99RH 99PD EC DECAY 1969PH01 201707 201709
99RH H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 145, 25 (2017)$
99RH2 H CUT=1-Jul-2017$
99RH c Measured: |g, |b{++}, |b|g (1969Ph01), |g, ce (1972Ga21). Other:
99RHxc 1970An01
99RH c |b singles and coincidence spectra measured by 1969Ph01.
99RH C EC feedings are from G-ray transition intensity balances,
99RH2C unless indicated otherwise.
99RH DG Modified by E. Browne (June 16, 2010). BRICC, GABS.
99RH2DG Recalculated NR.
99RH c 1972Ga21: Measured Ice. Ge(Li), magnetic spectrometer.
99RH cG M,MR$From 1972Ga21; |a(K)exp normalized to |a(K)exp(212-keV |g in
99RH2cG {+121}Te)=0.0842 {I14}
99RH CL J,T From Adopted Levels
99RH DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
99RH CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
99RH2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
99PD P 0.0 (5/2)+ 21.4 M 2 3398 8
99RH N 0.73 14 1.00
99RH CN NR Deduced by evaluators assuming no B+ feeding to GS (1/2-)
99RH2CN based on LOGFT systematics (I|b(g.s.)=0.37 {I37} as
99RH3CN deduced from log| {If{+1u}t}>8.5), and also no B+ feeding to the
99RH4CN 64-keV (9/2+) level. SUMOF (TI) to GS and 1st excited state=100.
99RH PN 3
99RH L 0.0 (1/2-) 16.1 D 2
99RH L 64.2 49/2+ 4.7 H 1 M
99RH L 200.3 4(7/2)+
99RH E 36 7 13 2 5.26 8 49 9
99RHS E EAV=972 4 $CK=0.2336 20 $CL=0.02891 25 $CM+=0.00687 6
99RH G 136.0 1 100 M1(+E2) 0.2 2 0.16 8
99RH2 G %IG=73 5
99RHS G KC=0.136 24$LC=0.0174 52$MC=0.00325 98
99RHS G NC=5.3E-4 15$OC=2.5E-5 4
99RH L 427.33 10(5/2-)
99RH E 0.44 15 0.23 8 6.95 15 0.67 23
99RHS E EAV=868 4 $CK=0.296 3 $CL=0.0367 4 $CM+=0.00873 8
99RH G 427.3 1 2.70 15 E2(+M3) 0.07 10 0.0094 18
99RH2 G %IG=2.0 4
99RHS G KC=0.0081 15$LC=0.00105 22$MC=0.00020 5
99RHS G NC=3.2E-5 7$OC=1.4E-6 4
99RH L 463.9 4(5/2)+
99RH E 5.6 12 3.1 6 5.81 9 8.7 18
99RHS E EAV=851 4 $CK=0.308 3 $CL=0.0382 4 $CM+=0.00907 8
99RH G 263.6 1 20.9 10M1(+E2) 0.4 4 0.028 5
99RH2 G %IG=15 3
99RHS G KC=0.024 4$LC=0.0030 7$MC=0.00055 13
99RHS G NC=9.1E-5 20$OC=4.4E-6 6
99RH G 399.8 1 4.9 3 E2(+M3) 0.06 6 0.0115 11
99RH2 G %IG=3.6 7
99RHS G KC=0.0099 9$LC=0.00129 14$MC=0.000240 25
99RHS G NC=3.9E-5 4$OC=1.72E-6 19
99RH L 850.7 4(7/2)+
99RH E 3.2 6 3.6 7 5.62 9 6.8 13
99RHS E EAV=675 4 $CK=0.460 4 $CL=0.0571 5 $CM+=0.01357 11
99RH G 386.7 1 3.90 35M1(+E2) 1.0 10 0.0109 15
99RH2 G %IG=2.9 6
99RHS G KC=0.0095 12$LC=0.00118 21$MC=0.00022 4
99RHS G NC=3.6E-5 6$OC=1.69E-6 15
99RH G 650.4 5 1.8 2 (M1,E2) 0.00273
99RH2 G %IG=1.3 3
99RHS G KC=0.00238 4$LC=0.000282 6$MC=5.24E-5 12
99RHS G NC=8.66E-6 16$OC=4.30E-7 13
99RH G 786.6 2 4.6 2 M1,E2 0.00172 6
99RH2 G %IG=3.4 7
99RHS G KC=0.00150 6$LC=0.000176 4$MC=3.26E-5 7
99RHS G NC=5.41E-6 13$OC=2.72E-7 14
99RH L 874.0 4(5/2)+
99RH E 1.9 5 2.3 5 5.81 11 4.2 10
99RHS E EAV=665 4 $CK=0.470 4 $CL=0.0584 5 $CM+=0.01389 11
99RH G 410.3 2 1.8 1 M1 0.00824
99RH2 G %IG=1.32 25
99RHS G KC=0.00721 11$LC=0.000844 12$MC=0.0001568 22
99RHS G NC=2.60E-5 4$OC=1.331E-6 19
99RH G 673.4 2 9.5 7 M1,E2 0.00250 5
99RH2 G %IG=7.0 14
99RHS G KC=0.00219 5$LC=0.000258 5$MC=4.79E-5 9
99RHS G NC=7.93E-6 12$OC=3.95E-7 13
99RH G 809.8 2 2.8 2
99RH2 G %IG=2.0 4
99RH L 1018.0 4(7/2)
99RH E 0.29 8 0.48 13 6.44 12 0.77 21
99RHS E EAV=600 4 $CK=0.539 4 $CL=0.0670 5 $CM+=0.01593 12
99RH G 817.6 2 1.5 1
99RH2 G %IG=1.10 21
99RH G 954.0 5 0.24 9
99RH2 G %IG=0.18 8
99RH L 1110.8 4(5/2+,7/2)
99RH E 0.27 7 0.55 14 6.34 12 0.82 21
99RHS E EAV=559 4 $CK=0.585 4 $CL=0.0727 5 $CM+=0.01730 12
99RH G 236.0 100.23 4
99RH2 G %IG=0.17 5
99RH G 646.1 7 0.81 6
99RH2 G %IG=0.59 12
99RH G 910.9 3 0.39 9
99RH2 G %IG=0.29 9
99RH G 1046.5 3 0.60 6
99RH2 G %IG=0.44 9
99RH L 1167.4 4(5/2)+
99RH E 0.2 1 0.4 2 6.43 22 0.6 3 ?
99RHS E EAV=534 4 $CK=0.613 4 $CL=0.0762 5 $CM+=0.01813 12
99RH G 293.3 4 1.8 3 [M1,E2] 0.025 6
99RH2 G %IG=1.3 4
99RHS G KC=0.021 5$LC=0.00278 81$MC=5.2E-4 16
99RHS G NC=8.5E-5 24$OC=3.7E-6 7
99RH cG M (E1) from |a(K)exp in conflict with adopted |p which requires
99RH2cG no parity change.
99RH G 702.7 3 0.33 4
99RH2 G %IG=0.24 6
99RH G 740.0 100.23 4
99RH2 G %IG=0.17 5
99RH G 967.1 2 1.3 1
99RH2 G %IG=0.95 19
99RH L 1366.3 4(5/2+)
99RH E 0.11 4 0.47 15 6.30 15 0.58 19
99RHS E EAV=446 4 $CK=0.706 4 $CL=0.0880 5 $CM+=0.02095 11
99RH G 1165.6 4 1.03 15
99RH2 G %IG=0.75 18
99RH G 1302.2 7 0.32 10
99RH2 G %IG=0.23 9
99RH L 1527.4 3(3/2)+
99RH E 0.13 4 1.1 4 5.88 15 1.2 4
99RHS E EAV=375 4 $CK=0.770 3 $CL=0.0962 4 $CM+=0.02289 9
99RH G 653.1 3 3.5 2
99RH2 G %IG=2.6 5
99RH G 1063.8 100.10 4
99RH2 G %IG=0.07 4
99RH G 1099.6 4 1.4 2
99RH2 G %IG=1.02 24
99RH G 1528.1 6 0.39 7
99RH2 G %IG=0.29 8
99RH L 1535.7 4(5/2,7/2)+
99RH E 0.56 11 4.6 9 5.23 9 5.2 10
99RHS E EAV=372 4 $CK=0.773 3 $CL=0.0965 4 $CM+=0.02298 9
99RH G 368.0 3 0.20 3 E2(+M3) 0.1 1 0.016 4
99RH2 G %IG=0.15 4
99RHS G KC=0.014 4$LC=0.00181 49$MC=3.37E-4 93
99RHS G NC=5.5E-5 16$OC=2.38E-6 70
99RH CG EKC=0.016 2. Uncertainty not given by the author
99RH2CG but assumed by the evaluators for deducing MR.
99RH G 684.8 4 0.18 3
99RH2 G %IG=0.13 4
99RH G 1071.7 3 1.22 9
99RH2 G %IG=0.89 18
99RH G 1335.6 4 6.4 3
99RH2 G %IG=4.7 9
99RH G 1471.2 9 0.31 9
99RH2 G %IG=0.23 8
99RH L 1760.8 4(5/2,7/2)+
99RH E 0.032 8 0.82 19 5.88 11 0.85 20
99RHS E EAV=274 4 $CK=0.8330 16 $CL=0.10434 21 $CM+=0.02485 5
99RH G 886.5 3 0.46 8 &
99RH2 G %IG=0.34 9
99RH G 1298.0 8 0.11 5
99RH2 G %IG=0.08 4
99RH G 1559.6 6 0.22 5
99RH2 G %IG=0.16 5
99RH G 1697.3 6 0.76 10
99RH2 G %IG=0.56 13
99RH L 1814.5 7(3/2+,5/2+,7/2+)
99RH E 0.018 4 0.64 14 5.95 10 0.66 14
99RHS E EAV=251 4 $CK=0.8421 13 $CL=0.10557 17 $CM+=0.02514 4
99RH G 1350.9 100.24 6
99RH2 G %IG=0.18 6
99RH G 1614.1 6 0.66 8
99RH2 G %IG=0.48 11
99RH L 1969.1 5(5/2,7/2)+
99RH E 0.0096 25 1.2 3 5.59 11 1.2 3
99RHS E EAV=184 4 $CK=0.8584 $CL=0.1079 $CM+=0.02571
99RH G 1095.1 6 0.33 10
99RH2 G %IG=0.24 9
99RH G 1504.8 5 0.74 9
99RH2 G %IG=0.54 12
99RH G 1904.7 5 0.90 15
99RH2 G %IG=0.66 16
99RH L 2040.0 4
99RH E 0.0001 4 0.04 12 7.0 13 0.04 12 ?
99RHS E EAV=153 4 $CK=0.8619 $CL=0.1085 $CM+=0.02586
99RH G 1022.1 3 0.38 13
99RH2 G %IG=0.28 11
99RH G 1840.0 8 0.26 7
99RH2 G %IG=0.19 7
99RH L 2051.5 4(3/2,5/2,7/2)+
99RH E 0.0037 8 1.15 23 5.56 9 1.15 23
99RHS E EAV=148 4 $CK=0.8623 $CL=0.1086 $CM+=0.02588
99RH G 524.1 2 0.46 7
99RH2 G %IG=0.34 8
99RH G 684.8 4 0.18 3
99RH2 G %IG=0.13 4
99RH G 1201.1 8 0.15 6
99RH2 G %IG=0.11 5
99RH G 1587.6 6 0.17 4
99RH2 G %IG=0.12 4
99RH G 1851.6 8 0.62 9
99RH2 G %IG=0.45 11
99RH L 2070.6 6
99RH E 0.0003 LT 0.10 LT 6.6 GT 0.1LT ?
99RHS E EAV=140 4 $CK=0.8629 $CL=0.1087 $CM+=0.02591
99RH G 1219.5 7 0.41 10
99RH2 G %IG=0.30 9
99RH L 2143.1 6(3/2,5/2,7/2)+
99RH E 1.12 25 5.50 10 1.12 25
99RHS E CK=0.8641 $CL=0.1091 $CM+=0.02600
99RH G 1124.4 5 0.31 8
99RH2 G %IG=0.23 8
99RH G 1680.5 9 0.85 15
99RH2 G %IG=0.62 16
99RH G 1943.4 7 0.37 9
99RH2 G %IG=0.27 9
99RH L 2181.0 4(3/2)+
99RH E 0.0015 4 4.1 8 4.91 9 4.1 8
99RHS E EAV=92 4 $CK=0.8644 $CL=0.1092 $CM+=0.02603
99RH G 652.8 5 2.0 2
99RH2 G %IG=1.5 3
99RH G 1013.4 3 2.0 2
99RH2 G %IG=1.5 3
99RH G 1717.6 5 0.88 9
99RH2 G %IG=0.64 14
99RH G 1754.1 100.18 8
99RH2 G %IG=0.13 7
99RH G 1982.5 100.08 3
99RH2 G %IG=0.059 25
99RH G 2182.0 130.41 9
99RH2 G %IG=0.30 9
99RH L 2198.7 5(3/2,5/2,7/2)+
99RH E 1.9 4 5.23 10 1.9 4
99RHS E CK=0.8644 $CL=0.1093 $CM+=0.02605
99RH G 662.4 4 0.53 9
99RH2 G %IG=0.39 10
99RH G 1325.0 5 1.15 15
99RH2 G %IG=0.84 19
99RH G 1735.0 8 0.13 6
99RH2 G %IG=0.10 5
99RH G 1999.1 5 1.06 10
99RH2 G %IG=0.78 16
99RH L 2267.8 5(3/2,5/2,7/2)+
99RH E 0.97 22 5.47 10 0.97 22
99RHS E CK=0.8644 $CL=0.1095 $CM+=0.02611
99RH G 1157.2 4 0.91 15
99RH2 G %IG=0.67 17
99RH G 1391.6 100.18 8 &
99RH2 G %IG=0.13 7
99RH G 1804.2 8 0.24 8
99RH2 G %IG=0.18 7
99RH L 2343.0 6(5/2,7/2)+
99RH E 0.77 17 5.51 10 0.77 17
99RHS E CK=0.8641 $CL=0.1097 $CM+=0.02618
99RH G 1879.6 8 0.23 6 &
99RH2 G %IG=0.17 6
99RH G 2142.4 7 0.57 8
99RH2 G %IG=0.42 10
99RH G 2278.2 150.26 7
99RH2 G %IG=0.19 7
99RH L 2388.1 4(5/2,7/2)+
99RH E 2.0 4 5.06 9 2.0 4
99RHS E CK=0.8639 $CL=0.1099 $CM+=0.02622
99RH G 627.0 4 0.39 9
99RH2 G %IG=0.29 9
99RH G 852.3 2 0.42 8
99RH2 G %IG=0.31 8
99RH G 1515.1 8 0.27 9
99RH2 G %IG=0.20 8
99RH G 1924.8 6 0.65 10
99RH2 G %IG=0.48 12
99RH G 2188.4 150.28 8
99RH2 G %IG=0.20 7
99RH G 2324.6 8 0.75 9
99RH2 G %IG=0.55 12
99RH L 2617.8 8(5/2,7/2)+
99RH E 0.22 7 5.79 14 0.22 7
99RHS E CK=0.8624 $CL=0.1110 $CM+=0.02654
99RH G 2154.5 8 0.23 6
99RH2 G %IG=0.17 6
99RH G 2417.6 150.035 15
99RH2 G %IG=0.026 12
99RH G 2550.8 150.04 2
99RH2 G %IG=0.029 16
99RH L 2639.8 6(5/2,7/2)+
99RH E 0.47 11 5.43 11 0.47 11
99RHS E CK=0.8622 $CL=0.1112 $CM+=0.02658
99RH G 1274.2 8 0.19 6
99RH2 G %IG=0.14 5
99RH G 1789.6 100.29 6
99RH2 G %IG=0.21 6
99RH G 2439.1 120.12 3
99RH2 G %IG=0.09 3
99RH G 2574.5 9 0.04 1
99RH2 G %IG=0.029 9
99RH L 2709.4 7(3/2,5/2,7/2)+
99RH E 1.10 23 4.97 10 1.10 23
99RHS E CK=0.8616 $CL=0.1117 $CM+=0.02673
99RH G 1540.8 100.21 6
99RH2 G %IG=0.15 6
99RH G 2246.2 7 1.14 12
99RH2 G %IG=0.83 18
99RH G 2508.7 120.16 4
99RH2 G %IG=0.12 4
99RH L 2736.6 6(5/2,7/2)+
99RH E 1.3 3 4.87 10 1.3 3
99RHS E CK=0.8612 $CL=0.1120 $CM+=0.02680
99RH G 767.2 5 0.30 6
99RH2 G %IG=0.22 6
99RH G 1863.6 8 0.25 6
99RH2 G %IG=0.18 6
99RH G 2273.3 150.48 15
99RH2 G %IG=0.35 13
99RH G 2536.3 9 0.80 15
99RH2 G %IG=0.59 16
99RH G 2671.2 150.014 10
99RH2 G %IG=0.010 8
99RH L 2758.6 4(5/2,7/2)+
99RH E 1.6 4 4.75 11 1.6 4
99RHS E CK=0.8610 $CL=0.1122 $CM+=0.02685
99RH G 718.7 2 0.59 6
99RH2 G %IG=0.43 9
99RH G 1231.0 4 1.0 1
99RH2 G %IG=0.73 15
99RH G 1391.6 100.18 8 &
99RH2 G %IG=0.13 7
99RH G 2557.8 120.26 8
99RH2 G %IG=0.19 7
99RH G 2694.9 100.19 4
99RH2 G %IG=0.14 4
99RH L 2835.8 8(3/2,5/2,7/2)+
99RH E 0.26 7 5.42 12 0.26 7
99RHS E CK=0.8599 $CL=0.1130 $CM+=0.02710 3
99RH G 1962.0 100.11 4
99RH2 G %IG=0.08 4
99RH G 2373.1 110.11 3
99RH2 G %IG=0.08 3
99RH G 2633.6 120.13 3
99RH2 G %IG=0.10 3
99RH L 2860.0 10(5/2,7/2)+
99RH E 0.17 6 5.56 16 0.17 6
99RHS E CK=0.8594 $CL=0.11337 12 $CM+=0.02719 4
99RH G 2394.0 150.06 2
99RH2 G %IG=0.044 17
99RH G 2661.4 150.056 10
99RH2 G %IG=0.041 11
99RH G 2796.0 150.12 3
99RH2 G %IG=0.09 3
99RH L 2957.2 5(5/2,7/2)+
99RH E 1.09 24 4.57 10 1.09 24
99RHS E CK=0.8573 $CL=0.11509 18 $CM+=0.02766 5
99RH G 758.5 4 0.22 4
99RH2 G %IG=0.16 5
99RH G 886.5 3 0.46 8 &
99RH2 G %IG=0.34 9
99RH G 1422.2 100.22 10
99RH2 G %IG=0.16 8
99RH G 1429.4 100.27 10
99RH2 G %IG=0.20 9
99RH G 1789.6 100.29 6
99RH2 G %IG=0.21 6
99RH G 2492.7 200.03 1
99RH2 G %IG=0.022 9
99RH G 2893.0 200.007 3
99RH2 G %IG=0.0051 24
99RH L 3047.0 8(5/2,7/2)+
99RH E 0.33 9 4.88 12 0.33 9
99RHS E CK=0.8540 $CL=0.1176 3 $CM+=0.02836 9
99RH G 1879.6 8 0.23 6 &
99RH2 G %IG=0.17 6
99RH G 2847.3 150.21 6
99RH2 G %IG=0.15 6
99RH G 2982.0 200.014 6
99RH2 G %IG=0.010 5