114SB 114TE EC DECAY 1996ZI01,1992ZIZW,1976WI1112NDS 201203
114SB H TYP=FUL$AUT=Jean Blachot$CIT=NDS 113, 515 (2012)$CUT=1-Jan-2012$
114SB c 1996Zi01,1992ZiZW,1995ZiZZ: activity: {+92}Mo({+32}S,xpxn). Isotope
114SB2c separation, UNISOR, febiad source.
114SB c Only the decay scheme (drawing) and comments are given in the
114SB2c 1996Zi01. The data are in 1995ZiZZ
114SB c Measured: |g, |g|g, |g|g(t), ce, nuclear orientation
114SB c Previous measurements: {+114}Sb(p,n) E=20 MeV (1976Wi10),
114SB2c {+114}Sn({+3}He,3n) E=40 MeV (1975WiZX,1976Wi11). Others: 1960Ma20,
114SBxc 1972Mi27, 1972Si28
114SB c The decay scheme is as given by 1996Zi01.
114SB c The branching and the normalization derived by the evaluator
114SB2c are estimated from known J|p, but they have to be considered as
114SB3c preliminary.
114SB cG E,RI$From 1995ZiZZ
114SB cG M,MR$From ce data of 1995ZiZZ
114SB cG E(A)$Transition not seen, but required by |g|g. E|g is rounded-off
114SB2cG value from adopted E(level) data
114SB cL J$From adopted levels
114TE P 0.0 0+ 15.2 M 7 2.61E+3 4
114SB N 0.08 AP 1.0
114SB cN NR$I|g normalization is tentative and is based upon estimated feeding
114SB2cN to the 27-keV level
114SB PN 6
114SB G 103.1 3 0.9 3
114SB G 106.1 6 0.4 2
114SB G 109.8 4 0.8 2
114SB G 116.5 2 1.9 2
114SB G 202.1 111.1 2
114SB G 291.7 5 1.5 3
114SB G 309.2 5 2.1 2
114SB G 317.4 5 1.3 2
114SB G 352.1 141.0 2
114SB G 392.7 3 4.6 3
114SB G 401.6 8 1.1 2
114SB G 424.6 5 1.1 3
114SB G 433.5 6 1.4 5
114SB G 445.2 2 4.6 2
114SB G 521.9 6 2.4 2
114SB G 560.9 7 1.5 3
114SB G 578.2 9 1.2 2
114SB G 619.6 5 1.6 3
114SB G 638.7 3 2.4 2
114SB G 672.3 2 5.6 3
114SB G 685.4 5 2.0 2
114SB G 758.2 6 1.5 3
114SB G 770.5 8 1.3 2
114SB G 798.4 2 4.8 2
114SB G 800.5 9 1.0 2
114SB G 804.9 3 5.0 2
114SB G 806.8 9 1.0 3
114SB G 811.2 8 1.2 2
114SB G 821.8 7 1.5 3
114SB G 837.8 4 5.4 2
114SB G 841.9 5 4.7 2
114SB G 842.2 9 4.6 7
114SB G 856.3 5 1.9 4
114SB G 875.0 2 2.4 4
114SB G 912.5 6 2.0 2
114SB G 952.3 2 7.0 3
114SB G 986.2 3 5.8 3
114SB G 1009.9 6 2.4 2
114SB G 1035.4 111.4 3
114SB G 1099.8 2 6.1 2
114SB G 1101.4 8 1.8 2
114SB G 1138.4 2 11.7 4
114SB G 1169.4 3 4.9 2
114SB G 1177.0 4 4.3 2
114SB G 1214.3 2 4.9 2
114SB G 1216.4 6 2.2 2
114SB G 1226.4 2 5.1 2
114SB G 1249.6 2 6.5 3
114SB G 1251.9 5 1.8 2
114SB G 1256.6 5 1.9 2
114SB G 1269.4 2 4.6 2
114SB G 1324.9 3 8.0 3
114SB G 1357.0 2 4.4 2
114SB G 1360.7 3 9.2 3
114SB G 1373.9 4 2.9 2
114SB G 1435.6 4 2.4 5
114SB G 1441.2 8 1.3 2
114SB G 1622.7 11 1.0 2
114SB G 1708.7 2 4.8 2
114SB G 1725.1 2 6.7 3
114SB G 1742.2 3 3.3 2
114SB G 1745.4 5 2.2 2
114SB G 1782.4 3 2.9 2
114SB G 1818.8 8 1.6 2
114SB G 1829.3 7 1.8 2
114SB G 1843.4 2 6.8 3
114SB G 1885.4 6 1.7 2
114SB G 1968.8 8 1.0 2
114SB G 2017.0 3 2.1 3
114SB G 2085.8 4 1.4 3
114SB G 2093.4 8 0.8 2
114SB G 2136.0 5 1.2 2
114SB G 2153.3 120.6 2
114SB G 2167.4 19 0.4 2
114SB G 2183.6 16 0.4 2
114SB G 2187.0 2 5.3 3
114SB G 2193.8 5 1.4 2
114SB G 2224.2 2 4.5 3
114SB G 2294.6 2 2.6 2
114SB G 2404.2 7 0.8 2
114SB L 0.0 3+ 3.49 M 3
114SB L 27.4116 1+
114SB E 16 9 24 12 4.94 22 40 20
114SBS E EAV=756.484 23 $CK=0.5066 $CL=0.06612 $CM+=0.01720
114SB G 27.4 A
114SB L 45.9 4 (2+),4+ 26 NS 3
114SB cL T$from 1996Zi01
114SB G 46.0 5 26.8 6 M1 5.91
114SBS G KC=8 3$LC=7 7$MC=1.5 14
114SBX G ELC=0.55 8
114SB L 54.5816 3+ 20.4 NS 9
114SB cL T$from 1996Zi01, Other: 24 ns {I5} (1975WiZX)
114SB G 8.7 A
114SB G 27.2 A
114SB G 54.6 4 41.6 8 M1(+E2) 0.15 LT 3.69 12
114SBS G KC=5.1 21$LC=3 3$MC=0.7 6$NC+=0.14 13
114SBX G ELC=0.45 7
114SBB G BM1W>0.00092$BE2W<8.5
114SB L 83.7916 2+
114SB cL J$J|p=(1+) in 1996Zi01
114SB G 56.4 3 5.5 2
114SB G 83.8 5 67.4 11 M1+E2 0.44 2 1.38 2
114SBS G KC=1.5 6$LC=0.5 4$MC=0.10 8$NC+=0.021 16
114SBX G EKC=1.27 20$ELC=0.22 3
114SB L 144.9616 2+
114SB G 90.2 2 100.0 15 M1+E2 0.63 2 1.28 2
114SBS G KC=1.2 5$LC=0.3 3$MC=0.07 6$NC+=0.015 12
114SBX G EKC=0.87 12$ELC=0.25 4
114SB G 144.8 3 4.0 2
114SB L 264.2815 4+
114SB G 209.8 3 4.0 2
114SB G 264.3 2 4.9 2
114SB L 271.9415 1+
114SB E 1.1 7 2.7 16 5.8 3 3.8 22
114SBS E EAV=646.504 24 $CK=0.6041 $CL=0.07901 $CM+=0.02056
114SB G 188.1 3 49.9 9 M1,E2 0.14 4
114SBS G KC=0.12 3$LC=0.020 9$MC=0.0040 17$NC+=0.0009 4
114SB3 G EKC=0.092 17$ ELC=0.023 4
114SB cG M$|a(K)exp gives |d<0.7; however, K/L requires pure E2
114SB G 244.4 4 85.0 13 E2 0.0732
114SBS G KC=0.053 7$LC=0.0081 23$MC=0.0016 5$NC+=0.00036 10
114SBX G EKC=0.050 8$ ELC=0.0115 22
114SB L 344.2618 3+
114SB G 80.1 7 2.5 4
114SB G 298.5 5 15.8 4 M1,E2 0.035 3
114SBS G KC=0.0295 20$LC=0.0042 8$MC=0.00084 16$NC+=0.00019 4
114SBX G EKC=0.041 7
114SB G 344.2 3 6.1 4
114SB L 491.8818 2+
114SB G 147.4 5 15.5 4 M1(+E2) 0.50 LT 0.232 21
114SB2 G EKC=0.18 3$ ELC=0.029 6
114SB G 346.9 6 47.1 9 M1,E2 0.0225 9
114SBS G KC=0.0192 5$LC=0.0026 4$MC=0.00052 7$NC+=0.00012 1
114SBX G EKC=0.018 4
114SB G 408.1 8 11.2 4
114SB G 437.2 4 21.1 5
114SB L 506.7217 (0+)
114SB cL J$J|p=(3+) in 1996Zi01
114SB E 0.04 4 0.15 14 7.0 4 0.19 17
114SBS E EAV=541.827 23 $CK=0.6947 $CL=0.09106 $CM+=0.02370
114SB G 234.7 2 11.6 4 M1 0.076 8
114SBS G KC=0.060 9$LC=0.009 3$MC=0.0018 6$NC+=0.00042 12
114SBX G EKC=0.066 9
114SB G 423.1 7 0.8 2
114SB G 479.3 3 68.4 11 M1,E2
114SBS G CC=0.0092 5$KC=0.0079 5$LC=0.00103$MC=0.00020
114SBX G EKC=0.0090 22
114SB L 572.6317 (2,3)
114SB G 545.1 4 29.3 6
114SB G 572.9 3 3.4 2
114SB L 691.0817 2+
114SB G 419.0 2 3.2 2
114SB G 426.9 6 0.9 3
114SB G 636.4 6 15.5 4
114SB G 663.8 2 6.0 3
114SB G 691.0 7 1.7 2
114SB L 763.3518 1+,2+
114SB E 0.11 6 1.1 6 6.00 22 1.2 6
114SBS E EAV=428.47 4 $CK=0.7763 $CL=0.1021 $CM+=0.02658
114SB G 256.4 3 1.1 2
114SB G 271.5 4 4.3 2
114SB G 491.4 7 1.6 2
114SB G 679.6 3 9.2 3
114SB G 736.1 3 16.9 5
114SB L 805.7517 2+
114SB G 461.4 2 6.1 3
114SB G 534.0 5 2.7 2
114SB G 722.0 4 9.4 3
114SB G 751.3 4 2.3 2
114SB G 778.5 4 10.2 4
114SB L 871.6621 1+
114SB E 0.6 4 8 5 5.06 25 9 5
114SBS E EAV=381.046 22 $CK=0.8022 $CL=0.1056 $CM+=0.02751
114SB G 379.7 6 29.1 6 (M1,E2) 0.0174 2
114SBS G KC=0.0149$LC=0.00201 17$MC=0.00040 4
114SBX G EKC=0.027 4
114SB cG M$|a(K)exp is larger than |a(K)(M1,E2)=0.0149
114SB G 726.8 4 91.9 14
114SB G 787.7 3 3.3 2
114SB G 817.1 1 3.2 2
114SB G 871.9 12 5.4 2
114SB L 990.2 3 1,2
114SB E 0.16 8 3.8 20 5.34 22 4 2
114SBS E EAV=329.69 18 $CK=0.8240 $CL=0.1087 $CM+=0.02832
114SB G 483.8 3 4.1 2
114SB G 844.9 3 51.6 2
114SB L 1017.4514 1,2
114SB E 0.024 14 0.7 4 6.08 25 0.7 4
114SBS E EAV=317.50 3 $CK=0.8282 $CL=0.1093 $CM+=0.02848
114SB G 745.5 2 7.7 3
114SB G 753.2 2 4.6 2
114SB G 933.7 2 9.7 3
114SB G 963.0 4 4.2 2
114SB G 990.0 3 4.9 4
114SB G 1017.3 3 5.6 2
114SB L 1109.1122
114SB E 0.021 11 1.0 5 5.87 22 1.0 5
114SBS E EAV=277.58 8 $CK=0.8395 $CL=0.1110 $CM+=0.02893
114SB G 602.2 4 2.4 2
114SB G 1024.7 7 2.3 2
114SB G 1054.6 2 8.3 3
114SB L 1184.4 5
114SB E 0.0020 12 0.16 9 6.62 25 0.16 9
114SBS E EAV=244.84 22 $CK=0.8461 $CL=0.1120 $CM+=0.02921
114SB L 1471.9317 (1+)
114SB E 4.8 24 4.96 22
114SBS E CK=0.8555 $CL=0.1142 $CM+=0.02979
114SB G 600.1 4 22.8 6
114SB G 666.1 4 10.3 4
114SB G 899.4 3 3.8 2
114SB G 980.0 2 9.7 3
114SB G 1199.9 3 13.3 4
114SB G 1444.5 4 2.7 2
114SB L 1670.5420 (1+)
114SB E 1.8 9 5.23 22
114SBS E CK=0.8550 $CL=0.1150 $CM+=0.03004
114SB G 653.1 3 5.8 3
114SB G 864.5 130.7 2
114SB G 1097.9 4 4.2 2
114SB G 1398.6 2 11.5 4
114SB L 1757.4617 (1+)
114SB E 2.8 14 4.97 22
114SBS E CK=0.8544 $CL=0.1154 6 $CM+=0.03017 19
114SB G 994.2 4 3.7 2
114SB G 1184.8 3 10.0 4
114SB G 1485.4 2 4.9 2
114SB G 1612.6 2 6.1 3
114SB G 1673.6 3 9.7 3
114SB L 1924.2015 (1+)
114SB E 25 13 3.85 23
114SBS E CK=0.8530 $CL=0.1165 $CM+=0.03051
114SB G 452.3 3 2.8 2
114SB G 906.9 3 19.9 5
114SB G 1118.5 2 5.7 3
114SB G 1160.8 2 14.1 4
114SB G 1233.1 2 3.8 2
114SB G 1351.7 3 9.2 3
114SB G 1417.4 2 75.7 12
114SB G 1432.3 3 10.3 4
114SB G 1652.2 2 31.4 7
114SB G 1779.0 2 4.3 2
114SB G 1840.8 3 32.2 7
114SB G 1896.8 3 98.5 15
114SB L 1970.6 3 (1+)
114SB E 0.26 14 5.78 24 0.26 14
114SBS E CK=0.8524 $CL=0.1169 $CM+=0.03063
114SB G 498.4 3 5.5 3
114SB G 1626.8 4 3.3 2
114SB L 1986.0118 (1+)
114SB E 3.6 19 4.62 23 3.6 19
114SBS E CK=0.8523 $CL=0.1171 $CM+=0.03067
114SB G 876.8 5 2.1 2
114SB G 968.4 4 3.6 2
114SB G 995.6 101.5 3
114SB G 1494.1 4 10.4 4
114SB G 1714.4 2 5.7 3
114SB G 1902.0 3 17.6 5
114SB G 1958.4 2 4.7 3
114SB L 2139.6 3 (1+)
114SB E 0.6 3 5.19 22 0.6 3
114SBS E CK=0.8499 $CL=0.1189 $CM+=0.03124
114SB G 1376.2 3 3.8 2
114SB G 1867.6 3 3.8 2