123IN 123CD B- DECAY (1.80 S) 1989HU03 21NDS 202105
123IN H TYP=FUL$AUT=Jun Chen$CIT=NDS 174, 1 (2021)$CUT=15-Apr-2021$
123IN DG CC$FROM BrIcc v2.3a (10-Sep-2014) 2008Ki07, "Frozen Orbitals" appr.
123IN c 1989Hu03: source of {+123}Cd was produced via the U(n,F) reaction with
123IN2c fast neutrons produced from the Be(d,n) reaction at the TANDAR
123IN3c Laboratory. Fission products were separated by an electro-magnetic
123IN4c mass separator. |g rays were detected with two HPGe detectors
123IN5c (FWHM=1.95 keV at 1.33 MeV). Measured E|g, I|g, |g|g-coin, |g(t).
123IN6c Deduced levels, J, |p, parent T{-1/2}, |b-decay branching ratios,
123IN7c log {Ift}. Systematics of neighboring odd-mass In isotopes.
123IN8c Comparisons with theoretical calculations.
123IN c 1986Ho24: source of {+123}Cd was produced via {+235}U(n,F) with
123IN2c neutrons provided by the R2-0 reactor at Studvik. Fission products were
123IN3c separated by the mass separator OSIRIS. |g rays were detected with
123IN4c Ge detectors. Conversion electrons were detected with a small
123IN5c high-resolution Si detector. Measured E|g, I|g, |g|g-coin, |g(t).
123IN5c Deduced levels, J, |p, parent T{-1/2}, |b-decay branching ratios,
123IN6c log {Ift}. Systematics of neighboring odd-mass In isotopes.
123IN c Others: 1973BaUR, 1981Ru07, 1986Ma42, 1987Sp09, 2014TeZY
123IN c The decay scheme is that proposed by 1989Hu03. Fast-neutron fission
123IN2c favors high-spin isomer. |g-rays were distinguished by comparing the
123IN3c results from 1986Ho24. Decay scheme from 1986Ho24 is mixed from decays
123IN4c of g.s. and isomer. There are some discrepancies between the level
123IN5c scheme from 1989Hu03 and from 1986Ho24. The evaluator has adopted
123IN6c the g.s. decay scheme from 1989Hu03. However, there are many unplaced
123IN7c |g rays, as well as a large gap between the highest level and Q-value,
123IN8c therefore, the decay scheme is considered as incomplete and the deduced
123IN9c |b-feedings and log {Ift} as approximate.
123IN cB $The |g+ce intensity balances at 1137.6, 2020.6 and 2393.3 levels
123IN2cB could indicate |b feedings to these levels, which however is unlikely
123IN3cB since |DJ|>2. It is most likely that these levels are fed by undetected
123IN4cB |g rays from observed or unobserved higher levels due to Pandemonium
123IN5cB effect.
123IN cB $For |g+ce intensity from 2185.7 level, it is uncertain whether
123IN2cB it is from |b feeding or from undetected |g rays from higher levels.
123IN cB IB$From |g+ce intensity imbalance at each level. Quoted values should
123IN2cB be considered as approximate due to incomplete decay scheme.
123IN cB LOGFT$Quoted values should be considered as approximate due to
123IN2cB incomplete decay scheme.
123IN cG E,RI$From 1989Hu03, unless otherwise noted. Values are also available
123IN2cG in the decay schemes in 1986Ho24 but no tabulated data are given.
123IN cG E(A)$From 1986Ho24.
123IN cG E(X)$Poor fit. Uncertainty are increased to 0.2 keV in the fitting
123IN2cG procedure.
123IN cG M$As given in the decay scheme in 1986Ho24 based on ce data. The same
123IN2cG values are adopted in Adopted Gammas. No explicit ce data is given by
123IN3cG 1986Ho24
123IN cL E$From a least-squares fit to |g-ray energies. |DE|g=0.5 keV is
123IN2cL assumed in the fitting procedure, if not given.
123IN cL J,T$From Adopted Levels
123CD P 140.65 12 11/2(-) 1.80 S 3 6015 20
123CD cP J,T$From Adopted Levels of {+123}Cd
123CD cP QP$From 2021Wa16
123IN N 1.0 1.0 1.0
123IN cN NR$From |SI(|g+ce to g.s.+327)=100, assuming no |b feeding to g.s.
123IN2cN and 327 level
123IN PN 3
123IN G 226.36 90.60 7
123IN G 299.90 200.18 3
123IN G 459.55 60.47 6
123IN G 646.0 3 0.20 4
123IN G 672.09 150.19 5
123IN G 684.25 200.17 5
123IN G 1177.70 200.23 2
123IN G 1275.7 4 0.88 7
123IN G 1307.18 50.73 7
123IN G 2009.08 150.26 4
123IN G 2111.29 61.44 12
123IN G 2151.52 200.14 3
123IN G 2308.41 150.49 7
123IN G 2408.16 71.9 6
123IN G 3077.7 3 0.15 3
123IN L 0.0 9/2+ 6.15 S 27
123IN L 327.24 5 1/2- 47.4 S 8 M
123IN L 698.55 4(3/2)-
123IN G 371.32 3 0.89 5M1 0.01517 C
123IN cG E$other: 371.2 {I2} (1981Ru07)
123INS G KC=0.01319 19$LC=0.001608 23$MC=0.000311 5
123INS G NC=5.71E-5 8$OC=4.27E-6 6
123IN L 1027.511 24(11/2+)
123IN B 2.2 17 6.2 4
123INS B EAV=2384 16
123IN G 1027.50 322.2 15 C
123IN cG E$other: 1027.6 {I2} (1981Ru07)
123IN L 1052.28 3(5/2+)
123IN G 353.63 70.05 2 C
123IN G 1052.28 30.30 3 C
123IN L 1137.56 5(3/2-,5/2-)
123IN G 438.68 5 0.24 3 C
123INF G FLAG=X
123INF G FL=698.55
123IN G 810.29 30.71 5 C
123IN L 1165.858 23(13/2+)
123IN B 2.3 17 6.2 4
123INS B EAV=2318 16
123IN G 138.38 100.87 15 C
123IN G 1165.86 325.2 15 C
123IN cG E$other: 1165.8 {I3} (1981Ru07)
123IN L 1473.89 11
123IN G 1473.77 3 1.23 8 @C
123INF G FLAG=X
123IN L 1512.12 37/2+,9/2+
123IN G 1512.09 34.6 3 C
123IN L 1566.24 4(9/2+)
123IN B 1.22 13 6.3 1
123INS B EAV=2128 16
123IN G 1566.09 51.93 10 C
123IN L 2020.64 3(7/2-)
123IN G 454.25 50.69 7 C
123IN G 883.0 9 0.54 1 C
123IN G 2020.71 41.24 10 C
123IN L 2101.01 4(11/2-,13/2-)
123IN G 935.10 310.4 6 C
123IN cG E$other: 935.2 {I2} (1981Ru07)
123IN L 2102.78 5(9/2-,11/2-)
123IN B 5.2 9 5.4 1
123INS B EAV=1874 16
123IN G 2102.81 512.3 7 C
123IN L 2136.64 4(1/2+,3/2+)
123IN G 999.12 150.02 1 C
123IN G 1084.32 30.07 1 C
123IN G 1438.13 50.11 1 C
123IN G 1809.50 90.03 1
123IN L 2178.82 9(11/2-)
123IN B 11.0 7 5.07 3
123INS B EAV=1838 16
123IN G 75.81 2.40 24M1 1.124 AC
123INS G KC=0.972 14$LC=0.1235 18$MC=0.0240 4
123INS G NC=0.00439 7$OC=0.000323 5
123IN G 77.60 1.56 16M1 1.051 AC
123INS G KC=0.909 13$LC=0.1154 17$MC=0.0224 4
123INS G NC=0.00410 6$OC=0.000302 5
123IN G 1012.91 101.95 25 C
123IN G 1150.8 6 0.41 21 C
123IN G 2178.98 150.28 4
123IN L 2185.7 4
123IN G 84.7 4 0.20 10 C
123IN L 2268.03 3(11/2-)
123IN B 10.5 6 5.04 3
123INS B EAV=1796 16
123IN G 1102.20 33.03 21 C
123IN G 1240.48 37.9 5 C
123IN cG E$other: 1240.5 {I3} (1981Ru07)
123IN G 2268.09 100.53 6 C
123IN L 2309.69 4(11/2-,13/2-)
123IN B 5.3 4 5.3 1
123INS B EAV=1776 16
123IN G 207.12 101.35 25
123IN G 1143.84 151.10 23 C
123IN G 1282.19 43.30 19 C
123IN L 2354.69 4(11/2-)
123IN B 6.2 6 5.2 1
123INS B EAV=1754 16
123IN G 334.03 50.78 8 C
123IN G 1188.79 90.46 6 C
123IN G 2354.74 67.3 4 C
123IN L 2393.32 4(5/2+)
123IN G 256.69 5 0.23 2
123IN G 827.23 250.02 1
123IN G 881.17 50.36 7 C
123IN G 1255.65 50.22 1 C
123IN G 1341.06 50.27 2 C
123IN G 1694.81 50.55 3 C
123IN G 2393.46 150.06 1
123IN L 2461.53 7 (9/2-,11/2-)
123IN B 9.2 6 5.01 3
123INS B EAV=1704 16
123IN G 107.1 3 0.14 5 C
123IN G 987.60 101.2 3 C
123IN G 2461.50 77.9 5
123IN L 2500.91 4(9/2-,11/2-)
123IN B 13.9 6 4.81 3
123INS B EAV=1685 16
123IN G 480.28 31.34 10 C
123IN G 988.73 104.7 3 C
123IN G 1473.77 3 7.2 5 @C
123INF G FLAG=X
123INF G FL=1027.511
123IN G 2500.44 9 0.62 6 X
123IN L 2529.47 3(11/2-,13/2-)
123IN B 14.9 7 4.76 3
123INS B EAV=1672 16
123IN G 174.79 6 2.2 3 C
123IN G 261.5 5 0.93 10 C
123IN G 428.41 37.3 4 C
123IN G 1363.64 34.6 3 C
123IN G 1502.13 150.31 5 C
123IN L 2602.24 7(9/2-,11/2-)
123IN B 12.2 7 4.81 3
123INS B EAV=1637 16
123IN G 292.90 100.41 4 C
123IN G 2601.98 811.8 7
123IN L 2617.87 6(11/2-,13/2-)
123IN B 1.71 11 5.66 3
123INS B EAV=1630 16
123IN G 515.0 5 0.62 4 C
123IN G 1452.00 51.09 10 C
123IN L 2723.60 6(11/2-,13/2-)
123IN B 1.56 21 5.6 1
123INS B EAV=1580 16
123IN G 193.4 4 0.42 18
123IN G 1557.74 51.14 9 C