139ND 139PM EC DECAY (4.15 M) 1977DE06 16NDS 201610
139ND H TYP=FUL$AUT=P.K. JOSHI, B. SINGH, S. SINGH, A.K. JAIN$
139ND2 H CIT=NDS 138, 1 (2016)$CUT=15-Oct-2016$
139ND c 1977De06: measured: |g's, |g|g-coincidences, and |g(t), ce (Si(Li)),
139ND2c |b|g-coincidences (E/|DE telescope, Ge(Li)).
139ND c Others: 1973VaYZ, 1971Va22, 1968Bl14
139ND cE TI$Uncertainties dominated by uncertainty in direct g.s. feeding
139ND cE E(A)$E{-|b|+}=3520 keV {I40} from 1983Al06 (Ge(HP),Ge(Li)). Other
139ND2cE E{-|b|+}=3450 keV {I50} (1995Ve08; Ge(HP)).
139ND cG $|a(K)exp: normalized to |a(K)(420|g {+140}Nd; E3)=0.044.
139ND cG M,MR$From |a{-K}(exp) and K/L. |d's deduced by evaluators.
139ND2cG Multipolarities in brackets were assigned in order to obtain the
139ND3cG normalization and I{-|e+|b+}'s. Same assignments are in the Adopted
139ND4cG Gammas
139ND cL J$From the Adopted Levels.
139PM P 0.0 (5/2)+ 4.15 M 5 4514 26
139PM cP QP$From 2012Wa38
139ND N 0.145 23 1 1
139ND cN NR$from I|g(403|g)=14.5% {I23}; weighted average based on
139ND2cN I|g({+139}Nd 405|g; 4.15-min component)/I|g(403|g)=0.080 {I6} and
139ND3cN I|g({+139}Nd 1074|g; 4.15-min component)/I|g(403|g)=0.026 {I3},
139ND4cN I|g({+139}Nd 405|g)=7.0% {I10} and I|g({+139}Nd 1074|g)=2.5% {I5},
139ND5cN and T{-1/2}({+139}Pm)=4.15 min {I5} and T{-1/2}({+139}Nd g.s.)=29.7
139ND6cN min {I5}.
139ND PN 3
139ND G 631.8 4 0.80 9
139ND G 721.0 10 0.38 10
139ND G 1079.9 4 1.0 2
139ND G 1193.3 3 1.4 2
139ND G 1299.7 3 0.54 6
139ND G 1602.9 3 2.9 3
139ND G 1849.5 5 0.29 5
139ND G 2351.0 4 0.25 5
139ND L 0.0 3/2+
139ND2 L %EC+%B+=100
139ND E 53 4 18 1 5.25 4 71 5
139NDS E EAV=1587 15$CK=0.219 5$CL=0.0307 6$CM+=0.00877 18
139ND cE $E(|e)=4542 {I40} from measured E|b{++}
139NDF E FLAG=A
139ND L 95.31 9 (1/2)+
139ND E 0.13 LT 0.07 LT 7.8 GT 0.2 LT ?
139NDS E EAV=1542 15$CK=0.233 5$CL=0.0327 7$CM+=0.00932 19
139ND cE TI$|g-transition intensity balance gives -0.2 {I4} consistent with
139ND2cE expected no |b feeding, as expected for |DJ=2, |D|p=no
139ND G 95.3 1 12.3 8 M1(+E2) 0.18 LT 1.64 3 C
139ND2 G EKC=1.3 3 $ K/L=8.2 18
139NDS G KC=1.382 20$LC=0.204 13$MC=0.044 3
139NDS G NC=0.0097 6$OC=0.00146 8$PC=8.91E-5 14
139ND L 402.77 11 (3/2,5/2)+
139ND E 8.7 14 4.3 7 5.79 8 13.0 21C
139ND cE $E(|e)=4010 {I100} from measured E|b{++} (1977De06)
139NDS E EAV=1399 15$CK=0.283 6$CL=0.0398 8$CM+=0.01136 23
139ND G 307.4 2 2.4 3 [E2] 0.056 8 C
139NDS G KC=0.047 8$LC=0.00764 25$MC=0.00165 8
139NDS G NC=0.000365 14$OC=5.34E-5 8$PC=2.8E-6 7
139ND G 402.8 2 100 M1+E2 1.0 5 0.027 3 C
139ND2 G EKC=0.022 3
139NDS G KC=0.022 3$LC=0.00339 17$MC=0.00072 3
139NDS G NC=0.000161 8 $OC=2.39E-5 15$PC=1.4E-6 2
139ND L 463.10 12 (3/2)+
139ND E 4.5 8 2.4 4 6.04 8 6.9 12C
139ND cE $E(|e)=4040 {I120} from measured E|b{++} (1977De06)
139NDS E EAV=1371 15$CK=0.294 6$CL=0.0414 9$CM+=0.01181 24
139ND G 367.8 2 24.3 15M1 0.0401 C
139ND2 G EKC=0.040 6
139NDS G KC=0.0342 5$LC=0.00462 7$MC=0.000978 14
139NDS G NC=0.000219 3$OC=3.34E-5 5$PC=2.19E-6 3
139ND G 463.1 2 28.1 18M1+E2 0.045 GT 0.018 4 C
139ND2 G EKC=0.013 5
139NDS G KC=0.015 4$LC=0.0023 3$MC=0.00049 6
139NDS G NC=0.000108 13$OC=1.62E-5 22$PC=1.0E-6 3
139ND L 675.46 18 (3/2,5/2+)
139ND E 0.41 8 0.28 5 6.93 9 0.69 13
139NDS E EAV=1273 15$CK=0.338 7$CL=0.0475 10$CM+=0.0136 3
139ND G 272.7 4 0.81 20 C
139ND G 580.1 3 2.9 3 C
139ND G 675.5 3 1.3 1
139ND L 756.45 18 (3/2,5/2+)
139ND E 1.1 2 0.80 17 6.4 1 1.9 4
139NDS E EAV=1236 15$CK=0.356 8$CL=0.0501 11$CM+=0.0143 3
139ND G 661.3 4 2.8 3 C
139ND G 756.5 3 13.7 11 C
139ND L 815.66 17 (3/2,5/2,7/2+)
139ND E 0.51 10 0.40 7 6.74 9 0.91 17
139NDS E EAV=1209 15$CK=0.369 8$CL=0.0520 11$CM+=0.0148 3
139ND G 412.5 10 1.0 5 C
139ND G 815.8 2 7.8 2 C
139ND L 932.89 19 (7/2-)
139ND E 0.04 3 0.04 2 7.7 3 0.08 5
139NDS E EAV=1155 15$CK=0.398 8$CL=0.0561 12$CM+=0.0160 4
139ND G 530.1 2 2.4 2 D C
139ND cG M$from Adopted Gammas
139ND L 981.45 21
139ND E 0.40 8 0.37 7 6.72 9 0.77 15
139NDS E EAV=1133 15$CK=0.410 8$CL=0.0578 12$CM+=0.0165 4
139ND G 579.0 6 0.39 10 C
139ND G 981.6 4 7.3 5 C
139ND L 1066.2 4
139ND E 0.13 2 0.13 3 7.15 9 0.26 5
139NDS E EAV=1094 15$CK=0.432 9$CL=0.0610 12$CM+=0.0174 4
139ND G 603.1 4 1.0 1 C
139ND G 663.4 6 0.81 16 C
139ND L 1105.0 3
139ND E 0.057 14 0.063 16 7.47 11 0.12 3
139NDS E EAV=1076 15$CK=0.443 9$CL=0.0624 12$CM+=0.0178 4
139ND G 702.0 10 0.57 15 C
139ND G 1105.0 3 0.28 6
139ND L 1282.1 5
139ND E 0.042 21 0.06 3 7.4 2 0.10 5
139NDS E EAV=995 15$CK=0.492 9$CL=0.0695 13$CM+=0.0199 4
139ND G 822.0 10 0.40 20 ?
139ND G 879.3 4 0.38 6 C
139ND L 1319.5 5
139ND E 0.039 8 0.057 12 7.5 1 0.096 20
139NDS E EAV=978 14$CK=0.503 9$CL=0.0711 13$CM+=0.0203 4
139ND G 856.4 4 0.66 9 C
139ND L 2021.43 17
139ND E 0.11 3 0.54 17 6.3 1 0.65 20
139NDS E EAV=662 14$CK=0.706 8$CL=0.1004 12$CM+=0.0287 4
139ND G 1205.7 4 0.37 8 C
139ND G 1265.1 3 0.61 9
139ND G 1558.2 5 0.89 14 C
139ND G 1618.7 3 1.4 11 C
139ND G 2021.3 3 1.2 1
139ND L 2107.56 14 (3/2,5/2,7/2)+
139ND E 0.32 6 2.0 3 5.66 8 2.3 4
139NDS E EAV=624 14$CK=0.727 8$CL=0.1035 12$CM+=0.0296 4
139ND G 1126.1 3 2.0 2 C
139ND G 1174.7 3 1.2 1 C
139ND G 1292.5 4 1.9 2 C
139ND G 1351.1 3 1.43 13 C
139ND G 1644.5 3 2.1 2 C
139ND G 1704.6 3 4.9 5 C
139ND G 2107.3 3 2.5 3
139ND L 2240.56 20
139ND E 0.021 4 0.18 4 6.65 9 0.20 4
139NDS E EAV=565 14$CK=0.757 7$CL=0.1080 10$CM+=0.0309 3
139ND G 1484.1 1 1.40 11 ?
139ND L 2261.27 20
139ND E 0.054 11 0.50 9 6.20 8 0.55 10
139NDS E EAV=556 14$CK=0.761 7$CL=0.1086 10$CM+=0.0311 3
139ND G 1798.4 4 0.60 8 C
139ND G 1858.5 3 1.7 2 C
139ND G 2261.1 3 1.5 2
139ND L 2289.0 3
139ND E 0.011 3 0.11 3 6.9 1 0.12 3
139NDS E EAV=544 14$CK=0.767 7$CL=0.1095 10$CM+=0.0313 3
139ND G 1473.0 10 0.26 9 C
139ND G 1825.9 3 0.31 5 C
139ND G 1886.2 5 0.29 5 C
139ND L 2340.08 21
139ND E 0.020 5 0.23 6 6.5 1 0.25 6
139NDS E EAV=521 14$CK=0.777 6$CL=0.1109 9$CM+=0.0317 3
139ND G 1358.8 3 0.36 12
139ND G 1664.6 3 0.26 4
139ND G 1876.8 3 1.1 2 C
139ND L 2359.30 24
139ND E 0.031 7 0.37 7 6.29 9 0.40 8
139NDS E EAV=513 14$CK=0.780 6$CL=0.1115 9$CM+=0.03189 25
139ND G 1426.3 4 0.64 15 C
139ND G 1956.7 6 0.99 20 C
139ND G 2359.3 3 1.1 1