83RB 83SR EC DECAY 2000SH49 15NDS 201503
83RB H TYP=FUL$AUT=E.A. MCCUTCHAN$CIT=NDS 125, 201 (2015)$CUT=31-Dec-2014$
83RB c 2014In02: {+83}Sr activity produced by proton spallation on a
83RB2c metallic Y target with E(p)=300 MeV followed by chemical separation.
83RB3c Measured Ee, Ie using a combined electrostatic electron spectrometer
83RB4c consisting of a retarding sphere followed by a double-pass
83RB5c cylindrical mirror energy analyzer.
83RB c 2000Sh49,2000Yu03: {+83}Sr activity produced in the {+85}Rb(p,3n)
83RB2c reaction with E(p)=27.1 MeV followed by chemical separation. Target
83RB3c consisted of high-purity RbCl powder. Measured E|g, I|g using a
83RB4c Compton-suppressed HPGe detector and |g|g using a planar Ge detector
83RB5c and a coaxial Ge detector.
83RB c 1982Gr07: {+83}Sr activity produced in the irradiation of RbCl
83RB2c pellets with 72-MeV protons. Stacks of targets and aluminum
83RB3c degraders were used and {+83}Sr was observed down to a mean proton
83RB4c energy of 29 MeV. Measured E|g, I|g, |g(t) using a Ge(Li) detector
83RB5c for the energy range 80 - 2250 keV and a planar Ge detector for
83RB6c energies below 800 keV.
83RB c 1973Br32: {+83}Sr activity produced first through the production of
83RB2c {+83}Y in the {+65}Cu({+22}Ne,4n), E({+22}Ne)=85 MeV followed by |b
83RB3c decay to {+83}Sr. Measured E|g, I|g, |g(t), |g|g, |b|g coincidences
83RB4c using Ge(Li) detectors and a plastic NE102 scintillator.
83RB c Others: 1968Et01, 1972Mo16, 1972Mo40, 1982Po04
83RB c The level scheme is that of 2000Sh49. Precise energies and
83RB2c intensities are reported by 1982Gr07, however, they did not construct
83RB3c a level scheme. There is good agreement between 1973Br32 and
83RB4c 2000Sh49 concerning the placement of strong transitions, however,
83RB5c considerable disagreement in the placement of weak transitions. These
83RB6c are indicated in the comments. Eight levels (760, 1044, 1054.5,
83RB7c 1085.5, 1808, 2020, 2147, and 2178 keV) proposed by 1973Br32 are not
83RB8c observed in 2000Sh49. For the most part, transitions depopulating
83RB9c these levels are given alternative placements in the level scheme by
83RBac 2000Sh49.
83RB c A total energy release of 2270 keV {I90} is calculated for this decay
83RB2c using the RADLST code, in good agreement with the Q value of 2273 keV
83RB3c {I6}.
83RB cE TI$From an intensity balance at each level, except where noted.
83RB cG E$From 2000Sh49, except where noted. 2000Sh49 give no indication of
83RB2cG uncertainty on |g-ray energies.
83RB cG M,MR$From |a(K)exp and ce ratios, except where noted.
83RB cG RI$From 2000Sh49, except where noted. 2000Sh49 quote I(|g+ce) values,
83RB2cG however, as the experimental setup only measured |g-rays, and for
83RB3cG many transitions, the multipolarity is unknown, the evaluator assumes
83RB4cG that values correspond to I|g values. A few exceptions for the low
83RB5cG energy transitions are noted in the comments. 2000Sh49 provide no
83RB6cG information on |DI|g. In cases where I|g is consistent with the
83RB7cG measurements of 1982Gr07, the uncertainty is taken from 1982Gr07. For
83RB8cG all other transitions, an |?10% uncertainty is added by the evaluator.
83RB cG E(a),RI(a)$A single transition with E|g=1324.45 {I20}, I|g=0.68 {I3}
83RB2cG and E|g=1324.6 {I4}, I|g=0.85 {I9} is observed by 1982Gr07 and
83RB3cG 1973Br32, respectively, and placed from the 1749-keV level by
83RB4cG 1973Br32. 2000Sh49 observe a closely spaced doublet of E|g=1323.8,
83RB5cG I|g=0.478 from the 1366-keV level and E|g=1325.62, I|g=0.258 from the
83RB6cG 1749-keV level. The sum of the two intensities from 2000Sh49 is in
83RB7cG good agreement with the intensities of the single transitions
83RB8cG measured in 1982Gr07, 1973Br32, suggesting the possibility of doublet
83RB9cG transitions in those works.
83RB cG E(b),RI(b)$A single transition with E|g=907.7, I|g=1.01 {I4} and
83RB2cG E|g=907.8 {I3}, I|g=1.10 {I8} is observed by 1982Gr07 and 1973Br32,
83RB3cG respectively, and placed from the 1952-keV level by 1973Br32.
83RB4cG 2000Sh49 observe a closely spaced triplet of E|g=907.94, I|g=0.722
83RB5cG from the 908-keV level, E|g=907.6, I|g=0.021 from the 1375-keV level,
83RB6cG and E|g=906.6, I|g=0.30 from the 1296-keV level. The sum of the
83RB7cG intensities from 2000Sh49 is in good agreement with the intensities
83RB8cG of the single transitions measured in 1982Gr07, 1973Br32, suggesting
83RB9cG the possibility of triplet transitions in those works.
83RB cG E(c),RI(c)$A single transition with E|g=853.8, I|g=0.431 {I15} and
83RB2cG E|g=853.8 {I3}, I|g=0.45 {I5} is observed by 1982Gr07 and 1973Br32,
83RB3cG respectively, and multiply placed from the 1243- and 2057-keV levels
83RB4cG by 1973Br32. 2000Sh49 observe a closely spaced doublet of E|g=854.0,
83RB5cG I|g=0.27 from the 854-keV level and E|g=853.4, I|g=0.20 from the
83RB6cG 1243-keV level. The sum of the two intensities from 2000Sh49 is in
83RB7cG good agreement with the intensities of the single transitions
83RB8cG measured in 1982Gr07, 1973Br32, suggesting the possibility of doublet
83RB9cG transitions in those works.
83RB cG E(d),RI(d)$A single transition with E|g=848.4, I|g=0.765 {I20} and
83RB2cG E|g=848.4 {I3}, I|g=0.72 {I7} is observed by 1982Gr07 and 1973Br32,
83RB3cG respectively, and placed from the 1952-keV level by 1973Br32.
83RB4cG 2000Sh49 observe a closely spaced doublet of E|g=846.9, I|g=0.19 from
83RB5cG the 2090-keV level and E|g=848.7, I|g=0.59 from the 854-keV level.
83RB6cG The sum of the two intensities from 2000Sh49 is in good agreement
83RB7cG with the intensities of the single transitions measured in 1982Gr07,
83RB8cG 1973Br32, suggesting the possibility of doublet transitions in those
83RB9cG works.
83RB cG E(e),RI(e)$A single transition with E|g=381.5, I|g=58.2 {I13} and
83RB2cG E|g=381.6 {I3}, I|g=66 {I3} is observed by 1982Gr07 and 1973Br32,
83RB3cG respectively, and placed from the 424-keV level by 1973Br32. 2000Sh49
83RB4cG observe a closely spaced doublet of E|g=381.09, I|g=6.7 from the
83RB5cG 805-keV level and E|g=381.52, I|g=53 from the 424-keV level. The sum
83RB6cG of the two intensities from 2000Sh49 is in good agreement with the
83RB7cG intensities of the single transitions measured in 1982Gr07, 1973Br32,
83RB8cG suggesting the possibility of doublet transitions in those works.
83RB cG E(p)$From 1982Po04.
83RB cG E(g),RI(s)$From 1982Gr07. Authors provide a general statement that
83RB2cG |DE|g|<0.1 keV for E|g below 1500 keV and |<0.15 keV for higher
83RB3cG energies, for cases where no uncertainty is given.
83RB cG E(r),RI(r)$From 1973Br32. Not observed in the subsequent works of
83RB2cG 1982Gr07 or 2000Sh49. Assignment to {+83}Sr |e decay is questionable.
83RB cL E$From a least-squares fit to E|g, by evaluator.
83RB cL T$From delay coincidence timing in 1973Br32, except where noted.
83RB cL J$From the Adopted Levels.
83RB CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1, MR=1.00 FOR
83RB2CG E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
83RB D CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
83RB D CC$FROM BrIcc v2.3 (29-Mar-2013) 2008Ki07, "Frozen Orbitals" appr.
83SR P 0.0 7/2+ 32.41 H 3 2273 6
83RB N 0.267 18 0.267 18 1.0 1.0
83RB cN NR,NT$From I|g(|g{+|+})=160 {I5} (2000Sh49) taking I|g(762|g)=100.
83RB2cN Other: I|g(|g{+|+})=163 {I16} (1968Et01).
83RB PN 3
83RB G 156.8 3 0.13 6
83RBX G FLAG=r
83RB G 682.9 4 0.07 6
83RBX G FLAG=r
83RB G 753.3 4 0.30 10
83RBX G FLAG=r
83RB G 759.1 4 1.38 25
83RBX G FLAG=r
83RB G 831 1 0.02 2
83RBX G FLAG=r
83RB G 838 1 0.03 3
83RBX G FLAG=r
83RB G 930.0 2 0.166 12
83RBX G FLAG=gs
83RB G 1078.8 14 0.02 2
83RBX G FLAG=r
83RB G 1125.6 3 0.055 8
83RBX G FLAG=gs
83RB G 1178.6 4 0.032 8
83RBX G FLAG=gs
83RB G 1440.9 3 0.095 7
83RBX G FLAG=gs
83RB G 1624.7 8 0.03 2
83RBX G FLAG=r
83RB G 1777.9 3 0.077 8
83RBX G FLAG=gs
83RB G 1873.74 15 0.094 7
83RBX G FLAG=gs
83RB L 0.0 5/2- 86.2 D 1
83RB cL T$from the Adopted Levels.
83RB E 12.4 1111.1 106.66 4 23.5 20
83RBS E EAV=548.1 27$CK=0.415 4$CL=0.0484 4$CM+=0.01023 9
83RB cE TI$from I|g(|g{+|+})
83RB L 5.2357 8 3/2- 71.5 NS 8
83RB cL T$from ce|g(t) in 1972Mo16.
83RB G 5.2357 8 M1+E2 2.6E-5 2 99.5 21.1 5
83RBX G L/T=0.836 7$M/T=0.138 3$N/T=0.0154 3$O/T=0.000633 13
83RBS G LC=84.0 12$MC=13.89 22$OC=0.0637 9
83RB cG $L1/L2=9.1 {I2} (2014In02); L1/L3=16.8 {I4} (2014In02);
83RB2cG L1/(L2+L3)=5.9 {I1} (2014In02), 9.6 {I16} (1972Mo16); L/M=6.3 {I2}
83RB3cG (2014In02), 5.5 {I5} (1972Mo16); M1/(M2+M3)=24.0 {I23} (2014In02).
83RB cG E$from 2014In02. Other: 5.23 {I9} (1972Mo16)
83RB cG TI$from intensity balance assuming no direct population of the
83RB2cG 5.2-keV level. From |DJ=2,|D|p=yes, I|b(5.2)<0.25
83RB L 42.0780 20 9/2+ 7.8 MS 7
83RB cL T$unpublished value reported by 1968Et01, considered questionable.
83RB G 42.078 2 6.2 6 M2 38.7 8
83RBS G KC=31.8 7$LC=5.77 12$MC=0.985 21$NC=0.1071 22$OC=0.00388 8
83RB cG $K/L=5.2 {I2}, L/M=5.5 {I6} (1972Mo16), |a(K)exp=29.3 {I35}, K/L=5.5
83RB2cG {I1}, L1/(L2+L3)=2.8 {I2}, K/M=30 {I2} (1968Et01).
83RB cG E$from 2014In02. Other: 42.33 {I15} 1972Mo16.
83RB cG RI$deduced from I(|g+ce)=247 (2000Sh49) and |a. Others: 5.3 {I5}
83RB2cG (1973Br32).
83RB E 11 3 12 4 6.63 14 23 7
83RBS E EAV=529.3 27$CK=0.439 4$CL=0.0513 5$CM+=0.01083 9
83RB L 99.35 8 3/2- 150 PS LT
83RB cL T$considered questionable, see the Adopted Levels.
83RB cL T$other: 1.2 ns, unpublished value reported by 1968Et01, considered
83RB2cL questionable.
83RB G 94.11 10 1.42 10 M1+E2 0.29 5 0.25 3 C
83RBF G FLAG=g
83RBS G KC=0.218 23$LC=0.028 4$MC=0.0047 7$NC=0.00051 7$OC=1.83E-5 17
83RB cG $|a(K)exp=0.22 {I2} (1968Et01).
83RB cG RI$deduced from I(|g+ce)=1.77 (2000Sh49) and |a. Others: 1.52 {I6}
83RB2cG (1982Gr07), 1.37 {I10} (1973Br32).
83RB L 389.40 7 3/2- 130 PS LT
83RB G 290.04 10 1.36 20 M1+E2 1.3 +8-6 0.016 4 C
83RBF G FLAG=g
83RBS G KC=0.014 3$LC=0.0016 4$MC=0.00027 7$NC=3.0E-5 7$OC=1.19E-6 24
83RB cG $|a(K)exp=0.014 {I2}, K/(L+M)=10 {I2} (1968Et01).
83RB cG RI$others: 1.46 {I11} (1982Gr07), 1.78 {I24} (1973Br32).
83RB G 384.18 0.19 2
83RB G 389.37 10 5.6 3 E2(+M1) 4.3 25 0.00746 C
83RBF G FLAG=g
83RBS G KC=0.0065 6$LC=0.00074 7$MC=0.000122 11$NC=1.36E-5 12$OC=5.5E-7 5
83RB cG $|a(K)exp=0.0065 {I5}, K/(L+M)=8 {I2} (1968Et01).
83RB cG RI$others: 5.52 {I20} (1982Gr07), 5.2 {I4} (1973Br32).
83RB E 0.044 LT0.14 LT8.4 GT 0.18 LT ?
83RBS E EAV=376.3 27$CK=0.662 4$CL=0.0775 5$CM+=0.01638 10
83RB L 423.613 16 5/2+ 150 PS LT
83RB G 381.53 3 52.3 20 E2 0.00806 C
83RBF G FLAG=ep
83RBS G KC=0.00710 10$LC=0.000813 12$MC=0.0001340 19$NC=1.489E-5 21$
83RBS G OC=5.98E-7 9
83RB cG $|a(K)exp=0.0071 {I3}, K/(L+M)=7.4 for 381.2 and 381.5-keV doublet
83RB2cG transitions (1968Et01).
83RB cG RI$other: 46.9 {I16} (1982Po04).
83RB G 418.37 3 15.7 5 E1 1.64E-3 C
83RBF G FLAG=p
83RBS G KC=0.001452 21$LC=0.0001557 22$MC=2.56E-5 4$NC=2.90E-6 4$
83RBS G OC=1.238E-7 18
83RB cG $|a(K)exp=0.0014 {I2} (1968Et01).
83RB cG RI$others: 14.7 {I5} (1982Po04), 15.4 {I4} (1982Gr07), 16.9 {I12}
83RB2cG (1973Br32).
83RB G 423.63 3 5.4 2 E1 1.58E-3 C
83RBF G FLAG=p
83RBS G KC=0.001406 20$LC=0.0001508 22$MC=2.48E-5 4$NC=2.81E-6 4$
83RBS G OC=1.200E-7 17
83RB cG $|a(K)exp=0.0016 {I4} (1968Et01).
83RB cG RI$others: 5.3 {I2} (1982Po04), 5.41 {I12} (1982Gr07), 5.25 {I38}
83RB2cG (1973Br32).
83RB E 3.2 3 11.5 9 6.47 4 14.7 12
83RBS E EAV=361.4 27$CK=0.684 4$CL=0.0801 5$CM+=0.01692 10
83RB L 466.7 4
83RB G 461.82 0.072 7 C
83RB L 564.57 9 (3/2-,5/2,7/2-)
83RB G 559.35 10 0.73 3 C
83RBF G FLAG=g
83RB cG RI$others: 0.74 {I3} (1982Gr07), 0.64 {I9} (1973Br32).
83RB G 564.45 20 0.29 3 C
83RBF G FLAG=g
83RB cG RI$others: 0.32 {I6} (1982Gr07), 0.40 {I9} for multiply placed
83RB2cG transition, also placed as depopulating a 1808-keV level (1973Br32).
83RB L 737.16 6 7/2-
83RB G 172.5 0.059 6 C
83RB G 695.06 0.019 2 [E1] 4.88E-4
83RBS G KC=0.000433 6$LC=4.61E-5 7$MC=7.59E-6 11$NC=8.61E-7 12$OC=3.72E-8 6
83RB G 731.95 10 0.30 3 [E2] 1.16E-3 C
83RBF G FLAG=g
83RBS G KC=0.001029 15$LC=0.0001126 16$MC=1.86E-5 3$NC=2.09E-6 3$OC=8.87E-8 13
83RB cG RI$others: 0.278 {I11} (1982Gr07), 0.27 {I3} (1973Br32).
83RB G 737.13 10 0.87 3 C
83RBF G FLAG=g
83RB cG RI$others: 0.850 {I25} (1982Gr07), 0.71 {I5} (1973Br32).
83RB E 0.0011 9 0.021 189.0 4 0.022 19
83RBS E EAV=226.4 26$CK=0.8321 18$CL=0.09775 22$CM+=0.02066 5
83RB L 793.8 4 13/2+
83RB G 751.71 0.19 2 [E2] 1.08E-3 C
83RBS G KC=0.000959 14$LC=0.0001049 15$MC=1.729E-5 25$NC=1.95E-6 3$
83RBS G OC=8.28E-8 12
83RB E 0.00039 LT0.012 LT9.3 GT 0.012 LT ?
83RBS E EAV=202.3 26$CK=0.8467 14$CL=0.09953 17$CM+=0.02104 4
83RB L 804.77 3 (7/2)+ 60 PS LT
83RB G 381.17 3 6.7 7 M1+E2 2.9 GT 0.0079022 C
83RBF G FLAG=ep
83RBS G KC=0.00696 20$LC=0.000796 23$MC=0.000131 4$NC=1.46E-5 5$OC=5.87E-7 16
83RB cG $|a(K)exp=0.0071 {I3}, K/(L+M)=7.4 for 381.2 and 381.5-keV doublet
83RB2cG transitions (1968Et01).
83RB cG RI$other: 8.3 {I8} (1982Po04).
83RB G 762.65 10 100 5 E2(+M1) 2.0 GE 1.03E-32 C
83RBF G FLAG=p
83RBS G KC=0.000913 18$LC=9.95E-5 20$MC=1.64E-5 4$NC=1.85E-6 4$OC=7.89E-8 14
83RB cG $|a(K)exp=0.00095 {I5} (1968Et01).
83RB cG MR$other: 1.6 |< |d |<16 from |g|g(|q) in 1973Br32.
83RB G 804.65 15 0.31 3 [E1] 3.57E-4 C
83RBF G FLAG=g
83RBS G KC=0.000317 5$LC=3.37E-5 5$MC=5.54E-6 8$NC=6.29E-7 9$OC=2.73E-8 4
83RB cG RI$others: 0.284 {I14} (1982Gr07), 0.24 {I4} (1973Br32).
83RB E 0.78 8 25.1 215.93 4 25.9 22
83RBS E EAV=197.6 26$CK=0.8491 13$CL=0.09982 16$CM+=0.02110 4
83RB L 821.62 15 (3/2)-
83RB G 722.28 0.044 4 C
83RB cG E,RI$1982Gr07 observe E|g=722.7 {I5} with I|g=0.053 {I15}, while
83RB2cG 1973Br32 place a 722.4 {I6} transition with I|g=0.05 {I2} as
83RB3cG depopulating a 1808-keV level.
83RB G 816.34 0.17 2 C
83RB G 821.59 0.023 2 C
83RB E 0.00057 180.021 7 8.99 14 0.022 7
83RBS E EAV=190.4 26$CK=0.8525 12$CL=0.10025 15$CM+=0.02119 4
83RB L 853.98 11 (3/2-,5/2,7/2-)
83RB G 289.53 0.12 2 C
83RB G 754.56 0.10 1 C
83RB G 848.66 0.59 6 C
83RBF G FLAG=d
83RB G 853.98 0.27 3 C
83RBF G FLAG=c
83RB E 0.0007 4 0.035 208.75 25 0.036 20
83RBS E EAV=176.7 26$CK=0.8582 10$CL=0.10096 13$CM+=0.02134 3
83RB L 908.00 11 (3/2,5/2,7/2-)
83RB G 343.4 0.030 3 C
83RB G 440.85 0.042 4 C
83RB G 484.5 0.020 2 C
83RB G 518.5 0.11 1 C
83RB G 808.7 3 0.17 2 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=808.7 {I3} with I|g=0.136 {I10}, 808.5 {I8}
83RB2cG transition with I|g=0.08 {I4} unplaced by 1973Br32.
83RB G 902.64 0.18 2 C
83RB cG E,RI$1982Gr07 observe E|g=902.95 {I30} with I|g=0.24 {I13}, while
83RB2cG 1973Br32 place a 903.2 {I4} transition with I|g=0.21 {I2} as
83RB3cG depopulating a 2147-keV level.
83RB G 907.94 0.72 7 C
83RBF G FLAG=b
83RB E 0.0008 LT0.07 LT8.4 GT 0.07 LT ?
83RBS E EAV=153.7 26$CK=0.8654 7$CL=0.10187 9$CM+=0.02154 2
83RB L 1010.34 14 (3/2-,5/2,7/2-)
83RB G 445.69 0.058 6 C
83RB G 1005.1 2 0.094 10 C
83RBF G FLAG=g
83RB cG E$1982Gr07 observe E|g=1005.1 {I2} with I|g=0.073 {I7}, while
83RB2cG 1973Br32 place a 1005.4 {I5} transition with I|g=0.08 {I3} as
83RB3cG depopulating the 2090-keV level.
83RB G 1010.35 20 0.13 2 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=1010.35 {I20} with I|g=0.093 {I7}, while
83RB2cG 1973Br32 place a 1010.8 {I4} transition with I|g=0.11 {I3} as
83RB3cG depopulating the 1749-keV level.
83RB E 0.00015 3 0.053 8 8.47 7 0.053 8
83RBS E EAV=110.2 26$CK=0.8726 3$CL=0.10289 4$CM+=0.021759 9
83RB L 1035.13 10 (3/2-,5/2,7/2-)
83RB G 298.02 0.092 10 C
83RB G 470.69 0.026 3 C
83RB G 568.00 0.013 2 C
83RB G 611.4 0.020 2 C
83RB G 645.8 2 0.18 2 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=645.8 {I2} with I|g=0.160 {I15}, while
83RB2cG 1973Br32 place a 645.5 {I4} transition with I|g=0.27 {I6} as
83RB3cG depopulating the 1749-keV level.
83RB G 935.8 4 0.052 5 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=935.8 {I4} with I|g=0.095 {I20}, while
83RB2cG 1973Br32 place a 935.4 {I4} transition with I|g=0.15 {I3} as
83RB3cG depopulating a 2178-keV level.
83RB G 1029.63 0.011 1
83RB G 1035.04 0.13 2 C
83RB cG E,RI$1982Gr07 observe E|g=1035.4 {I4} with I|g=0.12 {I2}, while
83RB2cG 1973Br32 place a 1035.3 {I4} transition with I|g=0.15 {I4} as
83RB3cG depopulating the 2090-keV level.
83RB E 5.E-5 LT0.03 LT8.7 GT 0.03 LT ?
83RBS E EAV=99.6 26$CK=0.8734 2$CL=0.10303 4$CM+=0.021790 7
83RB L 1037.68 18 11/2+
83RB G 243.9 0.050 5 C
83RB G 995.55 0.54 5 C
83RB cG RI$others: <2.04 (1982Gr07) and <2.08 (1973Br32) for doublet
83RB2cG transition, also placed from the 1799-keV level.
83RB E 5.E-5 LT0.03 LT8.7 GT 0.03 LT ?
83RBS E EAV=98.5 26$CK=0.8735 2$CL=0.10304 3$CM+=0.021793 7
83RB L 1083.21 9
83RB G 659.53 0.81 6 C
83RB cG E,RI$likely corresponds to E|g=659.6 {I4} with I|g=0.80 {I6} observed
83RB2cG in 1982Gr07. 1973Br32 observe a 659.1 {I3} transition with I|g=1.21
83RB3cG {I14} which they multiply place from 760-, 1083-, and 1695-keV levels.
83RB L 1096.53 8 (7/2+,9/2+)
83RB G 291.61 0.087 9 C
83RB G 673.04 0.074 8 C
83RB G 1054.45 10 0.72 4 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=1054.45 with I|g=0.68 {I2}, while 1973Br32
83RB2cG place a 1054.7 {I3} transition with I|g=0.72 {I7} as depopulating a
83RB3cG 1054-keV level.
83RB E 0.019 178.9 4 0.019 17
83RBS E CK=0.8745$CL=0.10326 2$CM+=0.021844 5
83RB L 1102.90 19 9/2-
83RB G 365.5 0.025 3 C
83RB G 1102.9 2 0.11 2 E2 4.29E-4 C
83RBF G FLAG=g
83RBS G KC=0.000380 6$LC=4.09E-5 6$MC=6.74E-6 10$NC=7.64E-7 11$OC=3.30E-8 5
83RB cG RI$others: 0.096 {I7} (1982Gr07), 0.09 {I2} for multiply placed
83RB2cG transition, also placed as tentatively depopulating a level at 2147
83RB3cG keV (1973Br32).
83RB cG M$from the Adopted Levels.
83RB E 0.010 3 9.13 13 0.010 3
83RBS E CK=0.8745$CL=0.10328 2$CM+=0.021848 4
83RB L 1202.07 7 (5/2,7/2,9/2)+
83RB G 637.39 0.057 6 C
83RB cG RI$others: 0.13 {I4} (1982Gr07), 0.18 {I5} for multiply placed
83RB2cG transition, also placed as tentatively depopulating the 737-keV level
83RB3cG (1973Br32).
83RB G 737.3 0.020 2 C
83RB G 778.44 10 6.6 3 M1,E2 0.000936 C
83RBF G FLAG=g
83RBS G KC=0.00083 6$LC=8.9E-5 7$MC=1.47E-5 11$NC=1.67E-6 12$OC=7.2E-8 4
83RB cG $|a(K)exp=0.00096 {I20} (1968Et01).
83RB cG RI$others: 6.62 {I25} (1982Gr07), 6.5 {I5} (1973Br32).
83RB G 1159.97 10 5.1 2 C
83RBF G FLAG=g
83RB cG RI$others: 4.94 {I15} (1982Gr07), 5.14 {I26} (1973Br32).
83RB G 1201.94 0.42 4
83RB cG RI$others: 0.529 {I16} (1982Gr07), 0.57 {I4} (1973Br32).
83RB E 3.10 236.56 4 3.10 23
83RBS E CK=0.8746$CL=0.10351 2$CM+=0.021902 4
83RB L 1242.93 6 (5/2)+
83RB G 159.75 10 0.41 5 C
83RBF G FLAG=g
83RB cG RI$others: 0.37 {I3} (1982Gr07), 0.51 {I8} (1973Br32).
83RB G 438.16 10 2.90 15 M1(+E2) 0.40 LT 0.0033715 C
83RBF G FLAG=g
83RBS G KC=0.00298 13$LC=0.000325 15$MC=5.37E-5 25$NC=6.1E-6 3$OC=2.62E-7 10
83RB cG $|a(K)exp=0.0027 {I4} (1968Et01).
83RB cG RI$others: 2.85 {I11} (1982Gr07), 3.02 {I21} (1973Br32).
83RB cG M,MR$D+Q from |g|g(|q) with A{-2}=+0.35 {I6}, A{-4}=+0.08 {I11} for
83RB2cG 438|g-762|g cascade (1973Br32).
83RB cG M,MR$other: from |g|g(|q) in 1973Br32, 0.03|< |d |<0.37
83RB G 678.31 0.154 17 C
83RB cG RI$others: 0.164 {I17} (1982Gr07), 0.18 {I2} (1973Br32).
83RB G 775.77 0.021 2
83RB G 819.29 10 2.8 1 M1,E2 0.000825 C
83RBF G FLAG=g
83RBS G KC=0.00073 4$LC=7.9E-5 5$MC=1.30E-5 8$NC=1.48E-6 9$OC=6.4E-8 3
83RB cG $|a(K)exp=0.0011 {I4} (1968Et01).
83RB cG RI$others: 2.80 {I7} (1982Gr07), 2.80 {I16} (1973Br32).
83RB G 853.42 0.20 2 [E1] 3.16E-4 C
83RBF G FLAG=c
83RBS G KC=0.000281 4$LC=2.98E-5 5$MC=4.91E-6 7$NC=5.57E-7 8$OC=2.42E-8 4
83RB G 1200.75 0.14 2 [E2] 3.64E-4
83RBS G KC=0.000315 5$LC=3.38E-5 5$MC=5.57E-6 8$NC=6.32E-7 9$OC=2.74E-8 4
83RB G 1237.72 15 0.76 3 [E1] 2.24E-4 C
83RBF G FLAG=g
83RBS G KC=0.0001385 20$LC=1.462E-5 21$MC=2.41E-6 4$NC=2.74E-7 4$
83RBS G OC=1.195E-8 17
83RB cG RI$others: 0.70 {I3} (1982Gr07), 0.75 {I5} (1973Br32).
83RB G 1242.87 15 0.270 15 [E1] 2.27E-4
83RBF G FLAG=g
83RBS G KC=0.0001374 20$LC=1.451E-5 21$MC=2.39E-6 4$NC=2.72E-7 4$
83RBS G OC=1.186E-8 17
83RB cG RI$others: 0.241 {I10} (1982Gr07), 0.26 {I2} (1973Br32).
83RB E 1.90 146.74 4 1.90 14
83RBS E CK=0.8745$CL=0.10360 2$CM+=0.021924 4
83RB L 1277.5 4 (3/2-,5/2,7/2-)
83RB G 713.00 0.023 2 C
83RB G 887.90 0.050 5 C
83RB cG E,RI$888.1 {I9} transition with I|g=0.07 {I4} unplaced by 1973Br32.
83RB G 1272.39 0.061 6 C
83RB G 1277.49 0.133 15 C
83RB cG E,RI$1982Gr07 observe E|g=1277.8 {I4} with I|g=0.095 {I15}, 1277.8
83RB2cG {I4} transition with I|g=0.15 {I2} unplaced by 1973Br32.
83RB E 0.023 8 8.62 16 0.023 8
83RBS E CK=0.8744$CL=0.10368 2$CM+=0.021944 4
83RB L 1296.07 10 (5/2,7/2-)
83RB G 906.55 0.30 3 C
83RBF G FLAG=b
83RB G 1296.06 10 0.457 20 C
83RB cG E,RI$1982Gr07 observe E|g=1296.1 with I|g=0.435 {I14}, while 1973Br32
83RB2cG place a 1296.5 {I3} transition with I|g=0.46 {I4} as depopulating the
83RB3cG 2056-keV level.
83RB E 0.197 177.68 4 0.197 17
83RBS E CK=0.8743$CL=0.10373 2$CM+=0.021955 4
83RB L 1366.0 4 (7/2+,9/2)
83RB G 269.5 0.040 4 C
83RB G 328.4 0.020 2 C
83RB G 561.22 0.073 8 C
83RB G 1323.78 0.48 5 C
83RBF G FLAG=a
83RB E 0.152 177.72 5 0.152 17
83RBS E CK=0.8741$CL=0.10392 2$CM+=0.022001 5
83RB L 1374.6 6
83RB G 907.6 0.021 2 C
83RBF G FLAG=b
83RB G 1275.34 0.029 3 C
83RB E 0.0053 139.17 11 0.0053 13
83RBS E CK=0.8740$CL=0.10394 2$CM+=0.022008 5
83RB L 1424.7 4
83RB G 630.9 3 0.087 9 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=630.9 {I3} with I|g=0.10 {I2}, while
83RB2cG 1973Br32 place a 630.8 {I6} transition with I|g=0.12 {I4} as
83RB3cG depopulating a 1054-keV level.
83RB G 1382.73 0.13 2 C
83RB cG E,RI$1982Gr07 observe a doublet E|g=1382.6 {I6} and E|g=1384.9 {5}
83RB2cG with combined I|g=0.512 {I20}, E|g=1382.6 {I6} with I|g=0.16 {I4}
83RB3cG unplaced by 1973Br32.
83RB L 1597.68 10 (5/2,7/2-)
83RB G 395.62 0.21 2 C
83RB G 792.97 0.12 2 C
83RB cG E,RI$likely corresponds to E|g=793.4 {I4} with I|g=0.14 {I2} observed
83RB2cG in 1982Gr07.
83RB G 1174.08 15 0.17 2 C
83RBF G FLAG=g
83RB cG RI$others: 0.135 {I7} (1982Gr07), 0.19 {I2} (1973Br32).
83RB G 1208.17 0.062 7 C
83RB cG RI$others: 0.068 {I7} (1982Gr07), 0.02 {I1} (1973Br32).
83RB G 1592.31 0.039 6
83RB cG RI$others: 0.046 {I6} (1982Gr07), 0.08 {I2} (1973Br32).
83RB G 1597.64 15 0.111 8 C
83RBF G FLAG=g
83RB cG RI$others: 0.107 {I8} (1982Gr07), 0.12 {I3} (1973Br32).
83RB E 0.128 157.54 6 0.128 15
83RBS E CK=0.8729$CL=0.10484 4$CM+=0.022226 8
83RB L 1606.2 5 (3/2,5/2,7/2-)
83RB G 1506.91 0.022 2 C
83RB G 1600.97 0.20 2
83RB G 1606.07 0.0080 10
83RB cG E,RI$1606.0 {I7} transition with I|g=0.03 {I2} unplaced by 1973Br32.
83RB E 0.053 7 7.91 6 0.053 7
83RBS E CK=0.8729$CL=0.10489 4$CM+=0.022238 9
83RB L 1614.8 4 (5/2+,7/2,9/2+)
83RB G 371.9 0.020 2 C
83RB G 877.63 0.082 8 C
83RB cG E,RI$1973Br32 place a 879.1 {I4} transition with I|g=0.12 {I2} as
83RB2cG depopulating the 1916-keV level.
83RB G 1050.24 0.32 4 C
83RB cG E,RI$1982Gr07 observe E|g=1050.6 {I3} with I|g=0.375 {I15}, while
83RB2cG 1973Br32 place a 1050.7 {I4} transition with I|g=0.35 {I5} as
83RB3cG depopulating the 2135-keV level.
83RB G 1191.10 0.014 2
83RB G 1572.70 0.043 4
83RB E 0.128 147.51 5 0.128 14
83RBS E CK=0.8728$CL=0.10494 4$CM+=0.022249 9
83RB L 1649.4 5 (3/2-,5/2,7/2-)
83RB G 639.13 0.051 5 C
83RB G 795.34 0.076 8 C
83RB G 827.81 0.015 2
83RB G 1084.76 0.040 4 C
83RB G 1649.40 0.086 10
83RB cG E,RI$1982Gr07 observe E|g=1649.5 {I5} with I|g=0.120 {I10}, while
83RB2cG 1973Br32 place a 1648.8 {I5} transition with I|g=0.07 {I1} as
83RB3cG depopulating the 1749-keV level.
83RB E 0.072 6 7.72 4 0.072 6
83RBS E CK=0.8726$CL=0.10514 4$CM+=0.02230 1
83RB L 1695.45 13 (7/2,9/2)+
83RB G 270.8 0.030 3 C
83RB G 493.45 0.15 2 C
83RB G 599.12 0.018 2 C
83RB G 657.68 0.32 4 C
83RB cG E,RI$likely corresponds to E|g=657.73 {I15} with I|g=0.29 {I5}
83RB2cG observed in 1982Gr07.
83RB G 890.8 3 0.45 5 C
83RBF G FLAG=g
83RB cG RI$others: 0.46 {I5} (1982Gr07), 0.56 {I6} for multiply placed
83RB2cG transition, also placed as depopulating the level at 2135 keV
83RB3cG (1973Br32).
83RB G 1271.81 0.23 3 C
83RB cG RI$others: 0.22 {I3} (1982Gr07), 0.27 {I2} (1973Br32).
83RB G 1653.31 15 0.253 10 C
83RBF G FLAG=g
83RB cG RI$others: 0.225 {I10} (1982Gr07), 0.27 {I3} (1973Br32).
83RB E 0.37 4 6.94 5 0.37 4
83RBS E CK=0.8722$CL=0.10546 5$CM+=0.02238 2
83RB L 1749.33 8 (5/2+,7/2)
83RB G 506.4 0.26 3 C
83RB G 547.3 0.030 3 C
83RB G 652.81 10 0.28 3 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=652.8 with I|g=0.25 {I3}, while 1973Br32
83RB2cG place a 652.5 {I4} transition with I|g=0.33 {I8} as depopulating the
83RB3cG 1695-keV level.
83RB G 944.56 10 0.44 4 C
83RBF G FLAG=g
83RB cG RI$others: 0.460 {I15} (1982Gr07), 0.49 {I4} (1973Br32), for a
83RB2cG multiply placed transition, also placed as depopulating 1044- and
83RB3cG 2147-keV levels.
83RB G 1184.54 0.018 2
83RB G 1325.62 0.256 25 C
83RBF G FLAG=a
83RB G 1707.15 0.077 6
83RB cG RI$others: 0.077 {I6} (1982Gr07), 0.10 {I2} (1973Br32).
83RB G 1749.25 25 0.091 10
83RBF G FLAG=g
83RB cG RI$others: 0.077 {I6} (1982Gr07), 0.09 {I2} (1973Br32).
83RB E 0.39 4 6.83 5 0.39 4
83RBS E CK=0.8716$CL=0.10590 6$CM+=0.02249 2
83RB L 1798.57 8 (5/2)+
83RB G 555.63 0.027 3 C
83RB G 715.34 10 0.337 20 C
83RBF G FLAG=g
83RB cG RI$others: 0.340 {I15} (1982Gr07), 0.33 {I3} (1973Br32).
83RB G 993.78 1.2 2 M1+E2 3.4 22 5.42E-412 C
83RBS G KC=0.000480 11$LC=5.18E-5 13$MC=8.54E-6 21$NC=9.67E-7 23$OC=4.17E-8 8
83RB cG RI$others: <2.04 (1982Gr07) and <2.08 (1973Br32) for doublet
83RB2cG transition, also placed from the 1038-keV level.
83RB cG M$D+Q from A{-2}=+0.35 {I4}, A{-4}=-0.08 {I7} for 994|g-762|g cascade
83RB2cG (1973Br32); |D|p=no from level scheme
83RB cG MR$from |g|g(|q) in 1973Br32, 1.2 |< |d |<5.6
83RB G 1233.94 0.067 7 C
83RB cG RI$others: 0.125 {I20} (1982Gr07), 0.09 {I2} (1973Br32).
83RB G 1374.97 15 0.180 20 C
83RBF G FLAG=g
83RB cG RI$others: 0.154 {I7} (1982Gr07), 0.21 {I3} (1973Br32).
83RB G 1756.5 2 0.075 6 [E2] 3.58E-4
83RBF G FLAG=g
83RBS G KC=0.0001458 21$LC=1.547E-5 22$MC=2.55E-6 4$NC=2.90E-7 4$
83RBS G OC=1.267E-8 18
83RB cG RI$others: 0.066 {I6} (1982Gr07), 0.08 {I2} (1973Br32).
83RB G 1793.23 0.038 6 [E1] 5.58E-4
83RBS G KC=7.47E-5 11$LC=7.86E-6 11$MC=1.294E-6 19$NC=1.473E-7 21$OC=6.46E-9 9
83RB cG E,RI$1982Gr07 observe E|g=1793.25 {I25} with I|g=0.042 {I6}
83RB G 1798.55 15 0.101 9 [E1] 5.62E-4
83RBF G FLAG=g
83RBS G KC=7.44E-5 11$LC=7.82E-6 11$MC=1.288E-6 18$NC=1.466E-7 21$OC=6.43E-9 9
83RB cG RI$others: 0.091 {I7} (1982Gr07), 0.14 {I4} (1973Br32).
83RB E 0.53 7 6.61 6 0.53 7
83RBS E CK=0.8710$CL=0.10640 7$CM+=0.02261 2
83RB L 1916.41 19 (5/2,7/2-)
83RB G 1492.78 0.065 7 C
83RB cG E,RI$1982Gr07 observe E|g=1492.1 {I3} with I|g=0.053 {I7}
83RB G 1911.15 20 0.112 10
83RBF G FLAG=g
83RB cG RI$others: 0.100 {I6} (1982Gr07), 0.14 {I2} (1973Br32).
83RB G 1916.4 0.010 1
83RB E 0.050 5 7.37 5 0.050 5
83RBS E CK=0.8688 2$CL=0.10818 13$CM+=0.02304 3
83RB L 1952.04 6 5/2+
83RB G 153.55 0.043 4 C
83RB G 345.80 0.030 3 C
83RB G 354.32 0.20 2 C
83RB G 577.18 0.030 3 C
83RB G 674.41 0.16 2 C
83RB cG E,RI$1982Gr07 observe E|g=674.0 {I3} with I|g=0.23 {I2}, while
83RB2cG 1973Br32 place a E|g=673.9 {I4} transition with I|g=0.23 {I3} as
83RB3cG depopulating the 1916-keV level.
83RB G 709.1 4 0.054 5 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=709.1 {I4} with I|g=0.050 {I8}, while
83RB2cG 1973Br32 place a E|g=710.6 {I6} transition with I|g=0.09 {I2} as
83RB3cG depopulating the 1749-keV level.
83RB G 749.96 0.14 2 C
83RB G 868.6 4 0.063 6 C
83RBF G FLAG=g
83RB cG RI$others: 0.049 {I15} (1982Gr07), 0.09 {I2} (1973Br32).
83RB G 916.91 10 0.47 5 C
83RB cG E,RI$1982Gr07 observe E|g=916.91 {I4} with I|g=0.441 {I13}, while
83RB2cG 1973Br32 place a 916.9 {I3} transition with I|g=0.43 {I4} as
83RB3cG depopulating a 2020-keV level.
83RB G 941.94 0.031 3
83RB G 1044.03 10 1.17 10 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=1044.0 with I|g=1.16 {I4}, while 1973Br32
83RB2cG multiply place a 1044.3 {I3} transition with I|g=1.20 {I16} as
83RB3cG depopulating 1044-, 1085.5, and 2147-keV levels.
83RB G 1098.05 10 0.87 3 C
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=1098.1 with I|g=0.86 {I3}, while 1973Br32
83RB2cG place a 1098.4 {I3} transition with I|g=0.89 {I6} as depopulating the
83RB3cG 1103-keV level.
83RB G 1130.41 15 0.14 1 C
83RBF G FLAG=g
83RB cG E$1982Gr07 observe E|g=1130.41 {I15} with I|g=0.133 {I8}, while
83RB2cG 1973Br32 place a 1130.7 {I4} transition with I|g=0.13 {I3} as
83RB3cG depopulating a 1695-keV level.
83RB G 1147.33 10 4.28 11 M1+E2 4.7 24 3.95E-4 C
83RBF G FLAG=g
83RBS G KC=0.000348 5$LC=3.73E-5 6$MC=6.15E-6 9$NC=6.98E-7 10$OC=3.02E-8 5
83RB cG RI$others: 4.28 {I11} (1982Gr07), 4.13 {I22} (1973Br32).
83RB cG MR$from |g|g(|q) in 1973Br32, 2.3 |< |d |<7.0
83RB cG M$D+Q from A{-2}=+0.203 {I11}, A{-4}=+0.103 {I24} for 1147|g-762|g
83RB2cG cascade (1973Br32); |D|p=no from level scheme.
83RB G 1214.88 15 0.85 5 [E1] 2.15E-4 C
83RBF G FLAG=g
83RBS G KC=0.0001431 20$LC=1.512E-5 22$MC=2.49E-6 4$NC=2.83E-7 4$
83RBS G OC=1.235E-8 18
83RB cG RI$others: 0.80 {I3} (1982Gr07), 0.76 {I4} for multiply placed
83RB2cG transition, also placed as depopulating a level at 2020 keV
83RB3cG (1973Br32).
83RB G 1387.38 0.085 9 C
83RB G 1528.33 15 0.330 15 C
83RBF G FLAG=g
83RB cG RI$others: 0.308 {I13} (1982Gr07), 0.32 {I3} (1973Br32).
83RB G 1562.51 15 6.0 2 [E1] 4.02E-4 C
83RBF G FLAG=g
83RBS G KC=9.31E-5 13$LC=9.81E-6 14$MC=1.615E-6 23$NC=1.84E-7 3$OC=8.04E-9 12
83RB cG RI$others: 5.88 {I14} (1982Gr07), 6.6 {I4} (1973Br32).
83RB G 1946.66 0.065 6 [E1] 6.61E-4
83RBS G KC=6.59E-5 10$LC=6.92E-6 10$MC=1.139E-6 16$NC=1.296E-7 19$OC=5.69E-9 8
83RB cG RI$others: 0.24 {I4} (1982Gr07), 0.19 {I2} (1973Br32).
83RB G 1952.06 15 2.70 10 [E1] 6.65E-4
83RBF G FLAG=g
83RBS G KC=6.56E-5 10$LC=6.89E-6 10$MC=1.134E-6 16$NC=1.291E-7 18$OC=5.66E-9 8
83RB cG RI$others: 2.58 {I7} (1982Gr07), 2.90 {I16} (1973Br32).
83RB E 4.7 4 5.31 4 4.7 4
83RBS E CK=0.8678 2$CL=0.10899 16$CM+=0.02324 4
83RB L 2036.5 5 (5/2,7/2-)
83RB G 1231.85 0.0080 8
83RB G 1612.70 0.034 4 C
83RB cG E,RI$1973Br32 place a 1612.7 {I5} transition with I|g=0.05 {I2} as
83RB2cG depopulating a 2178-keV level.
83RB G 1647.21 0.080 8
83RB G 2030.99 0.0120 12
83RB E 0.036 4 7.14 6 0.036 4
83RBS E CK=0.8641 4$CL=0.1120 3$CM+=0.02397 8
83RB L 2057.14 12 (7/2+,9/2)
83RB G 1019.45 15 0.18 2 C
83RBF G FLAG=g
83RB cG RI$others: 0.16 {I3} (1982Gr07), 0.23 {I3} (1973Br32).
83RB G 1252.45 20 0.049 7 C
83RBF G FLAG=g
83RB cG RI$others: 0.048 {I7} (1982Gr07), 0.05 {I2} (1973Br32).
83RB G 1319.84 0.013 2
83RB G 2014.98 15 0.143 10
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=2015.0 with I|g=0.153 {I10}, while 1973Br32
83RB2cG place a 2015.0 {I4} transition with I|g=0.15 {I2} as depopulating a
83RB3cG 2020-keV level.
83RB E 0.103 106.60 5 0.103 10
83RBS E CK=0.8627 5$CL=0.1131 4$CM+=0.02424 9
83RB L 2089.90 8 (5/2+,7/2+)
83RB G 394.47 0.026 3 C
83RB G 723.72 0.016 2 C
83RB G 812.32 0.021 2 C
83RB G 846.87 0.19 2 C
83RBF G FLAG=d
83RB G 993.22 0.17 2 C
83RB G 1285.02 0.30 3 C
83RB cG E,RI$likely corresponds to E|g=1285.11 {I15} with I|g=0.261 {I14}
83RB2cG observed in 1982Gr07.
83RB G 1352.46 0.034 4 C
83RB G 1525.22 0.0050 5
83RB G 1666.20 15 0.28 2 C
83RBF G FLAG=g
83RB cG RI$others: 0.260 {I8} (1982Gr07), 0.27 {I3} for multiply placed
83RB2cG transition, also placed as tentatively depopulating the level at 2056
83RB3cG keV (1973Br32).
83RB G 2047.81 15 0.320 10
83RBF G FLAG=g
83RB cG RI$others: 0.316 {I10} (1982Gr07), 0.36 {I3} for multiply placed
83RB2cG transition, also placed as tentatively depopulating a level at 2147
83RB3cG keV (1973Br32).
83RB G 2089.94 15 0.400 20
83RBF G FLAG=g
83RB cG RI$others: 0.405 {I20} (1982Gr07), 0.47 {I3} (1973Br32).
83RB E 0.47 4 5.79 5 0.47 4
83RBS E CK=0.8598 7$CL=0.1154 6$CM+=0.02481 13
83RB L 2095.0 6 (5/2+,7/2,9/2)
83RB G 892.96 0.048 5 C
83RB G 1290.23 0.016 2
83RB G 2052.93 0.028 6
83RB cG E,RI$likely corresponds to E|g=2053.4 {I3} with I|g=0.022 {I6}
83RB2cG observed in 1982Gr07
83RB E 0.025 3 7.04 7 0.025 3
83RBS E CK=0.8592 8$CL=0.1159 6$CM+=0.02492 14
83RB L 2134.86 11 (5/2+,7/2)
83RB G 537.12 0.034 4 C
83RB G 768.90 0.026 3 C
83RB G 838.78 0.018 2 C
83RB cG E,RI$1973Br32 tentatively place a 838 {I1} transition with I|g=0.03
83RB2cG {I3} as depopulating the 1598-keV level.
83RB G 1038.23 0.30 3 C
83RB cG E,RI$1982Gr07 observe E|g=1038.55 {I25} with I|g=0.29 {I3}, while
83RB2cG 1973Br32 place a 1038.8 {I3} transition with I|g=0.20 {I7} as
83RB3cG depopulating a 1044-keV level.
83RB G 1330.03 0.026 3 C
83RB cG E,RI$1973Br32 place a 1331.6 {I8} transition with I|g=0.05 {I3} as
83RB2cG depopulating the 2090-keV level.
83RB G 1397.56 0.041 4 C
83RB cG E,RI$1982Gr07 observe a single 1396.7 {I8} transition with I|g=0.061
83RB2cG {I8} which could correspond to the closely spaced 1396.0-and 1397.6-
83RB3cG keV transitions observed by 2000Sh49.
83RB G 1711.15 20 0.111 10 C
83RBF G FLAG=g
83RB cG RI$others: 0.100 {I7} (1982Gr07), 0.13 {I2} (1973Br32).
83RB G 2092.46 0.0050 5
83RB G 2134.89 15 0.093 7
83RB cG RI$others: 0.090 {I7} (1982Gr07), 0.10 {I2} (1973Br32).
83RB E 0.175 155.95 6 0.175 15
83RBS E CK=0.8532 13$CL=0.1207 11$CM+=0.0261 3
83RB L 2189.73 14 9/2+
83RB G 494.1 0.050 5 C
83RB G 764.82 0.22 2 C
83RB G 987.60 0.032 3 C
83RB G 1086.67 0.098 10 [E1] 1.97E-4 C
83RBS G KC=0.0001754 25$LC=1.86E-5 3$MC=3.05E-6 5$NC=3.47E-7 5$OC=1.513E-8 22
83RB cG E,RI$1982Gr07 observe E|g=1086.3 {I3} with I|g=0.116 {I18}, while
83RB2cG 1973Br32 place a 1086.5 {I4} transition with I|g=0.13 {I2} as
83RB3cG depopulating a 1085.5-keV level.
83RB G 1151.97 0.017 2 C
83RB G 1384.83 0.34 4 C
83RB cG E,RI$1982Gr07 observe a doublet E|g=1382.6 {I6} and E|g=1384.9 {5}
83RB2cG with combined I|g=0.512 {I20}, while 1973Br32 place a 1385.4 {I4}
83RB3cG transition with I|g=0.35 {I7} as depopulating a 1808-keV level.
83RB G 1395.96 0.031 3 [E2] 3.10E-4 C
83RBS G KC=0.000230 4$LC=2.45E-5 4$MC=4.04E-6 6$NC=4.58E-7 7$OC=1.99E-8 3
83RB cG E,RI$1982Gr07 observe a single 1396.7 {I8} transition with I|g=0.061
83RB2cG {I8} which could correspond to the closely spaced 1396.0-and 1397.6-
83RB3cG keV transitions observed by 2000Sh49.
83RB G 1452.50 0.027 7 [E1] 3.29E-4 C
83RBS G KC=0.0001051 15$LC=1.108E-5 16$MC=1.82E-6 3$NC=2.07E-7 3$OC=9.08E-9 13
83RB cG E,RI$likely corresponds to E|g=1452.5 {I4} with I|g=0.027 {I7}
83RB2cG observed in 1982Gr07.
83RB G 1765.84 0.059 6 [E2] 3.60E-4 C
83RBS G KC=0.0001444 21$LC=1.531E-5 22$MC=2.52E-6 4$NC=2.87E-7 4$
83RBS G OC=1.254E-8 18
83RB cG E,RI$1982Gr07 observe E|g=1765.7 {I4} with I|g=0.050 {I6}, while
83RB2cG 1973Br32 place a 1765.2 {I5} transition with I|g=0.08 {I3} as
83RB3cG depopulating a 1808-keV level.
83RB G 2147.64 15 0.56 4
83RBF G FLAG=g
83RB cG E,RI$1982Gr07 observe E|g=2147.64 with I|g=0.570 {I17}, while
83RB2cG 1973Br32 place a 2147.6 {I4} transition with I|g=0.62 {I4} as
83RB3cG depopulating a 2147-keV level.
83RB E 0.38 3 5.11 9 0.38 3
83RBS E CK=0.833 5$CL=0.137 4$CM+=0.0301 9