142BA 142CS B- DECAY 1980Sc16,1974WrZY 11NDS 201108
142BA H TYP=FUL$AUT=T.D. Johnson, D. Symochko(a), M. Fadil(b), and J.K. Tuli$
142BA2 H CIT=NDS 112, 1949 (2011)$CUT=1-Jun-2010$
142BA c Measured: |g, |g|g (1985Bu28,1980Sc16,1979Sc24,1974WrZY,1971La04),
142BA2c |g|g(|q) (1980Sc16), absolute I|g (1984So18)
142BA3c |b, |b|g (1982Pa24,1981De25,1981Ke07,1978Wo15,1978Wu04,1972AdZP),
142BA4c delayed neutrons (1981En05,1980Lu04,1979En02,1977Sh01,1977Re06,
142BA5c 1977Re05,1975As05,1969Ta04,1969Am01), E|b(av) (1982Al01), mass
142BAxc (1979Ep01), hfs (1981Th06,1983Mu12,1979Ek02,1978Ek05)
142BA c 1990Ma25: |b|g|g(t), deduced T{-1/2}, source from fission product mass
142BAxc separation
142BA c Level scheme is that of 1980Sc16
142BA cB E From 1981De25
142BA DG CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
142BA cG E,RI From 1980Sc16
142BA cG RI Absolute I|g from 1984So18 were renormalized to
142BA2cG I(641|g {+142}La |b decay)=47.4% {I5} (1981Ge04)
142BA cG M,MR$From |g|g(|q) (1980Sc16), unless indicated otherwise.
142BA cG E(A) Observed only by 1974WrZY
142BA cL J$Adopted values.
142BA cL T$From |b|g|g(t) (1990Ma25)
142CS P 0.0 0- 1.684 S 14 7308 11
142BA N 0.272 27 1.0
142BA cN NR From I(359|g)=27.2% {I27} (1984So18)
142BA PN 5
142BA G 100.6 5 A
142BA G 325.0 50.26 8 A
142BA G 401.4 60.20 7 A
142BA G 510.71 167.8 9 A
142BA cG RI may be |g{+|+} from pair conversion (at least partly)
142BA G 608.3 31.20 22 A
142BA G 858.30 150.92 12
142BA G 966.89 70.55 AP
142BA cG RI the weaker part of 966|g doublet (from |g|g in 1980Sc16)
142BA2cG with I|g 1.5% of total I(966|g)
142BA G 985.8 81.35 17
142BA cG E 986.95 {I21} in 1974WrZY
142BA2cG I|g from 1974WrZY
142BA G 1099.1 90.5 3 A
142BA G 1118.6 50.42 15 A
142BA G 1137.0 3 0.66 12 A
142BA G 1192.2 41.52 21
142BA G 1559.1 2 1.62 16
142BA G 1610.7 2 1.26 13
142BA G 1774.6 4
142BA G 1899.08 152.90 23 A
142BA G 1915.7 4 0.59 12
142BA G 1961.1 50.41 16
142BA G 2051.0 70.30 12 A
142BA G 2056.1 50.46 12 A
142BA G 2254.0 3 0.96 14
142BA G 2351.3 50.47 10 A
142BA G 2393.7 2 0.18 16 A
142BA G 2415.1 6 0.26 12
142BA cG E 2412.2 {I9} in 1974WrZY
142BA G 2508.9 70.39 13
142BA G 2575.9 60.38 11 A
142BA G 2613.2 40.72 11 A
142BA G 2656.0 60.39 12 A
142BA G 2677.2 100.23 12 A
142BA G 2725.77 241.62 13 A
142BA G 2757.3 31.25 14 A
142BA G 2796.6 60.32 10 A
142BA G 2839.6 80.25 10 A
142BA G 2988.6 70.34 12 A
142BA G 3079.3 170.13 10 A
142BA G 3167.7 70.40 12 A
142BA G 3369.2 100.21 9 A
142BA G 3426.5 40.87 12 A
142BA G 3661.5 80.30 10 A
142BA G 3786.3 40.69 10 A
142BA G 3797.5 40.76 10 A
142BA G 3835.0 40.93 11 A
142BA G 3870.5 50.71 12 A
142BA G 3897.9 70.34 9 A
142BA G 3931.7 40.94 11 A
142BA G 4028.3 50.50 7 A
142BA G 4037.1 50.37 7 A
142BA G 4085.7 60.32 7 A
142BA G 4145.7 110.17 8 A
142BA G 4178.6 70.33 8 A
142BA G 4198.3 100.18 7 A
142BA G 4205.5 70.27 7 A
142BA G 4217.5 110.15 7 A
142BA G 4238.2 40.78 9 A
142BA G 4250.6 80.26 7 A
142BA G 4277.4 50.51 8 A
142BA G 4362.9 160.10 7 A
142BA G 4418.2 40.86 9 A
142BA G 4494.2 60.31 6 A
142BA G 4537.2 100.13 5 A
142BA G 4549.6 80.18 5 A
142BA G 4564.8 70.24 5 A
142BA G 4578.2 70.23 6 A
142BA G 4609.8 70.19 5 A
142BA G 4647.8 50.36 5 A
142BA G 4670.2 130.07 3 A
142BA G 4681.8 90.10 3 A
142BA G 4694.7 70.14 4 A
142BA G 4730.4 110.059 24 A
142BA G 4738.4 110.059 24 A
142BA G 4812.2 80.095 24 A
142BA G 4862.7 130.062 25 A
142BA G 4891.1 80.14 3 A
142BA G 4896.8 100.10 3 A
142BA G 4937.1 120.047 19 A
142BA G 4955.5 140.039 18 A
142BA G 4993.6 130.043 18 A
142BA G 5006.2 90.078 19 A
142BA G 5028.2 120.046 19 A
142BA G 5374.13 140.040 13 A
142BA L 0.0 0+
142BA B 7335 2056 5 5.59 4
142BAS B EAV=3249.0 52
142BA cB E$E(|b{+-})=7315 {I15} (1992Pr04,1993PrZZ)
142BA L 359.596142+ 65 PS 2
142BA B 7.2 12 8.46 8 1U
142BAS B EAV=3062.5 52
142BA G 359.598 14100.0 17E2 0.0257
142BAB G BE2W=32.1 10
142BAS G KC=0.0212 3$LC=0.00356 5$MC=0.000748 11$NC+=0.000183 3
142BAS G NC=0.0001589 23$OC=2.31E-5 4$PC=1.232E-6 18
142BA cG M K/L=5.2 (1973Kh05,1974KhZV), |g|g(|q) (1980Sc16)
142BA cG E from 1979Bo26
142BA cG RI I|g=27.2% {I27} if I|g=100 (1984So18)
142BA L 834.81 94+ 11.9 PS 9
142BA G 475.17 9 1.10 4E2 0.01135
142BAB G BE2W=45 4
142BAS G KC=0.00952 14$LC=0.001455 21$MC=0.000303 5$NC+=7.49E-5 11
142BAS G NC=6.48E-5 9$OC=9.57E-6 14$PC=5.70E-7 8
142BA cG M$Adopted value. Q from |g|g(|q)
142BA L 1292.2014(3-)
142BA G 457.26 150.40 4
142BA cG E 459.1 {I8} in 1974WrZY
142BA G 932.82 202.0 3D+Q -5.9 +32-73
142BA cG MR if J=2, |d=-0.34 {I22} |g|g(|q)
142BA L 1326.48 51- 10 PS 5
142BA B 5973 3519.8 22 5.66 5 C
142BAS B EAV=2627.2 52
142BA G 966.89 733 3D+(Q) -0.013 8
142BA cG RI I|g=9.0% {I9} if I|g=33 {I3} (1984So18); I|g=28.3 {I15} in
142BA2cG 1974WrZY I|g(967):I|g(1326)=44.4 {I4}/55.6 {I4} (1990Ma25)
142BA G 1326.46 747.5 7
142BA L 1424.06 62+ 9 PS LT
142BA B 1.9 2 8.58 5 1U
142BAS B EAV=2560.1 52
142BA G 1064.54 73.30 7E2+(M1) 10 GT
142BAB G BE2W>0.48
142BAS G CC=0.001586 23$KC=0.001363 20$LC=0.0001773 25$MC=3.64E-5 6$NC+=9.12E-6
142BAS G NC=7.84E-6 11$OC=1.194E-6 17$PC=8.46E-8 12
142BA cG M$from adopted levels. Q(+D) from |g|g(|q) (1980Sc16)
142BA cG MR from |g|g(|q) (1980Sc16)
142BA G 1423.9 1 3.80 20Q
142BA cG RI I|g=1.8% {I2} if I|g=6.8 (1984So18)
142BA cG M,MR$D+Q with -19.3<|d<+11.9
142BA L 1535.53 70+ 9 PS 7
142BA B 4.3 5 6.25 5
142BAS B EAV=2529.1 52
142BA G 209.1 50.50 5
142BA G 1175.93 615.3 3Q
142BA cG RI I|g=4.2% {I14} if I|g=15.3 (1984So18); I|g=10.2 {I6}
142BAxcG (1974WrZY)
142BA L 1639.60100+ 16 PS LT
142BA B 2.0 2 6.55 5
142BAS B EAV=2480.3 52
142BA G 1280.0 1 7.3 4Q
142BA L 1693.0 32+ ?
142BA B 0.5 10 9.0 9 1U
142BAS B EAV=2433.5 52
142BA G 1333.4 31.9 3D+Q -0.94 29
142BA cG RI I|g=2.0% {I3} if I|g=7.5 (1984So18)
142BA L 1781.50 10
142BA B 0.46 11 7.14 11
142BAS B EAV=2413.7 52
142BA G 1421.9 1 2.70 21D+(Q)
142BA cG MR |d=-0.09 {I10}, if J=2; if J=3, |d=+0.85 {I15}
142BA L 2127.9 30+
142BA B 0.52 6 6.96 5
142BAS B EAV=2251.1 52
142BA G 1768.3 3 1.90 12Q
142BA L 2341.77 101
142BA B 1.5 2 6.42 6
142BAS B EAV=2150.7 52
142BA G 1015.3 1 0.70 5
142BA G 1982.1 2 4.4 3D+(Q) +0.09 5
142BA cG RI from 1974WrZY
142BA G 2341.7 5 0.70 11
142BA L 2569.78 11
142BA B 0.5 1 6.81 9
142BAS B EAV=2043.7 52
142BA G 1243.3 1 1.80 16
142BA L 2882.57 16(1,2+)
142BA B 0.17 12 7.2 3
142BAS B EAV=1897.1 52
142BA G 1101.1 2 1.0 3
142BA cG RI from 1974WrZY
142BA G 2522.9 40.90 14
142BA G 2882.5 31.36 12
142BA L 3144.3823(1)
142BA B 0.6 1 6.49 8
142BAS B EAV=1774.4 52
142BA G 1818.0 31.22 13
142BA G 2784.6 50.47 11
142BA G 3144.2 50.56 12
142BA L 3261.7 4(1)
142BA B 0.5 1 6.52 9
142BAS B EAV=1719.5 52
142BA G 1935.2 41.26 14
142BA G 3261.6 50.62 10
142BA L 3283.2919(1)
142BA B 1.3 2 6.09 7
142BAS B EAV=1709.4 52
142BA G 1956.8 40.93 16
142BA G 2923.5 31.71 16
142BA G 3283.4 32.06 20
142BA L 3573.08 24(1)
142BA B 1.0 1 6.07 5
142BAS B EAV=1574.0 52
142BA G 2246.1 4 1.40 16
142BA G 3573.3 32.32 17
142BA L 4369.3 4(1)
142BA B 0.4 1 6.03 11
142BAS B EAV=1203.9 51
142BA G 4009.3 70.26 7
142BA G 4369.3 41.06 10
142BA L 5280.4 4
142BA B 0.8 1 5.07 6
142BAS B EAV=787.8 50
142BA G 2393.7 4 0.18 16 A
142BA G 2397.8 4 2.63 23 A
142BA G 2938.6 50.45 10 A