141ND 141PM EC DECAY 1976ZA03 23NDS 202212
141ND H TYP=FUL$AUT=N. NICA$CIT=NDS 187,1 (2023)$CUT=12-Oct-2022$
141ND c Measured: |g, |g|g (1976Za03,1975Ya04,1970Ch29), |g{+|+}|g coin
141ND2c (1975Ya04), ce (1970Ch29), |b{++} (1970Ch29,1952Ki25)
141ND c Decay scheme is that of 1976Za03; no uncertainties in I|e were given
141ND cE |e+|b{++} feeding of g.s. was determined from total
141ND2cE annihilation intensity and intensity
141NDxcE balance for each level using |e/|b{++} from theory.
141ND cG |a(K)exp were derived from I|g (1976Za03)
141ND2cG and Ice(K) (1970Ch29) and
141ND3cG normalized to |a(K)=0.191 for M1+E2 194|g with |d=0.39 {I2}
141ND cL E$From least-squares fit to E|g.
141ND cL J,T Adopted values, except where noticed
141ND DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
141PM P 0.0 5/2+ 20.90 M 5 3669 14
141PM cP QP$From 2021Wa16
141ND N 0.0423 16 1.0 1.0
141ND cN NR$from I|g(|g{+|+})=2385 (1975Ya04, with no unc), balance of I|g from
141ND2cN each level
141ND2cN and theoretical |e/|b{++}. 4% of relative unc was considered
141ND2cN by the evaluator (by comparison with 1976Za03, who listed about 2%
141ND2cN of relative unc for I|g(|g{+|+})) which still rather underestimates
141ND2cN the uncertainty on I|g normalization and the derived unc on %I|g
141ND2cN listed in the comments
141ND dN NR$2385 given with no unc; 2*49 was adopted by NN with 49 statistical
141ND2dN unc. Previous evaluation 2001TU02 did not show any unc but from
141ND2dN their NR=0.0474 25 is as usind 3 times statistical unc.
141ND PN 3
141ND G 2418.6 20.16 3
141ND2 G %IG=0.0068 13$
141ND G 2601.7 20.27 5
141ND2 G %IG=0.0114 22$
141ND L 0.0 3/2+ 2.49 H 3
141ND E 3730 40 50.0 39.9 5.4 89.9
141NDS E EAV=1196.3 65$CK=0.376 4$CL=0.0530 5$CM+=0.01512 14
141ND dE TI$calculated as 100-|S(%I|g(g.s.)), with |S(%I|g(g.s.))=10.1 {I5}
141ND2dE with the actual normalization (assuming 4% of relative unc for
141ND2dE I|g(|g{+|+}))
141ND L 193.72 31/2+ 1.17 NS 15
141ND cL T from 1970Ch29
141ND G 193.67 5 33.9 17M1+E2 0.39 2 0.2213 31
141ND2 G %IG=1.43 9$
141NDS G KC=0.1851 26$LC=0.0285 5$MC=0.00611 10
141NDS G NC=0.001362 22$OC=0.0002023 31$PC=1.165E-5 17
141ND cG M,MR K/L+=4.92 {I10}, E2/M1=0.15 {I4} (1970Ch29)
141ND L 756.64 911/2- 62.0 S 8 M
141ND G 756.7 1 1.8 2M4 0.0915 13
141ND2 G %IG=0.076 9$
141NDS G KC=0.0740 10$LC=0.01371 19$MC=0.00302 4
141NDS G NC=0.000676 9$OC=0.0001003 14$PC=5.75E-6 8
141ND cG M from {+141}Nd IT decay
141ND L 1223.30 35/2+
141ND E 0.32 1.8 6.4 2.1
141NDS E EAV=642.5 63$CK=0.717 4$CL=0.1021 6$CM+=0.02918 15
141ND G 1029.60 57.0 7
141ND2 G %IG=0.296 32$
141ND G 1223.26 5 100 5E2,M1 0.0018132
141ND2 G %IG=4.23 27$
141NDS G KC=0.00154 28$LC=0.000202 34$MC=4.3E-5 7
141NDS G NC=9.6E-6 16$OC=1.45E-6 25$PC=9.5E-8 19$IPC=8.87E-6 17
141ND cG M |a(K)exp=0.0013 {I4}
141ND L 1345.48 47/2+
141ND E 0.022 0.17 7.4 0.19 8
141NDS E EAV=588.1 63$CK=0.746 4$CL=0.1063 5$CM+=0.03040 14
141ND G 1345.52 528.0 14
141ND2 G %IG=1.18 7$
141ND cG M$|a(K)exp=0.0036 {I10}. This value is much greater than calculated
141ND2cG values for M1, E2 and E1, and E0 is not allowed by |DJ(levels);
141ND2cG therefore no mult is adopted
141ND L 1403.54 13 (7/2-)
141ND G 646.9 11.4 2
141ND2 G %IG=0.059 9$
141ND L 1564.64 5(3/2)+
141ND E 0.051 0.71 6.7 0.76
141NDS E EAV=491.3 62$CK=0.7884 24$CL=0.1127 4$CM+=0.03226 11
141ND G 1371.0 12.3 2
141ND2 G %IG=0.097 9$
141ND G 1564.68 7 17.8 9M1+(E0) 1.32E-3
141ND2 G %IG=0.75 5$
141NDS G KC=0.001041 15$LC=0.0001340 19$MC=2.82E-5 4
141NDS G NC=6.32E-6 9$OC=9.67E-7 14$PC=6.50E-8 9$IPC=0.0001053 15
141ND cG M |a(K)exp=0.0049 {I10}
141ND L 1581.66 8
141ND G 1582.0 10.22 4
141ND2 G %IG=0.0093 17$
141ND L 1597.00 5(5/2,3/2)+
141ND E 0.082 1.28 6.4 1.36
141NDS E EAV=477.0 62$CK=0.7936 22$CL=0.1135 4$CM+=0.03249 10
141ND G 1403.14 6 15.9 8E2,M1 0.0013821
141ND2 G %IG=0.67 4$
141NDS G KC=0.00115 18$LC=0.000149 23$MC=3.1E-5 5
141NDS G NC=7.0E-6 11$OC=1.07E-6 17$PC=7.1E-8 12$IPC=4.68E-5 12
141ND cG M |a(K)exp=0.0016 {I10}
141ND G 1596.87 7 16.7 8(E2) 9.89E-414
141ND2 G %IG=0.71 4$
141NDS G KC=0.000753 11$LC=9.79E-5 14$MC=2.062E-5 29
141NDS G NC=4.61E-6 6$OC=7.01E-7 10$PC=4.57E-8 6$IPC=0.0001118 16
141ND cG M |a(K)exp=0.0014 {I8}
141ND L 1808.38 9 ?
141ND E 0.0026 0.087 7.5 0.090
141NDS E EAV=384.2 62$CK=0.8201 14$CL=0.11780 24$CM+=0.03373 7
141ND G 1051.8 12.1 2
141ND2 G %IG=0.089 9$
141ND G 1808.3 10.03 1
141ND2 G %IG=0.0013 4$
141ND L 1820.49 55/2+,3/2+
141ND E 0.0062 0.22 7.1 0.23
141NDS E EAV=378.8 62$CK=0.8212 14$CL=0.11800 23$CM+=0.03379 7
141ND G 597.1 11.2 1
141ND2 G %IG=0.051 5$
141ND G 1626.70 76.0 6
141ND2 G %IG=0.254 27$
141ND G 1820.5 11.6 2
141ND2 G %IG=0.068 9$
141ND L 1897.27 8
141ND E 0.0018 0.091 7.4 0.093
141NDS E EAV=345.2 62$CK=0.8276 11$CL=0.11913 20$CM+=0.03412 6
141ND G 1703.6 11.2 1
141ND2 G %IG=0.051 5$
141ND G 1897.2 11.0 1
141ND2 G %IG=0.042 5$
141ND L 1967.56 57/2+
141ND E 0.012 0.89 6.4 0.90
141NDS E EAV=314.4 62$CK=0.8322 9$CL=0.12000 17$CM+=0.03438 5
141ND G 403.2 20.45 6
141ND2 G %IG=0.0190 26$
141ND G 622.01 518.0 9 0.00244
141ND2 G %IG=0.76 5$
141NDS G KC=0.00209 $LC=0.00027
141ND cG M$(E1) from |a(K)exp=0.0040 {I+12-6} in conflict with placement
141ND G 744.3 10.9 1
141ND2 G %IG=0.038 4$
141ND G 1967.6 13.6 4
141ND2 G %IG=0.152 18$
141ND L 2066.41 7 3/2+,5/2+
141ND E 0.00043 0.058 7.5 0.058
141NDS E EAV=271.2 62$CK=0.8369 6$CL=0.12100 13$CM+=0.03468 4
141ND G 1872.7 10.56 6
141ND2 G %IG=0.0237 27$
141ND G 2066.4 11.5 2
141ND2 G %IG=0.063 9$
141ND L 2073.72 7(3/2+,5/2+)
141ND E 0.0059 0.83 6.4 0.84
141NDS E EAV=268.0 62$CK=0.8372 6$CL=0.12107 13$CM+=0.03470 4
141ND G 1880.0 16.9 7D,E2
141ND2 G %IG=0.292 32$
141ND cG M |a(K)exp<0.0018
141ND G 2073.79 913.3 13D,E2
141ND2 G %IG=0.56 6$
141ND cG M |a(K)exp<0.0012
141ND L 2109.54 5 3/2+,5/2+
141ND E 0.0134 2.42 5.9 2.43
141NDS E EAV=252.2 62$CK=0.8383 5$CL=0.1214 2$CM+=0.03479 4
141ND G 289.0 23.2 3
141ND2 G %IG=0.135 14$
141ND G 544.9 11.1 1
141ND2 G %IG=0.047 5$
141ND G 886.22 5 51.4 26E2 0.00291 4
141ND2 G %IG=2.17 14$
141NDS G KC=0.002473 35$LC=0.000347 5$MC=7.37E-5 10
141NDS G NC=1.644E-5 23$OC=2.464E-6 34$PC=1.493E-7 21
141ND cG M |a(K)exp=0.0020 {I5}
141ND G 2109.6 11.6 2
141ND2 G %IG=0.068 9$
141ND L 2145.32 20
141ND E 6.3E-5 0.015 8.1 0.015
141NDS E EAV=236.5 62$CK=0.8393 4$CL=0.1216 1$CM+=0.03488 4
141ND G 2145.3 20.36 7
141ND2 G %IG=0.0152 30$
141ND L 2246.57 5 (7/2-,5/2-)
141ND E 0.00065 0.38 6.6 0.38
141NDS E EAV=191.9 64$CK=0.8409 2$CL=0.12231 9$CM+=0.03509 3
141ND G 180.2 10.68 7
141ND2 G %IG=0.0288 32$
141ND G 901.1 11.2 1
141ND2 G %IG=0.051 5$
141ND G 1023.2 13.1 3
141ND2 G %IG=0.131 14$
141ND G 2052.9 12.6 3
141ND2 G %IG=0.110 13$
141ND G 2246.5 11.5 2
141ND2 G %IG=0.063 9$
141ND L 2265.22 20
141ND E 4.2E-5 0.030 7.7 0.030
141NDS E EAV=183.6 63$CK=0.8411 2$CL=0.12242 9$CM+=0.03512 3
141ND G 2265.2 20.72 7
141ND2 G %IG=0.0305 32$
141ND L 2303.63 57/2+
141ND E 0.253 6.8 0.253
141NDS E CK=0.8413$CL=0.12263 8$CM+=0.03519 3
141ND G 706.0 10.5 1
141ND2 G %IG=0.021 4$
141ND G 739.1 10.59 6
141ND2 G %IG=0.0250 27$
141ND G 958.5 11.4 1
141ND2 G %IG=0.059 5$
141NDF G FL=1345.48
141ND G 1080.6 11.1 1
141ND2 G %IG=0.047 5$
141NDF G FL=1223.30
141ND G 2303.5 12.4 3
141ND2 G %IG=0.102 13$
141ND L 2311.68 11 7/2+,(9/2+)
141ND G 966.2 11.9 2
141ND2 G %IG=0.080 9$
141ND L 2336.02 20(7/2+)
141ND E 0.0106 8.1 0.0106
141NDS E CK=0.8414$CL=0.12281 8$CM+=0.03525 3
141ND G 2336.0 20.25 5
141ND2 G %IG=0.0106 22$
141ND L 2354.38 15(3/2,5/2+)
141ND E 0.045 7.5 0.045
141NDS E CK=0.8414$CL=0.12291 8$CM+=0.03528 3
141ND G 2160.6 20.18 4
141ND2 G %IG=0.0076 17$
141ND G 2354.4 20.89 9
141ND2 G %IG=0.038 4$
141ND L 2388.53 107/2+
141ND E 0.085 7.2 0.085
141NDS E CK=0.8413$CL=0.12309 8$CM+=0.03534 3
141ND G 1043.1 10.8 1
141ND2 G %IG=0.034 4$
141ND G 2388.3 21.2 1
141ND2 G %IG=0.051 5$
141ND L 2429.62 20
141ND E 0.023 7.7 0.023
141NDS E CK=0.8412$CL=0.12331 8$CM+=0.03541 3
141ND G 2429.6 20.55 6
141ND2 G %IG=0.0233 27$
141ND L 2463.45 10
141ND E 0.023 7.7 0.023
141NDS E CK=0.84097 9$CL=0.12350 8$CM+=0.03548 3
141ND G 1118.0 10.27 6
141ND2 G %IG=0.0114 26$
141ND G 2463.3 20.27 6
141ND2 G %IG=0.0114 26$
141ND L 2505.43 8 3/2+,5/2+
141ND E 0.137 6.9 0.137
141NDS E CK=0.8407 1$CL=0.12374 9$CM+=0.03556 3
141ND G 432.2 20.31 6
141ND2 G %IG=0.0131 26$
141ND G 538.0 21.4 2
141ND2 G %IG=0.059 9$
141ND G 1282.0 10.44 9
141ND2 G %IG=0.019 4$
141ND G 2311.7 20.49 10
141ND2 G %IG=0.021 4$
141ND G 2505.3 20.59 6
141ND2 G %IG=0.0250 27$
141ND L 2514.82 20(7/2)+
141ND E 0.0038 8.4 0.0038
141NDS E CK=0.8406 1$CL=0.12379 9$CM+=0.03558 3
141ND G 2514.8 20.09 2
141ND2 G %IG=0.0038 9$
141ND L 2619.03 20
141ND E 0.023 7.6 0.023
141NDS E CK=0.8397 2$CL=0.1245 1$CM+=0.03581 4
141ND G 2619.0 20.55 6
141ND2 G %IG=0.0233 27$
141ND L 2732.53 20
141ND E 0.0030 8.3 0.0030
141NDS E CK=0.8385 2$CL=0.12540 13$CM+=0.03612 5
141ND G 2732.5 20.07 2
141ND2 G %IG=0.0030 9$
141ND L 2803.9 4(3/2+,5/2+)
141ND E 0.019 7.5 0.019
141NDS E CK=0.8375 2$CL=0.12611 16$CM+=0.03636 6
141ND G 2803.9 40.46 9
141ND2 G %IG=0.019 4$
141ND L 2865.3 4
141ND E 0.0021 8.4 0.0021
141NDS E CK=0.8366 3$CL=0.12683 19$CM+=0.03660 7
141ND G 2865.3 40.05 1
141ND2 G %IG=0.0021 4$
141ND L 2944.70 113/2+,5/2+
141ND E 0.0110 7.5 0.0110
141NDS E CK=0.8351 3$CL=0.12796 23$CM+=0.03699 8
141ND G 1363.1 10.08 2
141ND2 G %IG=0.0034 9$
141ND G 2750.8 20.06 1
141ND2 G %IG=0.0025 4$
141ND G 2943.9 50.12 3
141ND2 G %IG=0.0051 13$
141ND L 3056.08 77/2+
141ND E 0.027 7.0 0.027
141NDS E CK=0.8322 5$CL=0.1301 4$CM+=0.03770 11
141ND G 1088.4 10.32 6
141ND2 G %IG=0.0135 26$
141ND G 1235.4 10.15 3
141ND2 G %IG=0.0063 13$
141ND G 1474.7 10.13 3
141ND2 G %IG=0.0055 13$
141ND G 3056.5 50.05 1
141ND2 G %IG=0.0021 4$