127I     127TE B- DECAY (9.35 H)       1970AP02                  11NDS    201108
127I   H TYP=FUL$AUT=A. HASHIZUME$CIT=NDS 112, 1647 (2011)$CUT=1-Oct-2009$
127I  c  1970Ap02: source {+126}Te(n,|g), semi |g, proportional counter |b
127I  c  Others: 1956Kn20, 1965Au01, 1966Ne02, 1971Bu27
127I  cL E         From a least-squares fit to E(|g's)
127I  cL J,T       From adopted levels
127I  cG E,RI      From 1970Ap02
127I  cG CC$Theoretical conversion coefficients are calculated using BrIcc code
127I 2cG for the multipolarity and mixing ratio indicated.
127I  cG M,MR      From adopted levels, gammas
127TE  P 0.0          3/2+             9.35 H    7              702        3
127I   N 0.0099    10          1.0       1.0
127I  cN NR        Based on I(418|g)/I(total |b)=0.0097 {I1} and I(58|g from
127I 2cN {+127}Te(106.1 d+9.35 h))/(I(58|g from {+127}Te(9.35 h))=18.8
127I 3cN  in the {+127}Te(106.1 d+9.35 h)) equilibrium source.
127I 4cN {+127}Te(106.1 d) IT intensity is 97.6% {I2}. (1970Ap02)
127I  PN                                                                     3
127I   L 0.0          5/2+             STABLE
127I   B             98.79   16            5.490  8
127I S B EAV=227.8 12
127I   L      57.64 7 7/2+             1.95 NS   1
127I   G 57.63     8 3.0      3M1+E2     -0.083  5     3.72                  C
127I S G KC=3.16 5$LC=0.449 8$MC=0.0909 17$NC+=0.0204 4
127I S G NC=0.0183 4$OC=0.00209 4
127I   L     202.86 7 3/2+
127I   B             0.027    4            8.54   7
127I S B EAV=153.0 11
127I   G 145.2     1 0.33     3E2                      0.471                 C
127I S G KC=0.357 5$LC=0.0907 13$MC=0.0190 3$NC+=0.00405 6
127I S G NC=0.00369 6$OC=0.000362 6
127I   G 202.9     1 5.86    21M1+E2     +0.52   5     0.1142 22             C
127I S G KC=0.0964 17$LC=0.0142 5$MC=0.00289 10$NC+=0.000644 20
127I S G NC=0.000579 18$OC=6.49E-5 17
127I   L      375.0 4 1/2+
127I   B             0.0006   4             9.6   3
127I S B EAV=94.49 99
127I   G 172.1     5 0.03     2M1+E2     -0.085  6     0.165  3              C
127I S G KC=0.1420 23$LC=0.0185 3$MC=0.00373 6$NC+=0.000843 14
127I S G NC=0.000755 13$OC=8.82E-5 15
127I   G 375.0     4 0.03     2E2                      0.0199
127I S G KC=0.01671 24$LC=0.00257 4$MC=0.000524 8$NC+=0.0001158 17
127I S G NC=0.0001044 15$OC=1.144E-5 17
127I   L     417.93 7 5/2+
127I   B             1.19    16            6.09   6
127I S B EAV=80.72 95
127I   G 215.1     1 3.91    17(M1+E2)   -0.203  15    0.0911                C
127I S G KC=0.0782 11$LC=0.01031 16$MC=0.00208 4$NC+=0.000469 7
127I S G NC=0.000420 7$OC=4.89E-5 8
127I   G 360.3     1 13.6     1(M1+E2)   +0.194  15    0.0233                C
127I S G KC=0.0201 3$LC=0.00256 4$MC=0.000515 8$NC+=0.0001164 17
127I S G NC=0.0001042 15$OC=1.222E-5 18
127I   G 417.9     1 100     10(M1+E2)   -0.087  +5-7  0.01599
127I S G KC=0.01382 20$LC=0.001742 25$MC=0.000350 5$NC+=7.92E-5 12
127I S G NC=7.09E-5 10$OC=8.34E-6 12
127I   L      618.4 33/2+
127I   B             0.00012924            8.39  10
127I S B EAV=21.74 82
127I   G 618.4      30.013    2