140SM    140EU EC DECAY                1991FI03                  18NDS    201812
140SM  H TYP=FUL$AUT=N. NICA$CIT=NDS 154, 1 (2018)$CUT=20-Nov-2018$
140SM c  1991Fi03: A=140 nuclei produced by {+92}Mo(HI,xpyn) reaction with
140SM2c  312 MeV {+54}Fe and 244 MeV {+52}Cr projectiles. Measured |g, |g|g,
140SM2c  |g-K| x ray, deduced level scheme
140SM c  Other measurements: |g (1987Ke05,1986DeZW,1973WeZK,1972WeZE), |g|g,
140SM2c  |g-K| x ray (1991Fi03,1987Ke05), |b endpoint (1995Ve08)
140SM c  2015Sa40,2015Kl01 mainly used for Coulex data (see this dataset for
140SM2c  description)
140SM c  Decay scheme is from 1991Fi03
140SM cG E,RI$From 1991Fi03
140SM cG M,MR$From Adopted Gammas
140SM cL J$Adopted values
140EU  P 0.0         1+                1.51 S    2              8470      50
140EU cP E,J,T$from {+140}Eu Adopted Levels
140EU cP QP$from 2017Wa10
140SM  N     0.29   5              1.00
140SM cN NR        From I(K| x ray)/I(531|g)=0.142 {I14} one obtains
140SMxcN I(531|g)=29% {I3}
140SM PN                                                                     3
140SM  L 0.0         0+                14.82 M   12
140SM2 L %EC+%B+=100
140SM cL T$from Adopted Levels
140SM cL %EC+%B+$from Adopted Levels
140SM  E                67   4    3.1  2   4.43   3             70        4
140SMS E EAV=3469 25$CK=0.0368 7$CL=0.00523 10$CM+=0.00150 3
140SM  L 530.95    102+
140SM  E                19   4    1.1  2   4.83   9             20        4
140SMS E EAV=3212 24$CK=0.0451 9$CL=0.00641 13$CM+=0.00184 4
140SM  G 531.0      1100      9 E2
140SM cG M$Q from 2015Sa40 (|g|g(|q))
140SM cG           %I|g=29.0 {I25}, using the calculated normalization.
140SM  L 990.64    12 2+
140SM  E                1.5  4   0.10  3   5.79  11             1.6       4
140SMS E EAV=2991 24$CK=0.0544 12$CL=0.00773 17$CM+=0.00222 5
140SM  G 459.9      111.0     8
140SM cG           %I|g=3.2 {I4}, using the calculated normalization.
140SM  L 1246.52   184+
140SM  G 715.4      20.6      1 E2
140SM cG           %I|g=0.17 {I4}, using the calculated normalization.
140SM  L 1420.31   20(1,2)
140SM  E               0.32  6   0.027 5   6.32   9             0.35      7
140SMS E EAV=2785 24$CK=0.0654 15$CL=0.00930 21$CM+=0.00267 6
140SM  G 1420.3     21.2      2
140SM cG           %I|g=0.35 {I7}, using the calculated normalization.
140SM  L 1599.10   12 0+
140SM cL J$from angular correlation coefficients for 1068|g-531|g cascade
140SM2cL (2015Kl01,2015Sa40)
140SM  E                3.2  6   0.29  6   5.26   9             3.5       7
140SMS E EAV=2700 24$CK=0.0708 17$CL=0.01008 24$CM+=0.00290 7
140SM  G 352.4      20.4      2                                                ?
140SM cG           %I|g=0.12 {I6}, using the calculated normalization.
140SM  G 608.6      11.9      2
140SM cG           %I|g=0.55 {I8}, using the calculated normalization.
140SM  G 1068.0     111.0    11 E2
140SM cG           %I|g=3.2 {I4}, using the calculated normalization.
140SM cG $A{-2}=+0.27 {I11}, A{-4}=+1.03 {I17} for 1068|g-531|g cascade
140SM2cG (2015Sa40,2015Kl01)
140SM cG M$|DJ=2, E2 |g based on angular correlation coefficients
140SM  L 1628.65   22 0,1,2
140SM  E               0.53  10  0.049 9   6.03   9             0.58      11
140SMS E EAV=2686 24$CK=0.0718 17$CL=0.01022 24$CM+=0.00294 7
140SM  G 1097.7     22.0      3
140SM cG           %I|g=0.58 {I10}, using the calculated normalization.
140SM  L 1933.15   22 0,1,2
140SM  E               0.23  6   0.025 7   6.28  12             0.26      7
140SMS E EAV=2540 24$CK=0.0827 20$CL=0.0118 3$CM+=0.00338 9
140SM  G 1402.2     20.9      2
140SM cG           %I|g=0.26 {I7}, using the calculated normalization.
140SM  L 2284.14   132+
140SM  E               1.16  18  0.152 24  5.46   7             1.31      20
140SMS E EAV=2373 24$CK=0.0980 25$CL=0.0140 4$CM+=0.00401 11
140SM  G 685.1      20.9      3
140SM cG           %I|g=0.26 {I9}, using the calculated normalization.
140SM  G 1293.6     11.2      2
140SM cG           %I|g=0.35 {I7}, using the calculated normalization.
140SM  G 1752.8     21.9      3
140SM cG           %I|g=0.55 {I10}, using the calculated normalization.
140SM  G 2283.9     30.5      2
140SM cG           %I|g=0.15 {I6}, using the calculated normalization.
140SM  L 2289.88   20(1,2)
140SM  E               0.23  7   0.030 9   6.16  14             0.26      8
140SMS E EAV=2371 24$CK=0.0983 25$CL=0.0140 4$CM+=0.00402 11
140SM  G 1299.4     20.3      1
140SM cG           %I|g=0.09 {I3}, using the calculated normalization.
140SM  G 1758.7     40.4      2
140SM cG           %I|g=0.12 {I6}, using the calculated normalization.
140SM  G 2289.1     50.2      1
140SM cG           %I|g=0.06 {I3}, using the calculated normalization.
140SM  L 2482.34   17(1,2)+
140SM  E               0.93  14  0.137 21  5.47   7             1.07      16
140SMS E EAV=2279 24$CK=0.108 3$CL=0.0154 4$CM+=0.00444 12
140SM  G 882.7      30.2      1
140SM cG           %I|g=0.06 {I3}, using the calculated normalization.
140SM  G 1491.3     22.1      3
140SM cG           %I|g=0.61 {I10}, using the calculated normalization.
140SM  G 1952.0     21.4      2
140SM cG           %I|g=0.41 {I7}, using the calculated normalization.
140SM cG E$ differs by 3|s from |DE{-levels}
140SM  L     2595.9 4 0,1,2
140SM  E               0.80  17  0.13  3   5.49  10             0.93      20
140SMS E EAV=2226 24$CK=0.115 3$CL=0.0164 5$CM+=0.00470 13
140SM  G 2064.9     33.2      6
140SM cG           %I|g=0.93 {I19}, using the calculated normalization.