127SN    127IN B- DECAY (3.67 S)       2004Ga24,1980DE35         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
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           Configuration from 2004Ga24
127SN cB IB        From intensity balance of transitions. Values are, however,
127SN2cB    still tentative. It is because unobserved |g's from higher levels.
127SN cB E         From 1978Al18
127SN cB IB        Absolute intensity per 100 decays
127SN cG CC$Theoretical conversion coefficients are calculated using BrIcc code
127SN2cG for the multipolarity indicated.
127SN cG E,RI      For unplaced transitions that could belong to 3.67-s,
127SN2cG 1.09-s, and/or 1.04-s, |b{+-} decay, see 1.09-s |b{+-} decay
127SN cG M         The multipolarities in brackets were assumed by evaluator
127SN2cG to obtain transition intensities, and are not used for spin and
127SN3cG parity determination. For the estimation of J|p, see adopted files.
127SN cG E(A),RI(A)$From the drawing of decay scheme (1980De35); weak, no
127SN2cG intensity is given. Not reported by 2004Ga24.
127IN  P 420       65(1/2-)            3.67 S    4              6510      30
127SN  N 0.40       4          1.0
127SN cN NR$From |S(I|g to g.s.)+ |S(I|g to 4.9 level)=100, assuming I{-|b}
127SN2cN to 4.9 level is 52 {I4} per 100 decays and no |b feeding to g.s.
127SN3cN Others: 0.38 {I5} from absolute measurement of 252.70|g (1986Go10)
127SN PN                                                                     3
127SN  L 0.0         11/2-             2.10 H    4
127SN cL           Configuration=(|n h{-11/2})
127SN  L 4.9        43/2+              4.13 M    3                           M
127SN cL           Configuration=(|n d{-3/2})
127SN cL E         from {+127}In |b{+-} decay (1.09 s)
127SN  B             52       4          5.8
127SNS B EAV=3102 34
127SN  L 257.6      4(1/2)+
127SN cL           Configuration=(|n s{-1/2})
127SN  B             36       3          5.9
127SNS B EAV=2982 34
127SN  G 252.70    4 100       M1                      0.0446                C
127SN3 G EKC=0.039 2 (1980DE35)$ K/L=7.3 4 (1980DE35)
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 RI         43 {I3} per 100 decays; weighted average of 43.5 {I23}
127SN2cG (1993RuZW) and 38 {I5} (1986Go10)
127SN cG M         from |a(K)exp and K/L
127SN  L 646.33     4(9/2)-
127SN cL           Configuration=({+128}Sn 2+)(|n (h{-11/2}){+-1})
127SN  G 646.34    4 0.032   6 M1                                            C
127SN3 G EKC LT 0.004
127SNS G CC=0.00427 6$KC=0.00372 6$LC=0.000449 7$MC=8.78E-5 13$NC+=1.80E-5 3
127SNS G NC=1.654E-5 24$OC=1.456E-6 21
127SN  L 809.9      4(5/2+)
127SN  G 805.00    5 0.27    4                                               C
127SN  L 953.9      4(1/2,3/2)
127SN cL           Configuration=({+128}Sn 2+)(|n (d{-3/2}){+-1}) and/or
127SN2cL ({+128}Sn 2+)(|n (s{-1/2}){+-1})
127SN  B             1.60    18          7.0
127SNS B EAV=2652 34
127SN  G 144.02    160.27    4 [M1]                    0.203
127SNS G KC=0.175 3$LC=0.0222 4$MC=0.00435 7$NC+=0.000890 13
127SNS G NC=0.000819 12$OC=7.10E-5 11
127SN  G 696.4     3 0.69    7                                               C
127SN  G 948.90    172.7     3                                               C
127SN  L 963.73    10(7/2-)
127SN cL           Configuration=({+128}Sn 2+)(|n (h{-11/2}){+-1})
127SN  G 317.61    160.032   6 [M1]                    0.0247                C
127SNS G KC=0.0214 3$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    120.9     2                                               C
127SN  L 1090.5     4(1/2,3/2)
127SN cL           Configuration=({+128}Sn 2+)(|n (d{-3/2}){+-1}) and/or
127SN2cL ({+128}Sn 2+)(|n (s{-1/2}){+-1})
127SN  B             4.2      5          6.5
127SNS B EAV=2587 34
127SN  G 137        1                                                       A  ?
127SN  G 832.83    155.3     5                                               C
127SN  G 1085.62   186.6     6
127SN  L 1233.4     4(3/2+)
127SN cL           Configuration=({+128}Sn 2+)(|n (d{-3/2}){+-1}) and/or
127SN2cL ({+128}Sn 2+)(|n (s{-1/2}){+-1})
127SN  B             1.03    15          7.1
127SNS B EAV=2519 34
127SN  G 975.8     4 1.3     2
127SN  G 1228.4    3 1.1     2
127SN  L 1331.4     4(5/2+)
127SN cL            Configuration=(|n d{-5/2})
127SN  G 1073.8    8 0.027   7
127SN  G 1326.47   9 0.54    6
127SN  L 1819.8     5(1/2,3/2)
127SN  B             0.08     6          8.0
127SNS B EAV=2241 34
127SN  G 1814.8    3 0.61    10
127SN  L 2260.2    10(1/2,3/2)
127SN  B             0.52    10          7.0
127SNS B EAV=2032 34
127SN  G 1169.7    9 1.2     2
127SN  L 2886.1     7(1/2,3/2)
127SN  B             0.31     5          7.0
127SNS B EAV=1736 34
127SN  G 2628.5    6 0.71    9
127SN  L 3333.3     4(3/2)
127SN  B             6.9      7          5.4
127SNS B EAV=1525 34
127SN  G 1513.0    9 0.43    9
127SN  G 2001.9    7 0.57    6
127SN  G 2242.8    2 0.96    11
127SN  G 2369.5    3 0.95    11
127SN  G 3075.62   109.6     10
127SN  G 3328.20   193.6     4
127SN  L 3397.5     4(1/2,3/2)
127SN  B             1.46    20          6.0
127SNS B EAV=1495 34
127SN  G 3139.8    2 3.4     4
127SN  L 3564.4     6(3/2)
127SN  B             0.27     4          6.7
127SNS B EAV=1416 34
127SN  G 3306.7    4 0.62    7