ENSDF decay dataset

127SN    127IN B- DECAY (1.04 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 T         |g(t) from {+127}Sn produced by {+9}Be({+238}U,F) and
127SN2cL {+9}Be({+136}Xe,X) (2008Lo07); |g(t) from {+127}Sn produced by
127SN3cL by {+233}U(n,F) and {+239}Pu(n,F) (2000Pi03)); from |b|g(t) delayed
127SN4cL coincidence (2004Ga24): for all excited states
127SN cL J         From adopted levels
127SN cL           Configurations from 2004Ga24, based on the shell model
127SN2cL calculations
127SN cB E         From 1978Al18
127SN cB IB        From the large difference between Q{-|b} and the maximum
127SN2cB level energy proposed, I{-|b}'s are still tentative (evaluator).
127SN cG E         From 2004Ga24
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 RI        From 2004Ga24. Relative to I|g(1094.7|g)=100
127SN cG CC$Theoretical conversion coefficients are calculated using BrIcc code
127SN2cG for the multipolarity indicated.
127SN cG M         From |a(K)exp (1980De35)
127SN cG M         To obtain I{-|g} normalization, the multipolarities in
127SN2cG brackets were assumed to calculate conversion coefficients.
127SN3cG The assumed multipolarities are not used for spin and parity
127SN4cG determinations (evaluator).
127IN  P 1863      58(21/2-)            1.04 S    10             6510     30
127SN  N 0.85      5           1.0       1.0
127SN cN NR$From the assumption of no direct |b-feedings to the ground state.
127SN2cN from the large difference between
127SN4cN Q{-|b} and the maximum level energy proposed, is
127SN5cN tentative (evaluator).
127SN PN                                                                     3
127SN  L 0.0         11/2-             2.10 H    4
127SN  L 646.34     4(9/2)-
127SN cL           Configuration=(({+128}Sn 2+)(|n h{-11/2}){+-1})
127SN  G 646.34    4 3.0     5 M1,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$OC=1.34E-6 12
127SN  L 1094.60   15(15/2-)
127SN cL           Configuration=(({+128}Sn 2+)(|n h{-11/2}){+-1})
127SN  G 1094.7    2 100                                                     C
127SN  L 1242.79   13(13/2-)
127SN cL           Configuration=(({+128}Sn 2+)(|n h{-11/2}){+-1})
127SN  B             3.7     15          6.4
127SNS B EAV=3199 31
127SN  G 1242.71   1514.8    14
127SN  L 1501.5     4                                                          ?
127SN cL           The order of feeding 2103.8|g and 406.9|g is not known.
127SN  G 406.9     7 1.7     3 [M1]                    0.01318
127SNS G KC=0.01145 17$LC=0.001404 21$MC=0.000274 4$NC+=5.62E-5 9
127SNS G NC=5.17E-5 8$OC=4.53E-6 7
127SN  L 1625.32   19
127SN  B             1.0      4          6.9
127SNS B EAV=3018 31
127SN  G 979.1     5 3.0     4
127SN  L 1810.12   15(15/2+)
127SN  G 184.81    131.65    20[M1]                    0.1027
127SNS G KC=0.0889 13$LC=0.01118 16$MC=0.00219 3$NC+=0.000448 7
127SNS G NC=0.000412 6$OC=3.58E-5 5
127SN  G 567.26    1510.4    10
127SN  G 715.52    4 46      4                                               C
127SN  L 1826.67   16(19/2+)           4.52 US   15
127SN CL           Configuration=(({+128}Sn 5-)(|n h{-11/2}{+-1}))
127SN cL T$weighted average of 4.4 |ms {I2} (2008Lo07), 4.8 |ms {I3} (2004Ga24)
127SN2cL and 4.5 |ms {I3} (2000Pi03); other: 3.1 |ms {I9} (1980De35)
127SN  B             16       6          5.6
127SNS B EAV=2922 31
127SN  G 16.52     110.026   2 E2                      2.32E3 9
127SNS G LC=1.87E3 7$MC=384 15$NC+=67.3 25
127SNS G NC=65.9 25$OC=1.36 5
127SN CG RI$ Evaluator assumed relative intensity uncertainty is about 20%.
127SN2cG The intensities are estimated from transition intensity balance of
127SN3cG 4.52 |ms isomer by evaluator.
127SN  G 732.04    119.4     10
127SN  L 1916.45   18(19/2-)
127SN  B             1.6      6          6.6
127SNS B EAV=2880 31
127SN  G 821.89    114.8     5
127SN  L 1930.96   17(23/2+)           1.19 US   13
127SN cL T         weighted average of 0.9 |ms {I3} (2008Lo07) and
127SN2cL 1.26 |ms {I15} (2004Ga24)
127SN cL           Configuration=(({+128}Sn 7-)(|n h{-11/2}){+-1})
127SN  G 104.30    6 4.1     4 [E2]                    1.374
127SNS G KC=1.008 15$LC=0.294 5$MC=0.0600 9$NC+=0.01110 16
127SNS G NC=0.01063 16$OC=0.000474 7
127SN  L 2045.96   20(19/2)
127SN  B             1.6      6          6.6
127SNS B EAV=2818 31
127SN  G 219.2     2 2.3     3 [M1]                    0.0650
127SNS G KC=0.0563 8$LC=0.00704 10$MC=0.001380 20$NC+=0.000282 4
127SNS G NC=0.000260 4$OC=2.26E-5 4
127SN  G 236.0     2 1.1     2 [E2]                    0.0789
127SNS G KC=0.0653 10$LC=0.01097 16$MC=0.00218 4$NC+=0.000424 6
127SNS G NC=0.000398 6$OC=2.61E-5 4
127SN  L 2047.3     3(19/2-)
127SN  B             4.0     10          6.2
127SNS B EAV=2818 31
127SN  G 952.8     3 10.4    10
127SN  L 2083.5     4
127SN  G 257.3     7 3.1     4 [M1]                    0.0426 7
127SNS G KC=0.0369 6$LC=0.00459 8$MC=0.000900 15$NC+=0.000184 3
127SNS G NC=0.000169 3$OC=1.477E-5 24
127SN  L 2165.8     3(19/2)
127SN  B             1.0      8          6.7
127SNS B EAV=2761 31
127SN  G 1071.3    5 5.7     7
127SN  L 2232.09   20(21/2+)
127SN  B             3.3      6          6.2
127SNS B EAV=2730 31
127SN  G 301.14    132.3     3 [M1]                    0.0283
127SNS G KC=0.0245 4$LC=0.00304 5$MC=0.000595 9$NC+=0.0001218 18
127SNS G NC=0.0001120 16$OC=9.78E-6 14
127SN  G 405.4     3 3.0     4 [M1]                    0.01330
127SNS G KC=0.01155 17$LC=0.001417 20$MC=0.000277 4$NC+=5.68E-5 8
127SNS G NC=5.22E-5 8$OC=4.57E-6 7
127SN  L 2311.8     3(19/2,17/2)
127SN  G 395.6     7 1.3     4 [M1]                    0.01414
127SNS G KC=0.01228 18$LC=0.001507 23$MC=0.000295 5$NC+=6.04E-5 9
127SNS G NC=5.55E-5 9$OC=4.86E-6 8
127SN  G 1217.4    101.1     4
127SN  L 2630.4     4(19/2,21/2)
127SN  B             0.9      4          6.6
127SNS B EAV=2541 31
127SN  G 464.6     4 1.11    21
127SN  G 583.2     5 1.70    20
127SN  L 2733.82   24
127SN  G 501.9     100.5     2
127SN  G 650.5     9 0.9     3
127SN  G 688.0     3 1.7     2
127SN  G 803.2     9 3.2     5
127SN  L 3287.67   21
127SN  B             0.9      6          6.4
127SNS B EAV=2229 31
127SN  G 1461.02   134.6     5
127SN  L 3605.13   19(19/2-)
127SN cL           Configuration=(({+128}Sn 7-)(|n g{-7/2}){+-1})
127SN  B             53       4          4.5
127SNS B EAV=2079 31
127SN  G 871.4     2 6.2     6
127SN  G 974.7     8 1.7     3
127SN  G 1293.3    2 2.4     3
127SN  G 1373.1    7 1.0     3
127SN  G 1439.4    3 3.4     4
127SN  G 1521.8    5 2.3     2
127SN  G 1558.5    9 4.0     6
127SN2 G FL=2047.3
127SN  G 1689.0    3 1.6     2
127SN  G 1778.3    2 26.8    27
127SN  G 2103.6    4 1.7     2
127SN  G 2510.3    2 10.8    11
127SN  L 3647.22   24(19/2,21/2)
127SN  B             6.0      8          5.4
127SNS B EAV=2059 31
127SN  G 359.58    133.5     4 [M1]                    0.0180
127SNS G KC=0.01561 22$LC=0.00192 3$MC=0.000376 6$NC+=7.70E-5 11
127SNS G NC=7.08E-5 10$OC=6.20E-6 9
127SN  G 1819.7    7 3.5     6
127SN  L 3860.9     9
127SN  B             0.43    18          6.5
127SNS B EAV=1958 31
127SN  G 2766.3    8 0.5     2
127SN  L 3899.5    11
127SN  B             0.68    18          6.3
127SNS B EAV=1939 31
127SN  G 2804.9    110.8     2