127SN 127IN B- DECAY (1.09 S) 2004GA24 11NDS 201108
127SN H TYP=FUL$AUT=A. HASHIZUME$CIT=NDS 112, 1647 (2011)$CUT=1-Oct-2009$
127SN c 2004Ga24: {+235}U(n,F) E=th, on-line mass separation; |g, |b,
127SN2c |g|g coin, |b|g coin
127SN c 1980De35: {+235}U(n,F) E=th, on-line mass separation; |g, |b, ce,
127SNxc |g|g coin, |b|g coin
127SN c 1986Go10: {+235}U(n,F) E=th, on-line mass separation; |g, |b, |g(t)
127SN c Others: 1975DeZU, 1978Al18, 1979DeZR
127SN c The decay scheme is that proposed by 2004Ga24. Because of the large
127SN2c difference between the |b-decay Q-value and the reported maximum
127SN3c level energy, evaluator considers that the decay scheme is not yet
127SN4c complete.
127SN cL E From a least-squares fit to E(|g's)
127SN cL J From adopted levels
127SN cL Configurations are from (2004Ga24)
127SN cB IB From intensity balance of |g transitions. Values are,
127SN2cB however, still tentative. It is because unobserved |g's from higher
127SN3cB levels.
127SN cB E From 1978Al18
127SN cG E From 2004Ga24
127SN cG E(U)$ |g assigned either to 1.09-s or 3.65-s {+127}In by (1980De35).
127SN2cG There is also possible contribution from 1.04-s {+127}In (evaluator).
127SN3cG However, these |g's were not reported by 2004Ga24
127SN cG RI From 2004Ga24. Relative to I|g(1597|g)=100
127SN cG CC$Theoretical conversion coefficients are calculated using BrIcc code
127SN2cG for the multipolarity indicated.
127SN cG M From |a(K)exp (1980De35) and from K/L(1980De35)
127SN cG M The multipolarities in brackets were assumed by evaluator
127SN2cG to obtain transition intensities, and not used for spin and parity
127SN3cG determination.
127IN P 0.0 (9/2+) 1.09 S 1 6510 30
127SN N 0.64 3 1.0 1.0
127SN cN NR$assumes no direct |b-feedings to the ground state and 5.07 level.
127SN2cN 2004Ga24 announce that |b-feeding to ground state is less than 5%.
127SN3cN Even allowing for 5% |b-feeds the value will not change significantly.
127SN4cN Other: the absolute branching of the 646.1|g is 9.3% {I7} or 6.2% {I6}
127SN5cN depending on the decay scheme used, after |b and |g measurements.
127SN6cN For the 1597.43|g, the absolute branching is 9.3 {I7} or 6.2 {I6},
127SN7cN depending on the decay scheme used 1993RuZW
127SN PN 3
127SN G 270.9 3 0.2 1 U
127SN G 523.3 3 0.1 1 U
127SN G 977 1 0.3 1 U
127SN G 980 1 0.2 1 U
127SN G 1436.6 3 0.6 1 U
127SN G 1771 1 0.2 1 U
127SN G 2511 1 1.0 1 U
127SN L 0.0 11/2- 2.10 H 4
127SN cL Configuration=(|n h{-11/2}){+-1}
127SN L 5.07 63/2+ 4.13 M 3 M
127SN cL Configuration=(|n d{-3/2}){+-1}
127SN L 257.76 8(1/2)+
127SN cL Configuration=(|n s{-1/2}){+-1}
127SN G 252.70 4 0.39 5 M1 0.0446 C
127SNS G KC=0.0387 6$LC=0.00482 7$MC=0.000944 14$NC+=0.000193 3
127SNS G NC=0.0001776 25$OC=1.549E-5 22
127SN cG M from 3.67-s decay
127SN L 646.31 4(9/2)-
127SN cL Configuration=({+128}Sn 2+)(|n h{-11/2}{+-1})
127SN B 1.9 12 6.4
127SNS B EAV=2598 15
127SN G 646.34 4 14.5 15M1,E2 C
127SN3 G EKC LT 0.004
127SNS G CC=0.0040 3$KC=0.0034 3$LC=0.000430 21$MC=8.4E-5 4$NC+=1.71E-5 10
127SNS G NC=1.58E-5 8$OC=1.34E-6 12
127SN L 809.94 6(5/2+)
127SN G 805.00 5 13.3 14 C
127SN L 953.95 9(1/2,3/2)
127SN cL Configuration=({+128}Sn 2+)(|n d{-3/2}{+-1}) or
127SN2cL ({+128}Sn 2+)(|n s{-1/2}{+-1})
127SN G 144.02 160.13 3 [M1] 0.203
127SNS G KC=0.175 3$LC=0.0222 4$MC=0.00435 7$NC+=0.000890 13
127SNS G NC=0.000819 12$OC=7.10E-5 11
127SN G 696.4 3 0.27 4 C
127SN G 948.90 171.00 10 C
127SN L 963.61 6(7/2-)
127SN cL Configuration=({+128}Sn 2+)(|n h{-11/2}{+-1})
127SN G 317.61 160.27 3 [M1] 0.0247 C
127SNS G KC=0.0214 3$LC=0.00265 4$MC=0.000518 8$NC+=0.0001060 15
127SNS G NC=9.75E-5 14$OC=8.52E-6 12
127SN G 963.61 127.8 8 C
127SN L 1053.62 6(7/2+)
127SN cL Configuration=({+128}Sn 2+)(|n d{-3/2}{+-1})
127SN B 4.7 8 5.8
127SNS B EAV=2405 15
127SN G 243.75 4 0.84 9 M1,E2 0.060 11 C
127SN3 G EKC=0.043 17
127SNS G KC=0.051 9$LC=0.0075 23$MC=0.0015 5$NC+=0.00029 9
127SNS G NC=0.00027 8$OC=2.0E-5 4
127SN G 1048.54 3 11.9 11 C
127SN L 1233.41 24(3/2+)
127SN cL Configuration=({+128}Sn 2+)(|n d{-3/2}{+-1}) or
127SN2cL ({+128}Sn 2+)(|n s{-1/2}{+-1})
127SN G 975.8 4 0.07 2
127SN G 1228.4 3 0.06 2
127SN L 1331.55 11(5/2+)
127SN cL Configuration=(|n d{-5/2}{+-1})
127SN B 0.34 8 6.9 ?
127SNS B EAV=2273 15
127SN G 1073.8 8 0.050 15
127SN G 1326.47 9 1.01 10
127SN L 1555.91 6(7/2-,9/2+)
127SN B 0.71 25 6.5
127SNS B EAV=2167 15
127SN G 502.6 5 0.18 2
127SN G 592.1 4 0.25 4
127SN G 746.07 8 1.20 12 C
127SN G 909.67 8 0.72 7 C
127SN G 1555.70 102.37 24 C
127SN L 1602.65 6(7/2+)
127SN cL Configuration=(|n g{-7/2}{+-1})
127SN B 77 4 4.4
127SNS B EAV=2145 15
127SN cB E$E|b=4890 {I70} from weighted av of E|b=4860 {I80} and 4990 {I160}
127SNxcB (1978Al18)
127SN G 549.14 120.50 5 C
127SN G 639.07 4 6.0 6 C
127SN G 792.76 5 3.7 4 C
127SN G 956.32 9 10.1 10 C
127SN G 1597.43 6 100 C
127SN G 1602.6 5 0.5 2
127SN L 1618.41 16(7/2,9/2+)
127SN B 0.27 7 5.9
127SN G 565.3 100.10 3
127SN G 808.8 4 0.60 7
127SN G 972.5 6 0.047 13
127SN G 1618.7 3 0.28 2
127SN L 1702.59 7(7/2+)
127SN B 1.88 16 6.0
127SNS B EAV=2097 15
127SN G 649.1 5 0.32 5
127SN G 748.9 3 0.23 3
127SN G 892.65 4 1.91 19 C
127SN G 1697.3 2 0.60 6
127SN L 1909.54 7(7/2+)
127SN B 3.52 24 5.6
127SNS B EAV=1999 15
127SN G 353.63 9 1.02 10[M1] 0.0188 C
127SNS G KC=0.01628 23$LC=0.00201 3$MC=0.000392 6$NC+=8.04E-5 12
127SNS G NC=7.39E-5 11$OC=6.47E-6 9
127SN G 577.9 5 0.36 4
127SN G 855.94 4 1.94 20 C
127SN G 945.9 2 0.66 8 C
127SN G 1099.6 2 0.97 10 C
127SN G 1262.8 5 0.07 2
127SN G 1904.1 2 0.46 4
127SN L 2024.21 8(7/2+)
127SN B 3.7 3 5.6
127SNS B EAV=1945 15
127SN G 321.7 4 0.102 11[M1] 0.0239
127SNS G KC=0.0207 3$LC=0.00256 4$MC=0.000501 8$NC+=0.0001026 15
127SNS G NC=9.43E-5 14$OC=8.24E-6 12
127SN G 421.56 8 0.155 18[M1] 0.01207 C
127SNS G KC=0.01048 15$LC=0.001284 18$MC=0.000251 4$NC+=5.14E-5 8
127SNS G NC=4.73E-5 7$OC=4.14E-6 6
127SN G 468.3 2 2.34 24[M1] C
127SNS G CC=0.00930 13$KC=0.00808 12$LC=0.000987 14$MC=0.000193 3$NC+=3.95E-5 6
127SNS G NC=3.63E-5 6$OC=3.19E-6 5
127SN G 970.5 2 0.47 5 C
127SN G 1070.54 100.89 13 C
127SN G 1214.04 9 1.84 18 C
127SN L 2042.52 11(7/2+)
127SN B 1.03 8 6.1
127SNS B EAV=1936 15
127SN G 424.4 2 0.60 6 [M1] 0.01187
127SNS G KC=0.01031 15$LC=0.001262 18$MC=0.000247 4$NC+=5.06E-5 8
127SNS G NC=4.65E-5 7$OC=4.08E-6 6
127SN G 487.2 3 0.23 3 [M1]
127SNS G CC=0.00844 12$KC=0.00734 11$LC=0.000895 13$MC=0.0001749 25$NC+=3.58E-5
127SNS G NC=3.29E-5 5$OC=2.89E-6 4
127SN G 809.7 6 0.13 4
127SN G 989.4 2 0.38 4
127SN G 1088.34 9 0.26 5
127SN L 2442.69 10(7/2,9/2)
127SN B 1.17 11 5.9
127SNS B EAV=1747 15
127SN G 740.0 8 0.011 7
127SN G 840.4 8 0.123 17
127SN G 1111.0 6 0.09 3
127SN G 1389.07 8 1.19 12 C
127SN G 1632.7 3 0.36 5
127SN G 1796.2 6 0.05 2
127SN L 2464.79 10(7/2,9/2)
127SN B 0.78 8 6.0
127SNS B EAV=1737 15
127SN G 1133.2 7 0.045 15
127SN G 1411.3 2 0.14 4
127SN G 1818.6 4 0.10 3
127SN G 2464.70 120.93 10
127SN L 2515.25 15(7/2,9/2)
127SN B 0.35 4 6.4
127SNS B EAV=1713 15
127SN G 1184.0 9 0.027 12
127SN G 1705.3 2 0.07 3
127SN G 2515.2 2 0.45 4
127SN L 2791.38 15(7/2,9/2)
127SN B 0.51 6 6.1
127SNS B EAV=1583 15
127SN G 1737.8 3 0.14 4
127SN G 1827.5 6 0.027 13
127SN G 1981.40 170.57 6
127SN G 2145.2 4 0.056 10
127SN L 2822.3 3(7/2,9/2)
127SN B 0.101 17 6.8
127SNS B EAV=1568 15
127SN G 1768.8 3 0.05 2
127SN G 1858.4 6 0.030 9
127SN G 2175.7 7 0.078 12