141GD    141TB EC DECAY (3.5 S)        1989GI06                  23NDS    202212
141GD  H TYP=FUL$AUT=N. NICA$CIT=NDS 187,1 (2023)$CUT=12-Oct-2022$
141GD c  Measured: |g, |g|g, X|g (1989Gi06,1988TuZY,2001BeZY)
141GD c  1989Gi06 placed all observed |g's in the proposed decay scheme
141GD c  1988TuZY arranged
141GD2c  similar but much fewer experimental data in a very different decay
141GD3c  scheme
141GD c  2001BeZY confirmed the level scheme of 1989Gi06
141GD cE $|b{++}/I(293|g)=4.25 {I100}; |e/I(293|g)|?2.5 (1989Gi06)
141GD cE $|g's included in the decay scheme (after correction for
141GD2cE internal conversion for assumed multipolarities) account for |?85%
141GD3cE of the total |b strength (1989Gi06)
141GD cE TI$From imbalance of I(|g+ce). According to 1989Gi06, intensity
141GD2cE balance through the first six excited levels indicates that
141GD2cE the intensity of transitions not included in the scheme to these levels
141GD2cE is low, which leave little room for significant direct |b feeding on
141GD2cE either of them
141GD cE TI$|?4.4% of |e+|b{++} is unaccounted for (1989Gi06)
141GD cG E,RI      From 1989Gi06. Values for transitions following decay of the
141GD2cG 378 level have been corrected to include only the 3.5-s component
141GD cL E$From least-squares fit to E|g data (|h{+2} norm=2.83 greater than
141GD2cL |h{+2} critical=1.93)
141GD cL J,T       Adopted values
141GD DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
141GD CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
141GD2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
141TB  P 0.0          (5/2-)           3.5 S     2              8.68E3    11
141TB cP QP$From 2021Wa16
141GD  N  0.168                1.0       1.0
141GD cN NR$Listed by 1989Gi06 (arguments not given)
141GD PN                                                                     4
141GD  G 406.8      18        2
141GD  G 480.3      132       3
141GD  G 530.9      215       2
141GD  L 0.0         1/2+              14 S      4
141GD  L 113.16     7(3/2+)
141GD  G 113.2     1 47       5M1                      1.412
141GDS G  KC=1.193 17$LC=0.1720 25$MC=0.0374 6
141GDS G  NC=0.00860 13$OC=0.001334 19$PC=8.89E-5 13
141GD  L 198.32     7(3/2+)
141GD  G 85.2      1 11       2M1                      3.19
141GDS G  KC=2.69 4$LC=0.390 6$MC=0.0847 13
141GDS G  NC=0.0195 3$OC=0.00302 5$PC=0.000201 3
141GD  G 198.4     1 88       9M1                      0.293
141GDS G  KC=0.248 4$LC=0.0354 5$MC=0.00768 11
141GDS G  NC=0.001767 25$OC=0.000274 4$PC=1.84E-5 3
141GD  L 258.17     65/2+
141GD  G 59.8      1 10       2M1                      8.88
141GDS G  KC=7.48 11$LC=1.094 17$MC=0.238 4
141GDS G  NC=0.0547 9$OC=0.00847 13$PC=0.000563 9
141GD  G 145.0     1 22       3M1                      0.700
141GDS G  KC=0.592 9$LC=0.0850 12$MC=0.0185 3
141GDS G  NC=0.00425 6$OC=0.000660 10$PC=4.41E-5 7
141GD  G 258.2     1 70       7E2                      0.0964
141GDS G  KC=0.0717 10$LC=0.0192 3$MC=0.00439 7
141GDS G  NC=0.000989 14$OC=0.0001388 20$PC=4.35E-6 7
141GD  L 377.76     911/2-             24.5 S    5                           M
141GD  G 119.6     1           E3                      15.93
141GDS G  KC=2.74 4$LC=10.08 15$MC=2.49 4
141GDS G  NC=0.557 9$OC=0.0718 11$PC=0.0001662 24
141GD cG RI        because of large T{-1/2}=24.5 s measured I|g belongs to
141GD2cG {+141}Gd IT decay, not to {+141}Tb |e decay with T{-1/2}=3.5 s
141GD  L 492.35     7(5/2+,3/2-)
141GD  G 234.5      15        2
141GD  G 379.2      129       3
141GD  G 492.2      141       4
141GD  L 514.46    10(9/2,11/2-)
141GD  G 136.7      185       9
141GD  L 551.58     8(7/2-)
141GD  E                 7        0.4       5.7                 7
141GDS E EAV=3299 53$CK=0.0491 22$CL=0.0072 3$CM+=0.00206 9
141GD  G 59.3       118       4
141GD  G 173.9     1 15       2[E2]                    0.356
141GDS G  KC=0.236 4$LC=0.0928 14$MC=0.0215 3
141GDS G  NC=0.00482 7$OC=0.000655 10$PC=1.312E-5 19
141GD  G 293.3      1100     10
141GD  L 646.16    10(7/2-)
141GD  E               13.0      0.83       5.4                 13.8
141GDS E EAV=3253 53$CK=0.0509 23$CL=0.0074 4$CM+=0.00214 10
141GD  G 94.5       11        1
141GD  G 131.6      147       5
141GD  G 268.3      229       3
141GD  L 661.43    10(3/2-,5/2-)
141GD  E                2.3      0.15       6.1                 2.5
141GDS E EAV=3246 53$CK=0.0512 23$CL=0.0075 4$CM+=0.00215 10
141GD  G 463.4      122       3
141GD  L 752.64     9(3/2-,5/2-)
141GD  E               10.7      0.72       5.4                 11.4
141GDS E EAV=3202 53$CK=0.0531 24$CL=0.0077 4$CM+=0.00223 10
141GD  G 91.5       12        1
141GD  G 494.3      140       4
141GD  G 554.2      120       2
141GD  L 758.37    12(3/2-,5/2-,7/2-)
141GD  E               9.37      0.63       5.5                 10.0
141GDS E EAV=3199 53$CK=0.0532 24$CL=0.0077 4$CM+=0.00224 10
141GD  G 206.7      24        3                                                ?
141GD  G 500.2      154       5
141GD  L 895.14     8(7/2-)
141GD  E               27.6      1.97       5.0                 29.6
141GDS E EAV=3133 53$CK=0.056 3$CL=0.0082 4$CM+=0.00236 11
141GD  G 248.8      15        2
141GD  G 343.6      197      10
141GD  G 402.9      128       7
141GD  G 517.5      127       3
141GD  G 636.9      111       2
141GD  L 940.52    11(7/2-)
141GD  E                2.9      0.21       5.9                 3.1
141GDS E EAV=3112 53$CK=0.057 3$CL=0.0083 4$CM+=0.00240 11
141GD  G 389.0      111       2
141GD  G 426.0      17        2
141GD  L 989.71    11(7/2-)
141GD  E               9.31      0.69       5.4                 10.0
141GDS E EAV=3088 53$CK=0.058 3$CL=0.0085 4$CM+=0.00245 12
141GD  G 475.4      151       5
141GD  G 611.8      18        2
141GD  L 1100.06   14(7/2-)
141GD  E                3.2      0.25       5.8                 3.5
141GDS E EAV=3035 53$CK=0.061 3$CL=0.0089 5$CM+=0.00256 12
141GD  G 585.6      121       2
141GD  L 1131.86   14(7/2-)
141GD  E                4.4      0.34       5.7                 4.7
141GDS E EAV=3020 53$CK=0.062 3$CL=0.0090 5$CM+=0.00260 12
141GD  G 617.4      128       3