25 114IN G 962.3 5 0.9 5 114IN G 968.7 8 0.46 25 114IN G 992.7 8 0.58 25 114IN G 995.5 6 1.6 5 114IN G 1013.7 5 3.1 7 114IN G 1017.6 6 1.7 5 114IN G 1025.9 5 1.7 5 114IN G 1031.9 7 0.75 25 114IN G 1047.6 5 1.5 4 114IN G 1051.2 8 0.75 25 114IN G 1059.8 4 3.3 5 114IN G 1069.3 8 0.71 25 114IN G 1072.1 10 1.5 5 114IN G 1074.8 8 1.0 3 114IN G 1089.5 10 5.0 13 114IN G 1102.7 4 4.6 13 114IN G 1119.7 4 2.9 7 114IN G 1124.0 7 0.9 3 114IN G 1151.9 5 3.5 6 114IN G 1182.4 10 1.4 3 114IN G 1225.9 7 2.3 5 114IN G 1239.7 5 2.5 7 114IN G 1253.7 5 2.7 5 114IN G 1267.7 5 4.1 7 114IN G 1313.0 7 1.4 4 114IN G 1319.1 9 0.9 3 114IN G 1333.2 6 2.5 6 114IN G 1344.2 7 2.0 5 114IN G 1364.3 8 1.2 3 114IN G 1371.5 8 1.0 3 114IN G 1379.7 9 0.42 17 114IN G 1384.6 7 0.92 25 114IN G 1401.0 6 1.3 3 114IN G 1409.6 6 1.5 3 114IN L 0.0 1+ 114IN L 190.291 195+ 114IN G 190.29 2 E4 49.51 D 1 5.20 114INS G KC= 2.58 $LC= 2.05 $MC= 0.482 $NC+= 0.0886 114IN L 221.044 24(4+) 114IN G 30.73 2 5815 [M1] 15.8 114INS G KC= 13.6 $LC= 1.76 $MC= 0.339 114IN L 287.730 192+,(3+) 69 PS LT 114IN G 287.73 2 20812 M1 0.0292 114INS G KC= 0.0254 $LC= 0.00311 $MC= 0.000589 $NC+= 1.015E-04 114IN L 497.161 245+,(4+) 0.15 NS 11 114IN G 276.09 2 37 3 114IN G 306.87 2 62 5 114IN L 501.930 258- 114IN G 311.65 2 240 E3 0.113 114IN L 536.281 257- 114IN G 34.36 2 25 6 [M1] 11.5 114INS G KC= 9.87 $LC= 1.26 $MC= 0.244 114IN L 574.43 3(6)- 114IN G 38.13 2 26 5 [M1] 8.40 114INS G KC= 7.24 $LC= 0.928 $MC= 0.179 114IN G 384.2 2 1.9 8 114IN L 627.979 253+,(4+,3) 69 PS LT 114IN G 340.25 2 90 7 114IN L 641.702 247+ 4.3 NS 4 114IN G 67.26 8 1.0 5 [E1] 0.537 114INS G KC= 0.463 $LC= 0.0598 $MC= 0.0114 $NC+= 0.00240 114IN G 105.45 2 5.8 7 [E1] 0.150 114INS G KC= 0.130 $LC= 0.0162 $MC= 0.00309 $NC+= 0.000650 114IN G 140.3 5 1.610 [E1] 0.0667 B 114INS G KC= 0.0580 $LC= 0.00710 $MC= 0.00135 $NC+= 0.000286 114IN G 451.42 2 19.318 114IN L 687.48 48+,(7+,6+) 114IN G 45.78 3 0.6 3 [M1] 4.93 114INS G KC= 4.25 $LC= 0.541 $MC= 0.105 114IN L 693.44 6 1-,2- 114IN G 405.66 8 1.7 4 114IN G 693.0 4 35 3 114IN L 696.42 35- 104 PS LT 114IN G 121.97 2 10411 M1 0.295 114INS G KC= 0.255 $LC= 0.0320 $MC= 0.00615 $NC+= 0.00136 114IN G 199.3415 0.4 2 [E1] 0.0248 114INS G KC= 0.0216 $LC= 0.00262 $MC= 0.000531 $NC+= 1.06E-04 114IN G 475.310 0.8 5 114IN G 506.0 3 1.2 7 B 114IN L 724.90 33+,(2+,4+,3-) 114IN G 437.16 3 8.814 114IN G 503.8 3 4.214 114IN G 725.4 4 5.311 114IN L 728.60 54+,(5+) 114IN G 231.47 5 2.3 4 114IN L 775.28 33- 139 PS LT 114IN G 147.31 2 35 3 M1 0.174 114INS G KC= 0.151 $LC= 0.0189 $MC= 0.00365 $NC+= 0.000796 114IN G 487.6510 4.2 6 114IN L 825.69 52-,(1-,2+,3+) 114IN G 97.2510 0.6 3 [E2] 1.72 A 114INS G KC= 1.26 $LC= 0.371 $MC= 0.0745 $NC+= 0.0146 114IN G 132.0710 0.3 1 [E1] 0.0792 114INS G KC= 0.0688 $LC= 0.00845 $MC= 0.00160 $NC+= 0.000341 114IN G 538.2 4 8.215 114IN G 825.7 3 22 4 114IN L 835.75 34- 139 PS LT 114IN G 139.29 2 67 5 M1 0.203 114INS G KC= 0.176 $LC= 0.0221 $MC= 0.00425 $NC+= 0.000930 114IN G 261.3 1 2.216 B 114IN G 645.4 7 2.214 114IN L 909.70 36+,(5+) 114IN G 222.2510 4.2 6 M1 0.0576 114INS G KC= 0.0499 $LC= 0.00617 $MC= 0.00128 $NC+= 2.46E-04 114IN G 412.41 4 10.112 114IN G 688.9 5 2.3 6 114IN G 719.6 2 9.114 114IN L 969.28 64+,(3+,4-,5) 114IN G 59.56 8 0.6 3 [E2] 9.96 114INS G KC= 5.79 $LC= 3.34 $MC= 0.674 $NC+= 0.162 114IN G 194.7 3 0.6 3 [E1] 0.0265 114INS G KC= 0.0230 $LC= 0.00279 $MC= 0.000565 $NC+= 1.14E-04 114IN G 244.3920 0.8 3 114IN G 472.5 8 12 3 114IN L 1003.35 46+,(5+,7+) 114IN G 93.65 2 0.9 2 [M1] 0.621 114INS G KC= 0.537 $LC= 0.0679 $MC= 0.0131 $NC+= 0.00282 114IN G 506.4 5 4.516 B 114IN G 782.5 4 1.6 6 114IN G 813.3 6 5.122 114IN L 1018.50 54-,(4+,3-) 114IN G 183.0615 0.2 1 [E1] 0.0315 114INS G KC= 0.0274 $LC= 0.00332 $MC= 0.000664 $NC+= 1.37E-04 114IN G 192.7111 0.7 3 [E2] 0.153 114INS G KC= 0.125 $LC= 0.0223 $MC= 0.00472 $NC+= 0.000912 114IN G 243.3215 2.0 4 114IN G 322.29 6 11.214 114IN G 731.1 8 1.4 5 114IN G 798.1 4 5.613 114IN L 1019.48 47+,(6+,5+) 114IN G 109.65 4 1.1 3 [M1] 0.397 114INS G KC= 0.344 $LC= 0.0433 $MC= 0.00835 $NC+= 0.00184 114IN G 378.01 5 10.2 8 114IN G 391.3710 3.4 5 114IN L 1032.19 43- 104 PS LT 114IN G 196.43 2 10.220 M1 0.0801 114INS G KC= 0.0694 $LC= 0.00861 $MC= 0.00176 $NC+= 0.000364 114IN G 257.0010 0.7 3 114IN G 339.4 3 3.320 114IN L 1036.80 6(3,4,5+) 208 PS LT 114IN G 261.56 6 8.025 114IN G 816 1 B 114IN L 1044.79 57+,(6+) 114IN G 357.30 5 2.9 4 114IN G 403.1215 1.3 4 114IN G 547.510 4.718 B 114IN L 1062.70 53+,(4+) 114IN G 226.7114 0.3 2 114IN G 237.3612 1.2 3 114IN G 334.0610 3.0 5 114IN G 434.6 2 3.115 B 114IN G 564.9 7 0.7 3 114IN G 775.0520 20.220 114IN G 841.6 3 11 5 114IN G 872.3 5 5.624 114IN L 1111.72 53+,(3-) 114IN G 108.38 4 0.5 2 [E1] 0.139 114INS G KC= 0.121 $LC= 0.0150 $MC= 0.00285 $NC+= 0.000602 114IN G 275.9520 3.012 114IN G 336.40 9 3.3 5 114IN G 890.8 5 1.510 114IN G 921.5 8 2.6 8 114IN L 1138.64 9(3,4) 114IN G 101.9510 0.3510 114IN G 312.7214 6.9 9 114IN G 641.0 6 1.5 6 114IN G 918.0 4 21 3 114IN L 1155.54 63+,(4+) 114IN G 92.83 2 7.3 9 [M1] 0.636 114INS G KC= 0.550 $LC= 0.0696 $MC= 0.0135 $NC+= 0.00288 114IN G 319.7 2 1.810 B 114IN G 527.4220 5.2 7 114IN G 658.6 3 2.1 6 114IN G 866.810 0.9 5 114IN G 934.5 5 2.610 114IN G 1155.9 8 2.5 9 114IN L 1163.08 8 114IN G 337.6 3 1.8 9 B 114IN G 522.0 8 2 1 114IN G 588.8 6 0.8 4 114IN G 665.7 6 2.6 6 114IN G 876.010 2.515 B 114IN L 1169.82 6(4,5) 114IN G 125.0410 0.4 2 [M1] 0.275 114INS G KC= 0.238 $LC= 0.0299 $MC= 0.00573 $NC+= 0.00127 114IN G 133.0410 0.2 1 [M1] 0.231 114INS G KC= 0.200 $LC= 0.0251 $MC= 0.00482 $NC+= 0.00106 114IN G 200.66 9 0.5520 114IN G 344.0913 1.1 4 114IN G 444.5 2 1.6 5 114IN G 473.4 5 1.810 114IN G 540.910 2.010 114IN G 673.3 7 0.8 3 114IN G 948.810 0.8 5 114IN G 979.1 7 1.7 6 114IN L 1198.92 64-,(4+) 114IN G 87.2510 0.4 2 [E1] 0.257 114INS G KC= 0.223 $LC= 0.0281 $MC= 0.00538 $NC+= 0.00108 114IN G 136.1815 0.3 2 [E1] 0.0726 114INS G KC= 0.0631 $LC= 0.00773 $MC= 0.00147 $NC+= 0.000312 114IN G 166.75 8 1.6 3 [M1] 0.124 114INS G KC= 0.108 $LC= 0.0135 $MC= 0.00265 $NC+= 0.000572 114IN G 363.3 7 3.4 4 114IN G 474.0 5 3.316 114IN G 502.6 3 11.825 114IN G 570.9420 8.812 114IN G 701.6 8 1.4 3 114IN L 1201.72 93-,(3+,4) 114IN G 365.8410 3.3 7 114IN G 426.7 2 1.5 6 114IN G 508.0 5 4.218 114IN G 914.0 4 10 2 114IN L 1271.23 53-,(4) 114IN G 252.94 5 1.2 3 114IN G 435.35 4 7.815 114IN G 546.3 4 2.212 114IN G 574.2 4 2.4 8 114IN G 577.2 6 3.9 8 114IN G 983.4 7 3.011 114IN L 1304.15 10(4,5) 114IN G 267.3510 1.4 6 114IN G 468.3 3 4.3 8 114IN G 608.3 8 1.9 5 114IN G 610.7 7 1.2 5 114IN G 676.4 8 2.6 6 114IN G 807.112 0.9 5 114IN G 1083.0 5 3.2 9 114IN G 1113.8 5 1.6 8 114IN L 1311.98 6(3-,4,5) 114IN G 156.42 3 8.2 8 [M1] 0.148 114INS G KC= 0.128 $LC= 0.0160 $MC= 0.00312 $NC+= 0.000677 114IN G 249.42 9 0.7 2 114IN G 476.910 0.9 5 114IN G 536.310 1.7 9 B 114IN G 583.5 6 1.1 5 114IN G 616.2 6 2.6 9 114IN G 618.5 6 3.411 114IN G 670.7 5 2.2 6 114IN G 685.012 1.0 5 B 114IN G 737.7 8 1.7 6 114IN L 1321.17 6(3,4) 114IN G 158.10 5 2.6 5 [M1] 0.144 114INS G KC= 0.124 $LC= 0.0156 $MC= 0.00304 $NC+= 0.000658 114IN G 351.87 5 2.7 5 114IN G 625.7 8 1.2 5 114IN G 628.0 4 2.910 114IN G 679.6 8 2.9 6 114IN G 693.510 4.513 B 114IN G 1034.4 6 3.510 114IN L 1329.13 6(6,5-,7) 114IN G 296.90 8 1.7 3 114IN G 310.54 8 5.7 9 114IN G 632.8 4 3.910 114IN G 793.1625 5.711 114IN L 1336.5 8 114IN L 1349.02 6(3,4,5) 114IN G 150.10 2 6.015 [M1] 0.166 114INS G KC= 0.143 $LC= 0.0180 $MC= 0.00348 $NC+= 0.000757 114IN G 652.5 5 4.010 114IN G 851.2 8 0.9 5 114IN G 1349.610 1.7 7 114IN L 1394.36 6(4,5,6-) 114IN G 65.23 2 2.0 3 [M1] 1.75 114INS G KC= 1.51 $LC= 0.192 $MC= 0.0372 $NC+= 0.00859 114IN G 73.20 8 0.5 2 [M1] 1.25 114INS G KC= 1.08 $LC= 0.137 $MC= 0.0267 $NC+= 0.00565 114IN G 239.1 2 0.6 3 114IN G 559.0 3 3.710 114IN G 568.4 6 1.2 5 114IN G 1174.010 2.5 8 114IN G 1204.7 9 4.111 & 114IN L 1403.3 8 114IN L 1425.49 10 114IN G 255.73 9 0.8 3 114IN G 599.1 8 1.0 3 114IN G 728.4 8 5.712 114IN G 928.8 7 1.3 6 114IN G 1204.7 9 4.111 & 114IN G 1235.1 9 2.110 114IN L 1431.73 8 114IN G 232.8710 0.5 4 114IN G 399.4611 1.4 4 114IN G 596.2 5 1.1 3 114IN G 857.2 3 4.6 9 114IN L 1446.6 9 114IN L 1459.3 8 114IN L 1484.07 10 114IN G 314.20 9 4.212 114IN G 453.2 5 1.7 6 114IN G 648.9 5 3.410 114IN G 708.5 6 1.7 5 114IN G 760.2 7 1.9 7 114IN G 986.8 5 4.411 114IN G 1196.5 8 3.211 114IN L 1525.8 8 114IN L 1531.6 9 114IN L 1545.4 8 114IN L 1557.8 8 114IN L 1576.56 11 114IN G 151.11 7 0.6 3 114IN G 374.2 3 2.410 114IN G 544.2 5 2.6 7 114IN G 741.1 8 1.8 7 114IN G 1355.3 9 1.9 7 114IN L 1585.3 6 114IN G 749.4 6 1.5 5 114IN L 1597.6 8 114IN L 1605.5 8 114IN L 1615.9 5 114IN G 780.0 5 2.7 8 114IN L 1651.7 8 114IN L 1678.9 6 114IN G 843.2 6 5.422 114IN L 1695.6 8 114IN L 1710.6 9 114IN L 1729.6 8 114IN L 1741.0 8 114IN L 1794.9 8 114IN L 1827.7 8 114IN L 7274.01 23 114IN cL E$7274.4 12 from 1995Au04. 114IN2cL Observed deexcitation intensity is 2% of GS feeding. 114IN G 5446.012 0.51 7 114IN G 5478.713 0.6012 114IN G 5532.712 0.8110 114IN G 5544.014 0.20 7 114IN G 5563.016 0.16 6 114IN G 5578.112 0.7012 114IN G 5595.114 0.22 6 114IN G 5621.913 0.38 8 114IN G 5656.917 0.18 7 114IN G 5668.114 0.23 7 114IN G 5676.014 0.36 7 114IN G 5687.718 0.17 8 114IN G 5697.112 0.66 9 114IN G 5715.912 0.93 8 114IN G 5728.312 0.9810 114IN G 5742.025 0.14 9 114IN G 5747.814 0.6110 114IN G 5788.912 1.0415 114IN G 5797.317 0.22 9 114IN G 5814.312 1.7916 114IN G 5827.018 0.3612 114IN G 5848.316 0.3310 C 114IN G 5870.314 0.47 8 114IN G 5879.614 0.59 9 114IN G 5924.613 0.63 9 114IN G 5937.113 0.9610 114IN G 5954.622 0.4012 114IN G 5962.024 0.2010 114IN G 5968.224 0.2010 114IN G 6002.212 3.0 2 114IN G 6070.720 1.4 6 114IN G 6074.414 2.1 6 114IN G 6110.615 0.5515 114IN G 6117.914 0.7411 114IN G 6135.522 0.9020 114IN G 6161.921 0.2515 114IN G 6211.112 1.0712 114IN G 6227.916 0.8 6 A 114IN G 6236.813 0.8611 114IN G 6254.912 6.6 4 114INX G FL=1018.6 114IN G 6276.617 0.3410 114IN G 6306.617 0.30 9 114IN G 6437.812 2.7522 114IN G 6545.616 0.5013 C 114IN G 6577.312 2.2520 114IN G 6698.325 0.12 8 A 114IN G 6776.612 0.9613 114IN G 7052.113 0.4610 114IN G 7083.314 0.30 8