143PR 143CE B- DECAY 1989KU13 12NDS 201203
143PR H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 113, 715 (2012)$
143PR2 H CUT=31-May-2011$
143PR c Measured: |g rays (1989Ku13,1982Ge03,1975Da20,1971Lu05);
143PR2c |g|g coincidence (1975Da20,1971Lu05,1968Gr19);
143PR3c |g|g(|q) (1975Ch31,1974Ve07,1966Su06); |b|g
143PR4c (1977Ra18,1968Me01,1956Ma16); shape of |b{+-} (1977Ra18,1984Ve12); ce
143PR5c (1967Ba23); |b|g(|q) (1968Ra31,1970Ra36); |b|g(|q,H)
143PR6c (1966Zm01,1964Ko15); |g|g(|q,H) (1974Ve07), |g|g(|q,H,t)
143PR7c (1977Ne12). Others: 1966Ba17, 1966Ar14, 1965Ma43, 1964Si24, 1966Go20,
143PRxc 1963Ra07, 1963Gr38, 1983Ve11
143PR c Measured: E|b{+-}=540 {I30}, 738 {I13}, 950 {I30}, 1100 {I25} |b|g
143PR2c (1968Me01); 1110 {I2} (statistical shape) |b|g (1977Ra18,1984Ve12).
143PR3c Others: |?200 (6%), 500 {I30} (12%), 740 {I150} (5%), 1125 {I20} (40%),
143PR4c 1400 {I20} (37%) (1956Ma16); see also 1952Ko27
143PR c |b{+-} feeding was determined from balance of I|g for
143PR2c each level and I(293|g)=42.8% {I4} (1982Ge03)
143PR DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
143PR cG M |a(K)exp were normalized to |a(K)(293|g)=0.0524 (M1+E2
143PR2cG |d=0.77 {I10}) with ce from 1971Ba40 and I|g from 1989Ku13; see also
143PRxcG 1967Ba23
143PR dG MR Existing data on |g|g(|q) do not lead to unambiguous
143PR2dG conclusions on |d (see 1975Ch31,1974Ve07,1966Su06)
143PR cL J Adopted values
143CE P 0.0 3/2- 33.039 H 6 1461.9 18
143PR N 0.428 4 1.0 1.0
143PR cN NR I(293|g)=42.8% {I4} (1982Ge03)
143PR L 0.0 7/2+ 13.57 D 2
143PR2 L %B-=100
143PR B 1461.4 180.2 LE 10.8 GE 1U
143PRS B EAV=538.11 75
143PR L 57.356 75/2+ 4.14 NS 5
143PR cL T weighted average: 4.20 ns {I7} (1963Bo22), 4.17 ns {I9}
143PR2cL (1963Gr38), 4.16 ns {I7} (1965Na06), 4.05 ns {I12} (1969MuZO)
143PR dL MOMM1 +3.28 {I13} (1964Ko15). Other: +2.60 {I20} (1966Zm01)
143PR B 1400 2035 3 7.7
143PRS B EAV=510.5 8
143PR G 57.356 7 27.4 8M1+E2 +0.039 8 6.47
143PR DG $BM1W=0.00371 11$BE2W=1.0 4
143PRS G KC=5.48 8$LC=0.777 13$MC=0.164 3$NC+=0.0429 7
143PRS G NC=0.0366 6$OC=0.00587 9$PC=0.000422 6
143PR cG M |a(K)exp=5.64 {I34}; L1:L2:L3=1000:91.0 {I17}:27.2 {I7}
143PRxcG (1968Ge02)
143PR cG MR from L1:L2:L3 (1968Ge02), sign from |g|g(|q) (1975Ch31)
143PR cG RI 12.3% {I3} (1982Ge03)
143PR L 350.622 43/2+ 59 PS 10
143PR cL T average: 49 ps {I7} (1966Go20), 68 ps {I8} (1969MuZO)
143PR B 1110 248.2 5 7.2
143PRS B EAV=387.4 8
143PR cB E from 1977Ra18
143PR G 293.266 2 100.0 3M1+E2 +0.77 10 0.0620 12
143PR DG $BM1W=0.0081 16$BE2W=32 8
143PRS G KC=0.0518 12$LC=0.00806 14$MC=0.00172 3$NC+=0.000445 8
143PRS G NC=0.000382 7$OC=5.98E-5 9$PC=3.76E-6 11
143PR cG RI 42.8% {I4} (1982Ge03). Others: 42.6% (1957Ma16), 41.3%
143PRxcG (1971Lu05)
143PR cG M K/L=6.04 {I13}, L1:L2:L3=1000:177 {I10}:14 {I6} (1968Ge02),
143PR2cG |a(K)exp=0.053 {I4} (1989Ku13)
143PR cG MR from L1:L2:L3 (1968Ge02), sign from |g|g(|q) (1975Ch31).
143PR2cG Others: 1974Ve07, 1966Su06.
143PR G 350.619 3 7.55 6E2 0.0312
143PR DG $BE2W=2.7 5
143PRS G KC=0.0253 4$LC=0.00467 7$MC=0.001008 15$NC+=0.000258 4
143PRS G NC=0.000222 4$OC=3.38E-5 5$PC=1.691E-6 24
143PR cG M |a(K)exp=0.025 {I2} (1989Ku13)
143PR L 490.362 77/2+
143PR B 950 300.10 6 10.2 1U
143PRS B EAV=341.8 7
143PR G 139.742 170.18 1E2 0.649
143PRS G KC=0.441 7$LC=0.1634 23$MC=0.0365 6$NC+=0.00907 13
143PRS G NC=0.00791 11$OC=0.001128 16$PC=2.47E-5 4
143PR cG M K/L=2.45 {I12} (1967Ba23), K/L=2.7 (theory,E2)
143PR G 432.999 6 0.371 7M1 0.0243
143PRS G KC=0.0208 3$LC=0.00276 4$MC=0.000580 9$NC+=0.0001523 22
143PRS G NC=0.0001298 19$OC=2.10E-5 3$PC=1.569E-6 22
143PR cG M |a(K)exp=0.022 {I4}
143PR G 490.368 5 5.05 5M1 0.01771
143PRS G KC=0.01517 22$LC=0.00201 3$MC=0.000422 6$NC+=0.0001107 16
143PRS G NC=9.43E-5 14$OC=1.524E-5 22$PC=1.144E-6 16
143PR cG M |a(K)exp=0.015 {I2}
143PR L 614.22 25/2+,7/2+
143PR B 0.026 4 10.0
143PRS B EAV=281.6 7
143PR G 556.87 1 0.074 4E2+(M1) 0.0107 23
143PRS G KC=0.0091 20$LC=0.00128 19$MC=0.00027 4$NC+=7.0E-5 10
143PRS G NC=6.0E-5 9$OC=9.6E-6 15$PC=6.6E-7 17
143PR cG M |a(K)exp=0.007 {I4},
143PR2cG |a(K)=0.01122 (M1), |a(K)=0.00708 (E2)
143PR G 614.22 30.028 3
143PR L 721.923 15/2+
143PR B 738 1313.4 2 7.1
143PRS B EAV=240.0 7
143PR G 231.550 2 4.8 1E2(+M1) 0.121 5
143PRS G KC=0.098 9$LC=0.018 4$MC=0.0038 8$NC+=0.00098 19
143PRS G NC=0.00085 17$OC=0.000130 20$PC=6.9E-6 13
143PR cG M |a(K)exp=0.085 {I13},
143PR2cG |a(K)=0.1083 (M1), |a(K)=0.0900 (E2)
143PR G 371.29 3 0.058 6M1 0.0360
143PRS G KC=0.0308 5$LC=0.00411 6$MC=0.000865 13$NC+=0.000227 4
143PRS G NC=0.000193 3$OC=3.12E-5 5$PC=2.33E-6 4
143PR cG M |a(K)exp=0.041 {I6}
143PR G 664.571 1513.3 1M1+(E2)
143PRS G CC=0.0069 15$KC=0.0059 13$LC=0.00080 14$MC=0.00017 3$NC+=4.4E-5 8
143PRS G NC=3.8E-5 7$OC=6.0E-6 11$PC=4.3E-7 11
143PR cG M |a(K)exp=0.0065 {I10},
143PR2cG |a(K)=0.00726 (M1), |a(K)=0.00456 (E2)
143PR G 721.929 1312.6 1M1
143PRS G CC=0.00682 10$KC=0.00585 9$LC=0.000765 11$MC=0.0001604 23$NC+=4.21E-5 6
143PRS G NC=3.59E-5 5$OC=5.80E-6 9$PC=4.38E-7 7
143PR cG M |a(K)exp=0.0071 {I7}
143PR L 740.26 21/2+
143PR B 0.037 3 9.6
143PRS B EAV=233.1 7
143PR G 389.64 2 0.085 4M1 0.0318
143PRS G KC=0.0272 4$LC=0.00363 5$MC=0.000762 11$NC+=0.000200 3
143PRS G NC=0.0001705 24$OC=2.75E-5 4$PC=2.06E-6 3
143PR cG M |a(K)exp|>0.008 {I2}
143PR G 682.82 90.020 4
143PR L 787.33 9
143PR G 729.87 80.007 1
143PR G 787.40 90.006 1
143PR L 848.42 2
143PR B 0.058 3 9.2
143PRS B EAV=192.8 7
143PR G 357.8 20.0014 5
143PR G 497.81 20.104 6
143PR G 791.07 20.031 1
143PR L 937.82 13/2+,5/2+
143PR B 1.37 2 7.6
143PRS B EAV=160.7 7
143PR G 197.6 20.006 3
143PR G 447.45 2 0.140 6[E2] 0.01532
143PRS G KC=0.01264 18$LC=0.00211 3$MC=0.000451 7$NC+=0.0001160 17
143PRS G NC=9.98E-5 14$OC=1.541E-5 22$PC=8.70E-7 13
143PR cG M$M1,E2 from |a(K)exp=0.017 {I5} (for 446.02|g+447.45|g).
143PR2cG E2 from |DJ|p
143PR G 587.20 2 0.623 6M1 0.01130
143PRS G KC=0.00969 14$LC=0.001275 18$MC=0.000268 4$NC+=7.03E-5 10
143PRS G NC=5.99E-5 9$OC=9.67E-6 14$PC=7.28E-7 11
143PR cG M |a(K)exp=0.010 {I1}
143PR G 880.46 12.41 2M1
143PRS G CC=0.00424 6$KC=0.00364 5$LC=0.000473 7$MC=9.90E-5 14$NC+=2.60E-5 4
143PRS G NC=2.22E-5 4$OC=3.59E-6 5$PC=2.72E-7 4
143PR cG M |a(K)exp=0.0047 {I4}
143PR G 937.82 10.061 3E2
143PRS G CC=0.00244 4$KC=0.00208 3$LC=0.000286 4$MC=6.01E-5 9$NC+=1.569E-5 22
143PRS G NC=1.340E-5 19$OC=2.14E-6 3$PC=1.494E-7 21
143PR cG M |a(K)exp=0.0022 {I8}
143PR L 1014.3 1
143PR B 0.0043 8 9.8 1U
143PRS B EAV=149.7 7
143PR G 523.0 50.004 1
143PR G 956.9 10.003 1
143PR G 1014.3 30.003 1
143PR L 1060.21 25/2+
143PR B 0.16 1 8.1
143PRS B EAV=118.5 6
143PR G 122.4 1 0.020 7E2 1.033
143PRS G KC=0.663 10$LC=0.289 5$MC=0.0648 10$NC+=0.01607 24
143PRS G NC=0.01405 21$OC=0.00198 3$PC=3.61E-5 6
143PR cG M K/L=2.14 {I10} (1967Ba23,1971Ba40)
143PR G 272.9 20.02 LE
143PR G 338.3 20.002 1
143PR G 446.02 90.035 7M1,E2 0.019 4
143PRS G KC=0.016 4$LC=0.00234 22$MC=0.00050 5$NC+=0.000129 12
143PRS G NC=0.000110 10$OC=1.75E-5 20$PC=1.2E-6 3
143PR cG M |a(K)exp=0.017 {I5} (for 446.02|g+447.45|g)
143PR G 569.91 90.012 4
143PR G 709.59 50.020 3
143PR G 1002.85 10.176 4M1
143PRS G CC=0.00312 5$KC=0.00268 4$LC=0.000347 5$MC=7.26E-5 11$NC+=1.91E-5 3
143PRS G NC=1.624E-5 23$OC=2.63E-6 4$PC=2.00E-7 3
143PR cG M |a(K)exp=0.0028 {I6}
143PR G 1060.22 20.085 3M1+(E2)
143PRS G CC=0.0023 5$KC=0.0020 4$LC=0.00026 5$MC=5.5E-5 10$NC+=1.43E-5 25
143PRS G NC=1.22E-5 21$OC=2.0E-6 4$PC=1.5E-7 3
143PR cG M |a(K)exp=0.0022 {I6}
143PR L 1156.94 21/2+,3/2+
143PR B 0.036 2 8.4
143PRS B EAV=86.9 6
143PR G 416.57 100.016 3
143PR G 806.34 20.067 2M1+E2
143PRS G CC=0.0043 9$KC=0.0037 8$LC=0.00050 9$MC=0.000104 18$NC+=2.7E-5 5
143PRS G NC=2.3E-5 4$OC=3.7E-6 7$PC=2.7E-7 7
143PR cG M |a(K)exp=0.0044 {I6}
143PR L 1160.58 2(3/2)+
143PR B 0.46 1 7.3
143PRS B EAV=85.8 6
143PR G 438.43 80.010 2
143PR G 670.12 70.019 4
143PR G 809.98 20.073 2
143PR G 1103.25 20.97 1M1
143PRS G CC=0.00250 4$KC=0.00215 3$LC=0.000277 4$MC=5.79E-5 9$NC+=1.563E-5 22
143PRS G NC=1.297E-5 19$OC=2.10E-6 3$PC=1.598E-7 23$IPC=4.02E-7 6
143PR cG M |a(K)exp=0.0023 {I4}
143PR G 1160.58 60.0056 7
143PR L 1381.84 35/2+,3/2+
143PR B 0.034 2 6.6
143PRS B EAV=20.8 5
143PR G 594.5 40.005 LE
143PR G 767.70 60.0074 8
143PR G 891.47 70.019 2
143PR G 1031.22 30.047 2M1
143PRS G CC=0.00292 4$KC=0.00251 4$LC=0.000324 5$MC=6.79E-5 10$NC+=1.785E-5 25
143PRS G NC=1.520E-5 22$OC=2.46E-6 4$PC=1.87E-7 3
143PR cG M |a(K)exp=0.0037 {I12}
143PR G 1324.48 30.0037 1
143PR G 1382 10.0009 3
143PR L 1397.40 43/2+,5/2+
143PR B 0.017 1 6.6
143PRS B EAV=16.6 5
143PR G 675.5 50.002 1
143PR G 907.1 10.003 1
143PR G 1046.78 40.028 2M1
143PRS G CC=0.00282 4$KC=0.00243 4$LC=0.000313 5$MC=6.56E-5 10$NC+=1.723E-5 25
143PRS G NC=1.468E-5 21$OC=2.38E-6 4$PC=1.81E-7 3
143PR cG M |a(K)exp=0.0040 {I15}
143PR G 1340.1 10.0072 3