ENSDF decay dataset

 90NB    90MO EC DECAY                 1968CO05,1966PE10         20NDS    202005
 90NB  H TYP=FUL$AUT=S. K. Basu, E.A. MCCUTCHAN$CIT=NDS 165, 1 (2020)$
 90NB2 H CUT=1-Mar-2020$
 90NB c  1968Co05: {+93}Nb(p,4n), E=50-55 MeV, chemical separation. Measured:
 90NB2c  |g singles and |g|g coin with Ge(Li) and NaI.
 90NB c  1966Pe10: measured: ce(t) and |b{++} spectra
 90NB c  Others: 1955Ma31, 1965Co14, 1965Gr29, 1981KaZI, 1984Bu36
 90NB cL $The decay scheme has been established from |g|g coin data (1968Co05)
 90NB2cL and excit in {+90}Zr(p,n|g) (1972Yo03).
 90NB cL J,T$From adopted levels.
 90NB cE $|e branches are obtained from I(|g+ce) imbalance at each level.
 90NB cG E$From 1966Pe10 (from ce spectra), except as noted.
 90NB cG E(A),RI$From 1968Co05.
 90NB cG M$From conversion coefficient data above and adopted J|p's. E3/M2 and
 90NB2cG MR=0.10 for the other multipolarities. E3/M2 and MR=0.10 for the
 90NB3cG other multipolarities.
 90NB cG $|a(K)exp values given in comments are calculated from I|g (1968Co05)
 90NB2cG and Ice (1966Pe10) assuming |a(K)(122.4|g)=0.47 for an E2 transition.
 90NB D  CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
 90MO  P 0.0          0+                5.56 H    9              2489     3
 90NB  N 0.774     29 0.774  29 1.0       1.0
 90NB cN NR$Calculated from total |g+ce feeding to g.s. assuming no |e feeding
 90NB2cN to g.s. (0+ to 8+ transition).
 90NB PN                                                                     3
 90NB  G 421.0     3  0.32   10
 90NB cG $a(K)exp=0.0038 {I14}
 90NB  G 517.7     7  0.20   13
 90NBF G FLAG=A
 90NB  G 987.3     10 0.18   7
 90NBF G FLAG=A
 90NB  G 1446      2  0.06   3
 90NBF G FLAG=A
 90NB  L 0            8+                14.60 H   5
 90NB  L 122.370   22 6+                63 US     2
 90NB  G 122.370   22 83     3  E2                      0.557
 90NBS G KC=0.464 7$LC=0.0768 11$MC=0.01365 20$NC=0.00187 3$OC=6.63E-5 10
 90NB cG M$K/L=6.03 {I18} (1966Pe10).
 90NB  L 124.7     4  4-                18.91 S   6
 90NB  G 2.3       4            [M2+E3]                 3.3E+989 8.2      8    S
 90NBX G M/T=0.9 11$N/T=0.10 35$O/T=4.E-6 13
 90NBS G MC=3.0E+9 81$NC=3.3E+8 86$OC=1.4E+4 17
 90NB cG E$From level-energy differences. For an attempt to measure the
 90NB2cG conversion electron energy see 1988GeZV.
 90NB cG TI$From intensity balance of 124.7 level.
 90NB  L 285.30    10 5+
 90NB  G 162.93    9  7.7    7  M1+E2     0.24   17     0.067 13             C
 90NBS G KC=0.059 11$LC=0.0071 17$MC=0.0012 3$NC=0.00018 4$OC=9.8E-6 15
 90NB cG M$a(K)exp=0.059 {I6}
 90NB  L 328.00    10 4(+)
 90NB  G 42.70     4  2.8    3  M1+(E2)   0.18   LT     2.9   4              C
 90NBS G KC=2.46 22$LC=0.38 11$MC=0.067 20$NC=0.0095 26$OC=0.00041 3
 90NB cG M$|a(K)exp=2.3 {I8}, K/L=9.5 {I40} (1966Pe10).
 90NB cG MR$From |a(K)exp/|a(L)exp.
 90NB  L 382.0     4  1+                6.19 MS   8
 90NB  G 257.34    4  100    3  E3(+M4)   0.12   LT     0.182 12
 90NBS G KC=0.149 10$LC=0.0269 19$MC=0.0048 4$NC=0.00066 5$OC=2.33E-5 22
 90NB cG M$a(K)exp=0.150 {I11}, K/L=5.51 {I16} (1966Pe10)
 90NB cG MR$From |a(K)exp and |a(K)exp/|a(L)exp.
 90NB  E             25      2 56      3 5.30    3              81        5
 90NBS E EAV=477.9 14$CK=0.6020 18$CL=0.07263 21$CM+=0.01652 5
 90NB  L 651.20    21 4(+)
 90NB  G 323.20    18 8.1    7  M1+E2     0.6    3      0.012215             C
 90NBS G KC=0.0107 13$LC=0.00126 17$MC=0.00022 3$NC=3.2E-5 5$OC=1.76E-6 18
 90NB cG M$a(K)exp=0.0106 {I12}
 90NB cG MR$From |a(K)exp.
 90NB  L 822.6     6
 90NB  G 440.5     6  1.2    3
 90NBF G FLAG=A
 90NB  L 827.4     4
 90NB  G 445.37    21 7.7    8
 90NB cG M$a(K)exp=0.0050 {I7}
 90NB  L 854.32    23 2-
 90NB  G 203.13    10 8.2    7                          0.036 4              C
 90NB cG M$a(K)exp=0.034 {I4}
 90NB cG M$M1+E2 with |d<0.36 is inconsistent with adopted |D|p
 90NB  G 472.2     3  1.83   19
 90NB cG M$a(K)exp=0.0029 {I4}
 90NB  L 1344.1    5  1+
 90NB  G 489.8     4  0.94   13
 90NB cG M$a(K)exp=0.0038 {I7}
 90NB  E                       0.73    116.65    7              0.73      11
 90NBS E CK=0.8694$CL=0.1063$CM+=0.02422
 90NB  L 1769.1    5  1+
 90NB  G 425.1     5  0.46   10
 90NB  G 941.5     4  7.1    8
 90NB cG M$a(K)exp=0.00071 {I10}
 90NB  G 946.4     8  0.9    3
 90NBF G FLAG=A
 90NB  G 1387.4    5  2.4    3  M1+E2                  4.06E-47
 90NBS G KC=0.000320 9$LC=3.53E-5 9$MC=6.21E-6 15$NC=9.11E-7 23$OC=5.34E-8 17
 90NB cG M$a(K)exp=0.00044 {I6}
 90NB  E                       8.0     8 5.20    5              8.0       8
 90NBS E CK=0.8675$CL=0.10790 2$CM+=0.024640 5
 90NB  L 1844.8    6  (1+)
 90NB  G 990.2     6  1.31   13                                              C
 90NB cG M$a(K)exp=0.00070 {I12}
 90NB  G 1463.5    9  0.9    3
 90NB cG M$a(K)exp=0.00048 {I22}
 90NB  E                       1.69    245.77    7              1.69      24
 90NBS E CK=0.8668$CL=0.10841 3$CM+=0.024775 7
 90NB  L 2125.6    7  1+
 90NB  G 1271.3    6  5.3    5                                               C
 90NB cG M$a(K)exp=0.00050 {I6}
 90NB  E                       4.1     5 4.87    6              4.1       5
 90NBS E CK=0.8619 1$CL=0.11231 8$CM+=0.02580 2
 90NB  L 2309.0    7  3+
 90NB  G 1454.6    7  2.4    7                                               C
 90NB cG M$a(K)exp=0.00036 {I12}
 90NB  G 1481.6    14 0.3    3
 90NB  E                       2.1     6 4.51    13             2.1       6
 90NBS E CK=0.8492 5$CL=0.1223 4$CM+=0.02846 10