138BA 138CS B- DECAY (32.5 M) 1974CA02,1975SCZZ,1995MA7517NDS 201711
138BA H TYP=FUL$AUT=JUN CHEN$CIT=NDS 146, 1 (2017)$CUT=30-Sep-2017$
138BA DG CC$FROM BrIcc v2.3a (10-Sep-2014) 2008Ki07, "Frozen Orbitals" appr.
138BA CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
138BA2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
138BA c 1974Ca02,1975ScZZ: source of {+138}Cs was produced from fission of
138BA2c {+235}U induced by neutron flux from the Ames Laboratory research
138BA3c reactor. |g rays were detected with a pair of Ge(Li) detectors, a
138BA4c NaI(Tl) crystal, a Ge(Li) planar low-energy photon spectrometer and a
138BA5c Si(Li) detector; |b particles were detected with a well-type plastic
138BA6c scintillation detector. Measured E|g, I|g, E|b, |b|g-coin, |g|g-coin.
138BA7c Deduced levels, J, |p, |b-decay branching ratios, log {Ift} values,
138BA8c configurations. Comparisons with available data and shell-model
138BA9c calculations. Observed about 86 |g rays that belong to {+138}Ba.
138BAac Values of |g-ray intensities from 1975ScZZ supersede those from
138BAbc 1974Ca02. 1974Ca02 supersedes 1972CaYY.
138BA c 1995Ma75: Source of {+138}Cs was produced at the OSIRIS fission product
138BA2c mass separator at Studsvik. |g rays were detected with a small BaF{-2}
138BA3c scintillator and |b particles were detected with a small plastic
138BA4c scintillator. Measured E|g, I|g, |b|g|g(t). Deduced T{-1/2} for 10
138BA5c levels. Comparisons with available data.
138BA c 1971Ca21: Source of {+138}Cs was produced via the thermal-neutron
138BA2c induced fissions of {+235}U and also the {+138}Ba(n,p) reaction,
138BA3c at CEN, Grenoble. |g and X rays were detected with Ge(Li) detectors
138BA4c (FWHM=1.2 keV at 122 keV, 3-4 keV at 1333 keV) and NaI(Tl) detectors;
138BA5c |b particles and conversion electrons were detected by a |b detector.
138BA6c Measured E|g, I|g, E|b, |b|g-coin, |g|g-coin, |b|g(t). Deduced levels,
138BA7c J, |p, half-life, decay branching, conversion coefficient, |g-ray
138BA8c multi polarities. Systematics of neighboring isotones.
138BA c 1970Na03: Measured E|g, I|g, |g|g-coin. Deduced levels, J, |p,
138BA2c log {Ift}, |b-branching. Report 33 |g rays.
138BA c 1972Hi02: Measured E|g, I|g, |g|g-coin. Deduced levels, J, |p,
138BA2c log {Ift}, |g-branchings. Report 64 |g rays.
138BA c 1971Be35: Measured E|g, I|g, |g(t). Deduced levels, |g-branchings,
138BA2c parent T{-1/2}.
138BA c 1972Ac02: Measured E|g, I|g, I(ce). Deduced levels, J, |p, conversion
138BA2c coefficients, log {Ift}, |g-ray multipolarities. Report 11 |g rays.
138BA c 1973Si33: Measured E|g, I|g, |g|g(|q). Deduced levels, J, |p, |g-ray
138BA2c mixing ratios.
138BA c 1975Ba21: Measured E|g, I|g, |g|g(|q). Deduced levels, J, |p, |g-ray
138BA2c mixing ratios.
138BA c 1979Bo26: Measured E|g.
138BA c 1985Be04: Measured g-factor for the 4+ state.
138BA d 1985Hi05: superseded by 1985Be04
138BA c 2011Ro42: Measured E|g, I|g, |b|g|g(t), |g|g(t). Deduced T{-1/2}
138BA c Others: 2016Li20, 2013Xi08, 1993Ka09, 1997Gr09, 1994He33, 1992Gr21,
138BA2c 1982Al01, 1981De25, 1978Au08, 1978Wo15, 1978Wu04, 1975Fr23, 1973Jo02,
138BA3c 1972Eh02, 1972Ho08, 1969Ca03, 1963Cu04
138BA d 1956BuAA: Phys Rev 103, 1417 (1956)
138BA c The total average radiation energy released by {+138}Cs |b{+-} decay
138BA2c is 5382 keV {I67} (calculated by evaluator using the computer program
138BA3c RADLST). This value agrees well with Q(|b{+-})=5375 keV {I9} (2017Wa10)
138BA4c and shows the completeness of the decay scheme.
138BA c Level scheme is taken from 1974Ca02.
138BA cB IB$From I(|g+ce) intensity balance at each level, with conversion
138BA2cB coefficients calculated using the BrIcc program.
138BA cG E,RI$Quoted values of E|g are from 1974Ca02 and values of I|g are
138BA2cG from 1975ScZZ, unless otherwise noted. Data are also available in
138BA3cG 1972Hi02 and 1971Ca21 that agree well with quoted values but less
138BA4cG precise and complete. Quoted values of I|g are relative intensities
138BA5cG normalized to I|g(1435.77|g)=1000.
138BA cG M,MR$From Adopted Gammas. Arguments from this data set for the
138BA2cG assignments are measured |a(K)exp and |g(|q) data given in comments.
138BA3cG |a(K)exp were normalized to |a(K)(1436|g)=7.43|*10{+-4} (E2) (1972Ac02)
138BA cL E$From a least-squares fit to |g-ray energies.
138BA cL J$From Adopted Levels
138BA cL T$From |b|g|g(t) in 1995Ma75, unless otherwise noted. 1995Ma75 use
138BA2cL following T{-1/2} values for internal timing calibration: 0.192 ps {I5}
138BA3cL for 1436 level, 0.123 ps {I14} for 2218 level and 0.30 ps {I8} for 2640
138BA4cL level.
138CS P 0.0 3- 32.5 M 2 5375 9
138CS cP J,T$From Adopted Levels of {+138}Cs
138CS cP QP$From 2017Wa10
138BA N 0.0763 12 1.00
138BA cN NR$From |SI(|g+ce to g.s.)=100, assuming no direct ground-state |b{+-}
138BA2cN feeding
138BA dN NR$The uncertainty could be over-estimated for those with large I|g
138BA2dN and |DI|g. To get correct uncertainty in absolute I|g for each |g
138BA3dN transition, use the GABS program.
138BA PN 3
138BA G 797.7 50.7 3
138BA2 G %IG=0.053 23
138BA G 802.6 30.5 3
138BA2 G %IG=0.038 23
138BA G 1199.15 242.2 4
138BA2 G %IG=0.17 3
138BA G 1477.9 13 0.3 1
138BA2 G %IG=0.023 8
138BA cG E,RI$from 1972Hi02, also observed in 1970Na03 but not in 1974Ca02.
138BA2cG 1972Hi02 place this |g from the 3922 level and a level at 4358
138BA G 1572.9 12 0.4 2
138BA2 G %IG=0.031 16
138BA cG E,RI$from 1972Hi02 only, placed from a level at 3880
138BA G 1844.0 8
138BA cG E$from 1972Hi02 only
138BA G 1941.0 31.03 20
138BA2 G %IG=0.079 16
138BA G 1981.3 10 1.8 8
138BA2 G %IG=0.14 6
138BA cG E,RI$from 1972Hi02 only, placed from a level at 3880
138BA G 2105.9 3 0.72 13
138BA2 G %IG=0.055 10
138BA G 2510.5 8 0.20 9
138BA2 G %IG=0.015 7
138BA G 2922.0 13 0.11 5
138BA2 G %IG=0.008 4
138BA cG E,RI$from 1972Hi02 only, placed from a level at 4358
138BA G 3180.4 7 0.11 3
138BA2 G %IG=0.0084 23
138BA L 0.0 0+ STABLE
138BA cL T$from Adopted Levels
138BA L 1435.86 5 2+
138BA B 4.3 18 8.6 2
138BAS B EAV=1669.6 42
138BA G 1435.77 7 1000 20E2 9.18E-4
138BA2 G %IG=76.3 5
138BAS G KC=0.000743 11$LC=9.37E-5 14$MC=1.92E-5 3
138BAS G NC=4.14E-6 6$OC=6.34E-7 9$PC=4.62E-8 7$IPC=5.72E-5 8
138BA cG E$weighted average of 1435.86 {I9} (1974Ca02) and 1435.72 {I7}
138BA2cG (1972Ac02)
138BA L 1898.64 5 4+ 2.160 NS 11
138BA2 L G=0.80 14 (1985Be04)
138BA cL T$weighted average of 2.164 ns {I11} (1995Ma75), 2.13 ns {I3}
138BA2cL (2011Ro42) and 2.17 ns {I8} (1963Cu04)
138BA B 13.7 7 7.86 2
138BAS B EAV=1453.6 42
138BA G 462.785 5 403 8E2 0.01223
138BA2 G %IG=30.8 7
138BA cG E$from 1975Fr23. Others: 462.77 {I4} (1979Bo26), 462.79 {I7}
138BA2cG (1974Ca02), 462.82 {I12} (1972Ac02).
138BA cG M$|a(K)exp=0.0105 {I13} (1972Ac02)
138BA cG $A{-2}=+0.14 {I3}, A{-4}=+0.003 {I50} (1973Si33), A{-2}=+0.117 {I15},
138BA2cG A{-4}=-0.001 {I17} (1975Ba21) for 463-1436 cascade
138BAS G KC=0.01024 15$LC=0.001578 22$MC=0.000329 5
138BAS G NC=7.02E-5 10$OC=1.037E-5 15$PC=6.12E-7 9
138BA L 2090.60 86+
138BA G 191.96 6 6.6 5E2 0.198
138BA2 G %IG=0.50 4
138BAS G KC=0.1524 22$LC=0.0359 5$MC=0.00769 11
138BAS G NC=0.001614 23$OC=0.000224 4$PC=8.01E-6 12
138BA L 2203.12 106+ 55 PS 17
138BA G 112.50 10 1.7 3M1+E2 -0.25 2 0.739 12
138BA2 G %IG=0.130 23
138BAS G KC=0.618 9$LC=0.096 3$MC=0.0200 6
138BAS G NC=0.00428 13$OC=0.000638 17$PC=3.98E-5 6
138BA cG E$weighted average of 112.60 {I13} (1974Ca02) and 112.44 {I10}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp|<0.83 (1972Ac02)
138BA L 2217.92 62+
138BA B 12.9 4 7.71 2
138BAS B EAV=1305.1 42
138BA G 782.08 9 4.3 4
138BA2 G %IG=0.33 3
138BA G 2218.00 10 199 4E2 7.80E-4
138BA2 G %IG=15.2 4
138BAS G KC=0.000330 5$LC=4.05E-5 6$MC=8.28E-6 12
138BAS G NC=1.79E-6 3$OC=2.75E-7 4$PC=2.05E-8 3$IPC=0.000400 6
138BA L 2307.59 6 4+ 7 PS 3
138BA B 7.3 3 7.91 2
138BAS B EAV=1263.6 42
138BA G 408.98 6 61.1 12M1+E2 -0.23 +7-10 0.0216 4
138BA2 G %IG=4.66 12
138BAS G KC=0.0185 4$LC=0.00242 4$MC=0.000499 7
138BAS G NC=0.0001076 16$OC=1.648E-5 24$PC=1.201E-6 25
138BA cG E$weighted average of 408.98 {I6} (1974Ca02) and 408.98 {I8}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp=0.021 {I4} (1972Ac02)
138BA cG MR$1973Si33 report -0.85<|d<-0.05, 1975Ba21 report |d=0.05 {I+20-12}
138BA cG $A{-2}=+0.27 {I3}, A{-4}=-0.01 {I8} (1973Si33), A{-2}=+0.211 {I37},
138BA2cG A{-4}=+0.009 {I40} (1975Ba21), A{-2}=+0.194 {I4}, A{-4}=-0.008 {I20}
138BA3cG (1985Be04) for 409-1436 correlation;
138BA4cG A{-2}=+0.192 {I10}, A{-4}=-0.02 {I3} (1985Be04) for 409-463 cascade
138BA G 871.72 7 67.0 17E2 0.00245
138BA2 G %IG=5.11 15
138BAS G KC=0.00210 3$LC=0.000281 4$MC=5.79E-5 9
138BAS G NC=1.244E-5 18$OC=1.88E-6 3$PC=1.299E-7 19
138BA cG E$weighted average of 871.80 {I8} (1974Ca02) and 871.66 {I7}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp=0.0028 {I8} (1972Ac02)
138BA cG $A{-2}=+0.05 {I10}, A{-4}=-0.12 {I18} (1973Si33), A{-2}=+0.130 {I31},
138BA2cG A{-4}=-0.024 {I34} (1975Ba21), A{-2}=+0.126 {I20}, A{-4}=-0.006 {I30}
138BA3cG (1985Be04), for 872-1436 cascade
138BA L 2415.48 85+ 16 PS 8
138BA B 0.66 6 10.26 4 1U
138BAS B EAV=1200.3 41
138BA G 212.34 8 2.29 18(M1) 0.1216
138BA2 G %IG=0.175 14
138BAS G KC=0.1042 15$LC=0.01378 20$MC=0.00284 4
138BAS G NC=0.000613 9$OC=9.39E-5 14$PC=6.84E-6 10
138BA cG E$weighted average of 212.32 {I8} (1974Ca02) and 212.38 {I10}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp=0.21 {I5} (1972Ac02)
138BA G 324.90 8 3.80 24M1+E2 -7.8 +17-260.0352
138BA2 G %IG=0.290 19
138BAS G KC=0.0289 4$LC=0.00503 7$MC=0.001059 15
138BAS G NC=0.000225 4$OC=3.25E-5 5$PC=1.660E-6 24
138BA cG E$weighted average of 324.90 {I8} (1974Ca02) and 324.90 {I12}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp|<0.034 (1972Ac02)
138BA G 516.74 12 5.6 6M1+E2 -0.11 4 0.0120918
138BA2 G %IG=0.43 5
138BAS G KC=0.01041 15$LC=0.001339 19$MC=0.000275 4
138BAS G NC=5.94E-5 9$OC=9.12E-6 13$PC=6.73E-7 10
138BA L 2445.64 6 3+ 5 PS 4
138BA B 44 1 7.04 1
138BAS B EAV=1199.7 42
138BA G 138.08 6 19.5 11 M1,E2 0.51 11
138BA2 G %IG=1.49 9
138BAS G KC=0.39 6$LC=0.09 5$MC=0.020 11
138BAS G NC=0.0041 22$OC=0.0006 3$PC=2.21E-5 5
138BA cG E$weighted average of 138.10 {I6} (1974Ca02) and 138.02 {I10}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp=0.40 {I9} (1972Ac02)
138BA G 227.76 6 19.8 5M1,E2 0.106 6
138BA2 G %IG=1.51 5
138BAS G KC=0.0871 15$LC=0.015 4$MC=0.0031 8
138BAS G NC=0.00067 16$OC=9.7E-5 20$PC=5.2E-6 5
138BA cG E$weighted average of 227.76 {I6} (1974Ca02) and 227.75 {I10}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp=0.089 {I10} (1972Ac02)
138BA G 546.990 15 141 3M1+E2 -0.07 3 0.01052
138BA2 G %IG=10.8 3
138BAS G KC=0.00906 13$LC=0.001163 17$MC=0.000239 4
138BAS G NC=5.16E-5 8$OC=7.92E-6 12$PC=5.86E-7 9
138BA cG E$from 1979Bo26. Others: 546.94 {I7} (1974Ca02), 546.87 {I15}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp=0.0105 {I14} (1972Ac02)
138BA cG MR$1973Si33 report -0.06<|d<-0.015, 1975Ba21 report |d=0.10 {I3}
138BA cG $A{-2}=-0.107 {I24}, A{-4}=-0.002 {I40} (1973Si33), A{-2}=-0.053 {I22},
138BA2cG A{-4}=+0.004 {I25} (1975Ba21), A{-2}=-0.034 {I10}, A{-4}=+0.001 {I14}
138BA3cG (1985Be04), for 547-1436 correlation
138BA G 1009.78 7 391 8M1+E2 0.0021 4
138BA2 G %IG=29.8 6
138BAS G KC=0.0018 3$LC=0.00023 4$MC=4.8E-5 7
138BAS G NC=1.03E-5 15$OC=1.57E-6 24$PC=1.15E-7 21
138BA cG E$weighted average of 1009.78 {I8} (1974Ca02) and 1009.78 {I7}
138BA2cG (1972Ac02)
138BA cG M$|a(K)exp=0.0022 {I4} (1972Ac02)
138BA cG MR$1973Si33 report -0.015<|d<0.020, 1975Ba21 report 0.01 {I3}
138BA cG $A{-2}=-0.065 {I14}, A{-4}=-0.002 {I40} (1973Si33), A{-2}=-0.084 {I20},
138BA2cG A{-4}=-0.010 {I22} (1975Ba21), A{-2}=-0.096 {I32}, A{-4}=+0.014 {I45}
138BA3cG (1985Be04), for 1010-1436 cascade
138BA L 2583.14 8 1+ 7 PS LE
138BA B 1.67 8 8.38 2
138BAS B EAV=1136.2 42
138BA G 365.29 13 2.5 3
138BA2 G %IG=0.191 23
138BA G 1147.22 9 16.3 9
138BA2 G %IG=1.24 7
138BA G 2583.15 13 3.13 20
138BA2 G %IG=0.239 16
138BA L 2639.53 72+
138BA B 8.8 3 7.62 2
138BAS B EAV=1110.3 42
138BA G 193.89 8 4.3 3
138BA2 G %IG=0.328 24
138BA G 421.59 7 5.6 3
138BA2 G %IG=0.427 24
138BA G 1203.69 13 5.2 5
138BA2 G %IG=0.40 4
138BA G 2639.59 13 100 3E2 8.78E-4
138BA2 G %IG=7.63 25
138BAS G KC=0.000242 4$LC=2.96E-5 5$MC=6.04E-6 9
138BAS G NC=1.304E-6 19$OC=2.01E-7 3$PC=1.506E-8 21$IPC=0.000599 9
138BA L 2779.44 84+ 6 PS LE
138BA B 1.59 8 8.27 2
138BAS B EAV=1046.0 42
138BA G 333.86 16 1.17 20
138BA2 G %IG=0.089 16
138BA G 363.93 8 3.2 3
138BA2 G %IG=0.244 24
138BA G 880.8 3 1.5 4
138BA2 G %IG=0.11 3
138BA G 1343.59 9 15.0 7
138BA2 G %IG=1.14 6
138BA L 2851.62 11 4+ 11 PS LE
138BA B 0.20 5 9.1 1
138BAS B EAV=1012.9 42
138BA G 953.0 3 0.69 19
138BA2 G %IG=0.053 15
138BA G 1415.68 13 4.8 4(Q)
138BA2 G %IG=0.37 3
138BA L 2880.92 14 3- 11 PS LE
138BA B 0.54 20 8.7 2
138BAS B EAV=999.5 42
138BA G 1445.04 25 12.7 25D+(Q) -0.14 +2-5
138BA2 G %IG=0.97 19
138BA L 2931.48 21 (1,2+)
138BA B 0.20 4 9.1 1
138BAS B EAV=976.4 42
138BA G 1495.63 23 2.4 5
138BA2 G %IG=0.18 4
138BA G 2931.4 4 0.26 5
138BA2 G %IG=0.020 4
138BA L 2991.18 83+ 11 PS LE
138BA B 0.65 4 8.50 3
138BAS B EAV=949.1 41
138BA G 575.7 4 0.27 11
138BA2 G %IG=0.021 9
138BA G 683.59 15 1.42 18
138BA2 G %IG=0.108 14
138BA G 773.31 10 3.05 24M1+E2 -2.0 +4-6 0.0035012
138BA2 G %IG=0.233 19
138BAS G KC=0.00300 11$LC=0.000401 12$MC=8.27E-5 23
138BAS G NC=1.78E-5 5$OC=2.70E-6 8$PC=1.87E-7 8
138BA G 1555.31 10 4.8 3M1+E2 +0.21 +6-4 1.01E-3
138BA2 G %IG=0.366 24
138BAS G KC=0.000792 12$LC=9.84E-5 15$MC=2.01E-5 3
138BAS G NC=4.35E-6 7$OC=6.70E-7 10$PC=5.04E-8 8$IPC=9.82E-5 14
138BA L 3049.95 172+
138BA B 0.17 3 9.04 8
138BAS B EAV=922.4 41
138BA G 1614.09 20 1.8 3D+Q -0.08 +6-7
138BA2 G %IG=0.137 23
138BA G 3049.9 3 0.41 6
138BA2 G %IG=0.031 5
138BA L 3163.54 12(2)+
138BA B 0.34 3 8.65 4
138BAS B EAV=870.8 41
138BA G 717.7 3 0.53 16
138BA2 G %IG=0.040 13
138BA G 855.6 5 0.30 12
138BA2 G %IG=0.023 10
138BA G 946.0 5 0.41 17
138BA2 G %IG=0.031 13
138BA G 1264.94 16 1.80 22
138BA2 G %IG=0.137 17
138BA G 1727.68 18 1.46 17
138BA2 G %IG=0.111 13
138BA L 3242.59 12 3
138BA B 0.27 2 8.69 4
138BAS B EAV=835.0 41
138BA G 935.03 12 2.37 21
138BA2 G %IG=0.181 17
138BA G 1806.65 18 1.21 14
138BA2 G %IG=0.092 11
138BA L 3257.67 24 3 ?
138BA B 0.06 3 9.3 2
138BAS B EAV=828.2 41
138BA G 1359.1 5 0.63 25
138BA2 G %IG=0.048 19
138BA G 1821.7 3 0.59 13
138BA2 G %IG=0.045 10
138BA L 3339.05 19 2+
138BA B 0.17 2 8.81 6
138BAS B EAV=791.6 41
138BA G 1903.2 4 0.60 18
138BA2 G %IG=0.046 14
138BA G 3339.01 25 1.98 12
138BA2 G %IG=0.151 10
138BA L 3352.6 3 (1,2+)
138BA B 0.035 4 9.48 5
138BAS B EAV=785.5 41
138BA G 3352.6 3 0.46 5
138BA2 G %IG=0.035 4
138BA L 3367.02 25 2+
138BA B 0.23 2 8.65 4
138BAS B EAV=779.0 41
138BA G 3366.98 25 2.98 17
138BA2 G %IG=0.227 14
138BA L 3437.5 6 (1,2+)
138BA B 0.011 3 9.9 1
138BAS B EAV=747.4 41
138BA G 3437.5 6 0.15 4
138BA2 G %IG=0.011 3
138BA L 3442.6 6 2(+) ?
138BA B 0.011 3 9.9 1
138BAS B EAV=745.1 41
138BA G 3442.6 6 0.15 4
138BA2 G %IG=0.011 3
138BA L 3643.5 4 2+ ?
138BA G 3643.3 4 0.30 4
138BA2 G %IG=0.023 3
138BA L 3647.01 17 (3)-
138BA B 0.43 7 8.12 8
138BAS B EAV=654.3 40
138BA G 766.10 12 1.91 19
138BA2 G %IG=0.146 15
138BA G 1748.7 5 0.9 4
138BA2 G %IG=0.07 3
138BA G 2210.7 4 2.8 8
138BA2 G %IG=0.21 7
138BA L 3652.6 8 (1,2+)
138BA B 0.005 2 10.1 2
138BAS B EAV=651.8 40
138BA G 3652.5 8 0.07 2
138BA2 G %IG=0.0053 16
138BA L 3693.96 12
138BA B 0.30 3 8.23 5
138BAS B EAV=633.6 40
138BA G 702.92 17 1.10 17
138BA2 G %IG=0.084 13
138BA G 813.0 3 0.79 23
138BA2 G %IG=0.060 18
138BA G 842.21 16 1.07 15
138BA2 G %IG=0.082 12
138BA G 1386.39 21 0.99 15
138BA2 G %IG=0.076 12
138BA L 3922.54 18(3)-
138BA B 0.21 3 8.14 7
138BAS B EAV=533.9 39
138BA G 1041.4 3 0.83 22
138BA2 G %IG=0.063 17
138BA G 2023.93 20 1.54 20
138BA2 G %IG=0.118 16
138BA G 2487.1 6 0.30 10
138BA2 G %IG=0.023 8
138BA L 3935.22 15 2+
138BA B 0.48 6 7.77 6
138BAS B EAV=528.4 39
138BA G 596.2 4 0.34 13
138BA2 G %IG=0.026 10
138BA G 1054.32 15 2.08 25
138BA2 G %IG=0.159 20
138BA G 1717.1 3 1.4 3
138BA2 G %IG=0.107 23
138BA G 2499.4 3 2.2 6
138BA2 G %IG=0.17 5
138BA G 3935.2 5 0.23 4
138BA2 G %IG=0.018 3
138BA L 4012.3 4(2+,3,4+) ?
138BA B 0.08 2 8.5 1
138BAS B EAV=495.3 39
138BA G 368.7 4 0.29 11
138BA2 G %IG=0.022 9
138BA G 754.5 4 0.45 16
138BA2 G %IG=0.034 13
138BA G 2114.3 7 0.27 12
138BA2 G %IG=0.021 10
138BA L 4080.2 5 (1)-
138BA B 0.18 3 8.02 8
138BAS B EAV=466.4 39
138BA G 4080.1 5 0.23 3
138BA2 G %IG=0.0176 23
138BA L 4242.46 18 (1,2+) ?
138BA B 0.10 1 8.06 5
138BAS B EAV=398.3 38
138BA G 2806.57 17 1.31 10
138BA2 G %IG=0.100 8
138BA L 4508.04 15 (2+,3)
138BA B 0.16 2 7.43 6
138BAS B EAV=290.6 36
138BA G 2062.34 17 1.45 15
138BA2 G %IG=0.111 12
138BA G 2609.3 3 0.44 7
138BA2 G %IG=0.034 6
138BA G 3072.5 4 0.25 5
138BA2 G %IG=0.019 4
138BA L 4629.82 14
138BA B 0.26 3 6.98 6
138BAS B EAV=243.1 35
138BA G 1778.25 23 1.8 3
138BA2 G %IG=0.137 23
138BA cG E$other: 1978.3 {I6}, placed from a level at 4358 by 1972Hi02
138BA G 2731.12 15 1.57 10
138BA2 G %IG=0.120 8