147SM 147EU EC DECAY (24.1 D) 1989AD09,1989AD10 22NDS 202203
147SM H TYP=FUL$AUT=N. Nica and B. Singh$CIT=NDS 181, 1 (2022)$CUT=9-Mar-2022$
147SM DG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
147SM2DG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
147EU P 0.0 5/2+ 24.1 D 6 1721.4 23
147EU cP E,J,T$From {+147}Eu Adopted Levels
147EU cP QP$From 2021Wa16
147SM N 0.2408 19 0.999978 6
147SM PN 4
147SM cN NR$24.08 {I19}, weighted average of %I(197|g)=24.4 {I4} (1989Ad10) and
147SM2cN %I(197|g)=23.98 {I22} (2004Mi17) (%I(|g) is per 100 (|e+|b{++})
147SM2cN decays of {+147}Eu parent)
147SM cN BR$%|a decay=0.0022 {I6} ({+147}Eu Adopted Levels, 1962Si14)
147SM c 1989Ad09, 1989Ad10: {+147}Eu source produced from deep Erbium fission
147SM2c induced by protons, E=680 MeV at JINR Dubna, and mass separation.
147SM3c Used Ge(Li)-NaI(Tl) anti-Compton spectrometer. Measured E|g, I|g,
147SM4c T{-1/2}, |d. Data from other references are extensively combined in the
147SM5c reported data
147SM c Others: 1962Al19, 1962Be40, 1962Sc09, 1964Mc17, 1964Pr07, 1965Ad05,
147SM2c 1966Av02, 1966Go26, 1967Ad03, 1968Bo47, 1970Be67, 1970Ko38, 1970Va38,
147SM2c 1971Be53, 1974GrYX, 1974HeYW, 1977Kr13, 1978VyZV, 1989Ad10, 1987Ad03,
147SM2c 1987AdZX, 1996Vy01, 1998Om01, 2001MiZT, 2004Mi17
147SM cE $I|b/I(ce(K) 197|g)=0.07 {I1} (1967Ad03), 0.10 {I2} (1965Dz09),
147SM2cE 0.022 {I4} (1964Mc17)
147SM cL E$From least-squares fit to E|g's; normalized |h{+2}=1.8 is greater
147SM2cL than critical |h{+2}=1.5
147SM cL J$From Adopted Levels
147SM cL J$|g|g(|q) correlations reported in 1978VyZV establish J for
147SM2cL several low-lying levels. Given |d(76|g)=|+0.65 {I5}, |d(121|g)=|+0.33
147SM3cL {I3}, |d(678|g)=|+0.47 {I4}, |d(857|g)=pure E1 and |d(197|g)=pure E2,
147SM4cL all from ce data, the correlations
147SM5cL (76|g)(121|g)(|q), (857|g)(197|g)(|q), and
147SM6cL (678|g)(121|g)(|q) establish J(121)=5/2, J(197)=3/2,
147SM7cL J(799)=3/2 or 5/2, with |d(76|g)=+, |d(121|g)=-, and |d(678|g)=-. The
147SM8cL correlations (601|g)(197|g)(|q) and
147SM9cL (601|g)(76|g)(|q), given the above J and |d results,
147SMAcL establish J(799)=3/2, with |d(601|g)=0.00 {I4} or -4.0 {I7}. The
147SMBcL large |d solution is ruled out by |g(|q) in in-beam work.
147SMCcL Correlation data are summarized in 1977Kr13.
147SM cG $I(K| x ray)=470 (1964Mc17), 850 (1962Sc09)
147SM cG E,RI$From 1989Ad09, except if noted
147SM cG E(k)$Differ by 3|s from calculated value
147SM cG M,MR$From Adopted Gammas. Most values were deduced in this dataset from
147SM2cG |a(K)exp normalized to |a(K)(197|g)=0.157 (E2 theory) (1989Ad09),
147SM2cG unless otherwise noted
147SM G 212.40 150.0052 9
147SM2 G %IG=0.00125 22
147SM G 490.87 20 0.012 3
147SM2 G %IG=0.0029 7
147SM G 531.6 4 0.0041 17
147SM2 G %IG=0.0010 4
147SM G 829.0 7
147SM3 G CEK=0.00033 (1965Ad05)
147SM G 867.9 7
147SM3 G CEK=0.00027 (1965Ad05)
147SM G 964.0 8
147SM3 G CEK=0.00022 (1965Ad05)
147SM G 1158.2 9 0.03 2
147SM2 G %IG=0.007 5
147SM3 G EKC AP 0.01
147SM cG EKC$based on ce(K)=0.0003 (1965Ad05)
147SM G 1172.81 120.015 2
147SM2 G %IG=0.0036 5
147SM G 1467.1 12
147SM3 G CEK=0.00020 (1965Ad05)
147SM G 1482 1 0.015 4
147SM2 G %IG=0.0036 10
147SM G 1542.0 12
147SM3 G CEK=0.00008 (1965Ad05)
147SM L 0.0 7/2- 1.073E11 Y10
147SM4 L %A=100
147SM cL T$from Adopted Levels
147SM E 0.224 17 17.7 13 8.49 4 17.9 13
147SMS E EAV=324.5 10$CK=0.8299 2$CL=0.12231 3$CM+=0.035317 8
147SM L 121.212 55/2- 0.798 NS 17
147SM cL T$weighted av: 0.80 ns {I4} (1968Bo47), 0.78 ns {I3} (1970Ko38), 0.77
147SM2cL ns {I4} (1971Be53), 0.83 ns {I3} (1978VyZV) via |g|g(t); other: 0.62
147SM3cL ns {I18} (1989Ad10)
147SM E 0.117 6 19.1 9 8.393 24 19.2 9
147SMS E EAV=271.3 10$CK=0.8347$CL=0.12346 2$CM+=0.035670 6
147SM G 121.220 17 86 1 M1+E2 -0.33 3 0.996 15
147SM2 G %IG=20.71 29
147SM cG RI$weighted average of 87 {I3} (1989Ad09) and 85.9 {I11} (2014Mi17)
147SMS G KC=0.814 12$LC=0.143 5$MC=0.0312 12
147SMS G NC=0.00702 25$OC=0.00101 3$PC=5.06E-5 8
147SM cG $|a(K)exp=0.76 {I4}
147SM cG MR$-0.33 {I3} from L1:L2:L3=63 {I9}:15 {I2}:10 (1962Sc09), sign from
147SM2cG |g|g(|q); -0.278 {I20} (1989Ad10), see also comments in Adopted Gammas
147SM2cG and Coulomb excitation. For other |d from |g|g(|q), see 1977Kr13
147SM cG K:L1+L2:L3=450 {I40}:73 {I7}:10 {I1} (1966Av02)
147SM cG |a(K)exp=1.05 {I6} (1962Sc09), 0.70 (1987Ad03).
147SM L 197.284 53/2- 1.25 NS 4
147SM cL T$weighted av. (ext. unc.) of 1.30 ns {I5} (1978VyZV), 1.26 ns {I4}
147SM2cL (1971Be53), 1.10 ns {I5} (1970Ko30), 1.35 ns {I10} (1968Bo47), 1.2 ns
147SM2cL {I1} (1964Pr07), 1.31 ns {I5} (1962Be40)
147SM cL g-factor=-0.19 {I7} (1968Bo47) |g|g(|q,H). Other: 1970Be67
147SM E 0.086 4 24.1 10 8.247 22 24.2 10C
147SMS E EAV=237.9 11$CK=0.8366$CL=0.12405 2$CM+=0.035852 6
147SM G 76.073 103.44 11M1+E2 +0.655 34 4.53 9 C
147SM2 G %IG=0.828 27
147SMS G KC=2.91 5$LC=1.26 7$MC=0.288 15
147SMS G NC=0.064 4$OC=0.0083 4$PC=0.000170 4
147SM cG E$others: 76.2 {I1} (1971Be53), 76.4 {I2} (1974HeYW)
147SM cG $|a(K)exp=1.82 {I20} (1989Ad10)
147SM cG MR$from 1989Ad10; +0.65 {I5} from L1/L3=0.75 {I10}, K/L=2.3 {I3}
147SM2cG (1966Av02); sign from |g|g(|q)
147SM cG $L1:L2:L3=82 {I12}:91 {I14}:100 (1962Sc09), 75 {I10}:107 {I15}:100
147SMxcG (1966Av02)
147SM cG |a(K)exp=2.4 {I5}
147SM G 197.299 12100 3 E2 0.218 C
147SM2 G %IG=24.08 19
147SMS G KC=0.1565 22$LC=0.0482 7$MC=0.01092 16
147SMS G NC=0.00241 4$OC=0.000320 5$PC=7.73E-6 11
147SM cG E$others: 197.25 {I15} (1974HeYW)
147SM cG $|a(K)exp=0.139 {I8}
147SM cG $L1:L2:L3=125 {I19}:113 {I19}:100 (1962Sc09), K/L=3.0 {I5} (1966Av02)
147SM L 716.62 411/2- 2.35 PS 5
147SM cL T$from Adopted Levels
147SM G 716.45 5 0.0289 22
147SM2 G %IG=0.0070 5
147SMF G FLAG=k
147SM L 798.731 43/2- 1.00 PS 21
147SM cL T$from Adopted Levels; other: <0.2 ns (1971Be53)
147SM2cL (K| x ray)(678|g)(t)
147SM E 19.9 6 7.879 19 19.9 6
147SMS E CK=0.8346$CL=0.12818 3$CM+=0.037237 9
147SM G 601.450 4 24.2 9 M1(+E2) 0.005 8 0.01354 C
147SM2 G %IG=5.83 22
147SM cG RI$weighted average of 22.2 {I7} (1989Ad09) and 24.6 {I3} (2014Mi17)
147SMS G KC=0.01156 17$LC=0.001563 22$MC=0.000334 5
147SMS G NC=7.58E-5 11$OC=1.141E-5 16$PC=7.21E-7 10
147SM cG $|a(K)exp=0.0123 {I7} (1989Ad09)
147SM cG MR$from 1989Ad10; 0.00 {I4} from A{-2}=+0.056 {I9} (1970Va38)
147SM2cG (601|g)(197|g)(|q) Others: -0.08 {I6} from A{-2}=+0.075 {I11}
147SM3cG (1970Be67), -0.03 {I9} from A{-2}=+0.064 {I19} (1966Go26)
147SM G 677.516 7 40.7 20M1+E2 -0.48 2 0.0093114 C
147SM2 G %IG=9.8 5
147SM cG RI$weighted average of 36.9 {I11} (1989Ad09) and 41.8 {I6} (2014Mi17)
147SMS G KC=0.00793 12$LC=0.001087 16$MC=0.000233 4
147SMS G NC=5.27E-5 8$OC=7.90E-6 12$PC=4.91E-7 8
147SM cG $|a(K)exp=0.0094 {I5} (1989Ad09)
147SM cG MR$from 1989Ad10; -0.47 {I4} from A{-2}=+0.126 {I4} (1970Va38), -0.47
147SM2cG {I5} from A{-2}=+0.128 {I11} (1966Go26), -0.48 {I5} from A{-2}=+0.130
147SMxcG {I8} (1970Be67) via (678|g)(121|g)(|q); see also 1962Al19, 1962Sc09,
147SMxcG 1964Mc17
147SM cG |a(K)exp=0.0087 {I10}
147SM G 798.729 5 18.3 6 E2 0.00406
147SM2 G %IG=4.41 15
147SMS G KC=0.00342 5$LC=0.000505 7$MC=0.0001089 16
147SMS G NC=2.46E-5 4$OC=3.61E-6 5$PC=2.02E-7 3
147SM cG $|a(K)exp=0.00365 {I19} (1989Ad09)
147SM L 809.355 13 9/2- 3.1 PS 5
147SM cL T$from Adopted Levels
147SM E 0.0273 19 11.20 4 0.0273 19 1U
147SMS E CK=0.81781 9$CL=0.14061 7$CM+=0.04158 3
147SM G 688.15 4 0.039 3 E2 0.00574
147SM2 G %IG=0.0094 7
147SMS G KC=0.00480 7$LC=0.000737 11$MC=0.0001595 23
147SMS G NC=3.59E-5 5$OC=5.24E-6 8$PC=2.82E-7 4
147SM cG M$from Adopted Gammas
147SM G 809.380 160.156 6 M1+E2 0.46 0.00608
147SM2 G %IG=0.0376 15
147SMS G KC=0.00519 8$LC=0.000703 10$MC=0.0001503 21
147SMS G NC=3.41E-5 5$OC=5.11E-6 8$PC=3.21E-7 5
147SM cG $|a(K)exp=0.0063 {I9} (1989Ad09)
147SM cG MR$from 1989Ad10
147SM L 1043.528 91/2-,3/2-
147SM E 0.006 LE 11.1 GE 0.006 LE
147SMS E CK=0.8298$CL=0.13171 5$CM+=0.03845 2
147SM G 244.832 170.090 4
147SM2 G %IG=0.0217 10
147SM G 846.242 110.261 9 M1+E2 -0.24 6 0.0057411
147SM2 G %IG=0.0628 22
147SMS G KC=0.00491 9$LC=0.000658 12$MC=0.0001406 24
147SMS G NC=3.19E-5 6$OC=4.80E-6 9$PC=3.04E-7 6
147SM cG $|a(K)exp=0.0048 {I6} (1989Ad09)
147SM cG MR$from 1989Ad10
147SM G 922.36 12 0.0097 21
147SM2 G %IG=0.0023 5
147SM L 1054.218 63/2+
147SM E 5.55 13 8.137 17 5.55 13
147SMS E CK=0.8296$CL=0.13193 5$CM+=0.03852 2
147SM G 255.64 15 0.0076 12
147SM2 G %IG=0.00183 29
147SM G 856.929 5 10.2 3 E1 1.39E-3 C
147SM2 G %IG=2.46 7
147SMS G KC=0.001191 17$LC=0.0001540 22$MC=3.27E-5 5
147SMS G NC=7.40E-6 11$OC=1.107E-6 16$PC=6.88E-8 10
147SM cG $|a(K)exp=0.00124 {I8} (1989Ad09)
147SM G 933.005 8 13.0 4 E1 1.18E-3 C
147SM2 G %IG=3.13 10
147SMS G KC=0.001011 15$LC=0.0001303 19$MC=2.77E-5 4
147SMS G NC=6.26E-6 9$OC=9.37E-7 14$PC=5.85E-8 9
147SM cG $|a(K)exp=0.00111 {I7} (1989Ad09)
147SM G 1054.35 240.008 5
147SM2 G %IG=0.0019 12
147SM L 1063.390 6 5/2+
147SM E 0.298 8 9.394 18 0.298 8
147SMS E CK=0.8293$CL=0.13212 5$CM+=0.03859 2
147SM G 254.09 3 0.0360 22
147SM2 G %IG=0.0087 5
147SM G 942.177 7 0.695 21E1 1.15E-3 C
147SM2 G %IG=0.167 5
147SMS G KC=0.000992 14$LC=0.0001278 18$MC=2.72E-5 4
147SMS G NC=6.14E-6 9$OC=9.19E-7 13$PC=5.74E-8 8
147SM cG $|a(K)exp=0.00160 {I21} (1989Ad09)
147SM G 1063.380 9 0.591 18E1 9.20E-4
147SM2 G %IG=0.142 4
147SMS G KC=0.000791 11$LC=0.0001015 15$MC=2.15E-5 3
147SMS G NC=4.88E-6 7$OC=7.30E-7 11$PC=4.59E-8 7
147SM cG $|a(K)exp=0.00056 {I10} (1989Ad09)
147SM L 1077.049 55/2-
147SM E 10.0 4 7.849 22 10.0 4
147SMS E CK=0.8289$CL=0.13242 6$CM+=0.03869 2
147SM G 267.74 3 0.0435 22(E2) 0.0804
147SM2 G %IG=0.0105 5
147SMS G KC=0.0615 9$LC=0.01474 21$MC=0.00330 5
147SMS G NC=0.000733 11$OC=9.99E-5 14$PC=3.24E-6 5
147SM cG $|a(K)exp=0.14 {I8} (1989Ad09)
147SM G 278.352 140.195 6 M1+E2 0.086 48 0.0985
147SM2 G %IG=0.0470 15
147SMS G KC=0.0837 12$LC=0.01165 17$MC=0.00250 4
147SMS G NC=0.000567 8$OC=8.50E-5 12$PC=5.29E-6 8
147SM cG $|a(K)exp=0.074 {I7} (1989Ad09)
147SM cG MR$from 1989Ad10
147SM G 879.761 8 0.742 23M1+E2 -0.124 7 0.00531 C
147SM2 G %IG=0.179 6
147SMS G KC=0.00454 7$LC=0.000607 9$MC=0.0001297 19
147SMS G NC=2.94E-5 5$OC=4.43E-6 7$PC=2.82E-7 4
147SM cG $|a(K)exp=0.00451 {I27} (1989Ad09)
147SM cG MR$from 1989Ad10
147SM G 955.832 5 14.5 4 M1+E2 +0.16 4 0.004347 C
147SM2 G %IG=3.49 10
147SMS G KC=0.00371 6$LC=0.000495 8$MC=0.0001057 16
147SMS G NC=2.40E-5 4$OC=3.61E-6 6$PC=2.30E-7 4
147SM cG $|a(K)exp=0.00363 {I21} (1989Ad09)
147SMxDG (1970Be67) VIA (956G)(121G)(THETA). OTHERS: 1962Sc09, 1964Mc17,
147SM3DG 1970Va38
147SM G 1077.043 6 26.1 12M1+E2 -0.071 5 0.00330
147SM2 G %IG=6.28 29
147SM cG RI$weighted average of 23.3 {I7} (1989Ad09) and 26.6 {I3} (2014Mi17)
147SMS G KC=0.00282 4$LC=0.000374 6$MC=7.99E-5 12
147SMS G NC=1.81E-5 3$OC=2.73E-6 4$PC=1.743E-7 25
147SM cG $|a(K)exp=0.00279 {I14}
147SM cG MR$from 1989Ad10
147SM L 1106.861 17 (3/2-:9/2-)
147SM E 0.0321 11 10.405 21 0.0321 11 1U
147SMS E CK=0.7990 3$CL=0.15451 18$CM+=0.04649 7
147SM G 985.34 12 0.0148 13
147SM2 G %IG=0.00356 31
147SM G 1106.863 170.118 4 (E2(+M1)) 0.0026 6
147SM2 G %IG=0.0284 10
147SMS G KC=0.0022 5$LC=0.00029 6$MC=6.3E-5 13
147SMS G NC=1.4E-5 3$OC=2.1E-6 5$PC=1.3E-7 4$IPC=4.27E-7 16
147SM cG M$from Adopted Gammas
147SM L 1172.66 5 (-)
147SM E 0.0006 6 11.9 5 0.0006 6
147SMS E CK=0.8255 1$CL=0.13498 8$CM+=0.03957 3
147SM G 1172.63 6 0.0151 18
147SM2 G %IG=0.0036 4
147SM L 1180.253 7 5/2+
147SM E 0.155 7 9.496 24 0.155 7
147SMS E CK=0.8251 1$CL=0.13522 8$CM+=0.03965 3
147SM G 982.97 5 0.0336 19
147SM2 G %IG=0.0081 5
147SM G 1059.041 120.275 9
147SM2 G %IG=0.0662 22
147SM G 1180.231 100.686 21E1 7.79E-4
147SM2 G %IG=0.165 5
147SMS G KC=0.000655 10$LC=8.37E-5 12$MC=1.776E-5 25
147SMS G NC=4.02E-6 6$OC=6.03E-7 9$PC=3.80E-8 6$IPC=1.83E-5 3
147SM cG $|a(K)exp=0.00066 {I16} (1989Ad09)
147SM L 1219.797 11 1/2+
147SM G 165.558 28 0.0418 26
147SM2 G %IG=0.0101 6
147SM G 421.064 17 0.083 14
147SM2 G %IG=0.0200 34
147SM G 1022.47 4 0.0344 19
147SM2 G %IG=0.0083 5
147SM L 1317.67710 1/2-,3/2-,5/2-
147SM E 0.184 6 9.143 20 0.184 6
147SMS E CK=0.8167 2$CL=0.14150 15$CM+=0.04181 5
147SM G 518.96 3 0.068 4 M1 0.0196
147SM2 G %IG=0.0164 10
147SMS G KC=0.01671 24$LC=0.00227 4$MC=0.000486 7
147SMS G NC=0.0001103 16$OC=1.658E-5 24$PC=1.046E-6 15
147SM cG $|a(K)exp=0.018 {I4} (1989Ad09)
147SM G 1120.387 9 0.691 21M1(+E2) -0.018 17 0.00301
147SM2 G %IG=0.166 5
147SMS G KC=0.00258 4$LC=0.000341 5$MC=7.28E-5 11
147SMS G NC=1.652E-5 24$OC=2.49E-6 4$PC=1.591E-7 23$IPC=7.24E-7 11
147SM cG $|a(K)exp=0.026 {I6} (1989Ad09)
147SM cG MR$from 1989Ad10
147SM L 1317.85913 5/2-,7/2-,9/2-
147SM E 0.130 5 9.294 22 0.130 5
147SMS E CK=0.8167 2$CL=0.14152 15$CM+=0.04182 5
147SM G 1317.853 130.539 17M1 0.00209
147SM2 G %IG=0.130 4
147SMS G KC=0.001766 25$LC=0.000233 4$MC=4.97E-5 7
147SMS G NC=1.126E-5 16$OC=1.698E-6 24$PC=1.088E-7 16$IPC=2.57E-5 4
147SM cG $|a(K)exp=0.0022 {I5} (1989Ad09)
147SM L 1318.07612 3/2-,5/2-
147SM E 0.237 8 9.032 21 0.237 8
147SMS E CK=0.8166 2$CL=0.14153 15$CM+=0.04182 5
147SM G 263.95 15 0.0038 10
147SM2 G %IG=0.00092 24
147SM G 1196.858 110.98 3 E2 1.72E-3 C
147SM2 G %IG=0.236 7
147SMS G KC=0.001462 21$LC=0.000200 3$MC=4.29E-5 6
147SMS G NC=9.70E-6 14$OC=1.444E-6 21$PC=8.71E-8 13$IPC=5.38E-6 8
147SM cG $|a(K)exp=0.00100 {I19} (1989Ad09)
147SM L 1349.650 16(3/2-,5/2-)
147SM E 0.0228 7 9.970 20 0.0228 7
147SMS E CK=0.8137 3$CL=0.14374 18$CM+=0.04259 7
147SM G 286.282 20 0.0504 19
147SM2 G %IG=0.0121 5
147SM G 295.40 6 0.0123 15
147SM2 G %IG=0.0030 4
147SM G 1152.330 260.0320 15
147SM2 G %IG=0.0077 4
147SM L 1449.11311 7/2-
147SM E 0.289 9 8.558 21 0.289 9
147SMS E CK=0.7988 5$CL=0.1548 4$CM+=0.04642 13
147SM G 385.69 100.0094 22
147SM2 G %IG=0.0023 5
147SM G 732.33 5 0.0291 22
147SM2 G %IG=0.0070 5
147SMF G FLAG=k
147SM G 1251.841 240.291 10
147SM2 G %IG=0.0701 25
147SM G 1327.98 5 0.050 7
147SM2 G %IG=0.0120 17
147SM G 1449.106 120.82 3 M1 1.72E-3
147SM2 G %IG=0.197 7
147SMS G KC=0.001420 20$LC=0.000187 3$MC=3.98E-5 6
147SMS G NC=9.03E-6 13$OC=1.362E-6 19$PC=8.73E-8 13$IPC=6.37E-5 9
147SM cG $|a(K)exp=0.0016 {I3} (1989Ad09)
147SM L 1453.220 8 3/2-
147SM E 1.16 3 7.939 20 1.16 3
147SMS E CK=0.7979 6$CL=0.1555 4$CM+=0.04666 14
147SM G 273.14 160.0082 16
147SM2 G %IG=0.0020 4
147SM G 389.90 8 0.0150 16
147SM2 G %IG=0.0036 4
147SM G 654.55 110.0161 24
147SM2 G %IG=0.0039 6
147SM G 1255.930 8 3.44 10M1+E2 0.0019 4 C
147SM2 G %IG=0.828 25
147SMS G KC=0.0017 4$LC=0.00022 4$MC=4.7E-5 9
147SMS G NC=1.07E-5 20$OC=1.6E-6 3$PC=1.00E-7 22$IPC=1.36E-5 5
147SM cG $|a(K)exp=0.0015 {I4} (1989Ad09)
147SM G 1331.997 131.24 4 M1+E2 1.7 11 0.0016 3 C
147SM2 G %IG=0.299 10
147SMS G KC=0.0013 3$LC=0.00018 4$MC=3.8E-5 7
147SMS G NC=8.6E-6 16$OC=1.28E-6 24$PC=8.0E-8 17$IPC=2.75E-5 11
147SM cG M,MR$from Adopted Gammas; pure M1 from |a(K)exp
147SM cG $|a(K)exp=0.0022 {I5} (1989Ad09)
147SM G 1453.24 4 0.096 4
147SM2 G %IG=0.0231 10
147SM L 1471.41715 3/2-,5/2-,7/2-
147SM E 0.126 4 8.831 22 0.126 4
147SMS E CK=0.7934 7$CL=0.1588 5$CM+=0.04781 17
147SM G 1350.198 14 0.524 16M1+E2 0.0017 3
147SM2 G %IG=0.126 4
147SMS G KC=0.0014 3$LC=0.00019 4$MC=4.0E-5 7
147SMS G NC=9.1E-6 16$OC=1.36E-6 25$PC=8.6E-8 18$IPC=3.23E-5 13
147SM cG $|a(K)exp=0.0014 {I3} (1989Ad09)
147SM L 1471.885 14 -
147SM E 0.0475 15 9.252 21 0.0475 15
147SMS E CK=0.7933 7$CL=0.1589 5$CM+=0.04785 17
147SM G 1274.592 140.186 6 E2 1.53E-3 C
147SM2 G %IG=0.0448 15
147SMS G KC=0.001291 18$LC=0.0001754 25$MC=3.75E-5 6
147SMS G NC=8.48E-6 12$OC=1.265E-6 18$PC=7.69E-8 11$IPC=1.606E-5 23
147SM cG $|a(K)exp=0.0012 {I4} (1989Ad09)
147SM G 1471.90 4 0.0110 5
147SM2 G %IG=0.00265 12
147SM L 1548.634 7 3/2+,5/2+
147SM E 0.624 11 7.739 22 0.624 11
147SMS E CK=0.7598 17$CL=0.1837 13$CM+=0.0566 5
147SM G 328.828 130.139 4 M1 0.0635
147SM2 G %IG=0.0335 10
147SMS G KC=0.0540 8$LC=0.00746 11$MC=0.001598 23
147SMS G NC=0.000362 5$OC=5.44E-5 8$PC=3.41E-6 5
147SM cG $|a(K)exp=0.085 {I7} (1989Ad09)
147SM G 368.360 120.285 9 M1 0.0472
147SM2 G %IG=0.0686 22
147SMS G KC=0.0401 6$LC=0.00552 8$MC=0.001183 17
147SMS G NC=0.000268 4$OC=4.03E-5 6$PC=2.53E-6 4
147SM cG $|a(K)exp=0.044 {I4} (1989Ad09)
147SM G 471.600 120.212 7 E1 0.00493
147SM2 G %IG=0.0510 17
147SMS G KC=0.00422 6$LC=0.000560 8$MC=0.0001194 17
147SMS G NC=2.69E-5 4$OC=3.99E-6 6$PC=2.39E-7 4
147SM cG $|a(K)exp=0.0059 {I13} (1989Ad09)
147SM G 494.419 160.150 5 M1 0.0221
147SM2 G %IG=0.0361 12
147SMS G KC=0.0189 3$LC=0.00257 4$MC=0.000550 8
147SMS G NC=0.0001248 18$OC=1.88E-5 3$PC=1.183E-6 17
147SM cG $|a(K)exp=0.030 {I6} (1989Ad09)
147SM G 505.121 110.351 11E1 0.00422
147SM2 G %IG=0.0845 27
147SMS G KC=0.00361 5$LC=0.000478 7$MC=0.0001018 15
147SMS G NC=2.30E-5 4$OC=3.41E-6 5$PC=2.05E-7 3
147SM cG $|a(K)exp=0.0028 {I4} (1989Ad09)
147SM G 749.895 170.98 3 E1 0.00181 C
147SM2 G %IG=0.236 7
147SMS G KC=0.001552 22$LC=0.000202 3$MC=4.29E-5 6
147SMS G NC=9.70E-6 14$OC=1.448E-6 21$PC=8.93E-8 13
147SM cG $|a(K)exp=0.0021 {I4} (1989Ad09)
147SM G 1427.408 170.441 14(E1) 7.01E-4 C
147SM2 G %IG=0.1062 35
147SMS G KC=0.000470 7$LC=5.96E-5 9$MC=1.264E-5 18
147SMS G NC=2.86E-6 4$OC=4.30E-7 6$PC=2.73E-8 4$IPC=0.0001561 22
147SM cG $|a(K)exp=0.0014 {I4} (1989Ad09)
147SM cG M$from 1989Ad10; they propose M1(E1), but M1 is not compatible with
147SM2cG the decay scheme
147SM G 1548.50 160.0017 3
147SM2 G %IG=0.00041 7
147SM L 1600.937 21 3/2(-),5/2(+)
147SM E 0.036 5 8.55 7 0.036 5
147SMS E CK=0.697 5$CL=0.230 4$CM+=0.0731 13
147SM G 380.83 25 0.034 10
147SM2 G %IG=0.0082 24
147SM G 420.69 4 0.045 14
147SM2 G %IG=0.0108 34
147SM G 428.24 7 0.0127 20
147SM2 G %IG=0.0031 5
147SM G 537.22 160.009 3
147SM2 G %IG=0.0022 7
147SM G 1479.71 3 0.0161 6
147SM2 G %IG=0.00388 15
147SM G 1601.00 5 0.0308 12
147SM2 G %IG=0.00742 29
147SM L 1641.95 7
147SM E 0.0015911 9.32 6 0.00159 11
147SMS E CK=0.524 21$CL=0.356 15$CM+=0.120 6
147SM G 1520.58 130.0016 3
147SM2 G %IG=0.00039 7
147SM G 1641.98 7 0.0050 3
147SM2 G %IG=0.00120 7