190OS 190RE B- DECAY (3.1 H) 1974YA02 20NDS 202011
190OS H TYP=FUL$AUT=Balraj Singh,{+1} and Jun Chen{+2}$CIT=NDS 169, 1 (2020)$
190OS2 H CUT=15-Oct-2020$
190OS c 1974Ya02 (also 1974YaZU, 1972Da07): sources of the {+190} isomer
190OS2c were produced by the {+190}Os(d,|a) reaction with 18 MeV deuterons
190OS3c provided by the ANL 152-cm cyclotron on a 50-mg target of natural
190OS4c osmium.|g rays were detected with Ge(Li) detectors. Measured E|g, I|g,
190OS5c |g|g-coin, |g(t). Deduced levels, J, |p, parent T{-1/2},
190OS6c configurations, |g-ray multipolarities, |b-decay branching ratios.
190OS7c Comparisons with theoretical calculations. 1974Ya02 also report data
190OS8c on {+190}Ir |e decay (11.78 d) and {+189}Os(d,p)
190OS c Others:
190OS c |g: 1972Ru06, 1972KaYS, 1964Fl02
190OS c |b{+-}: 1964Fl02
190OS c T{-1/2} ({+190}Re): 1974Ya02, 1973DeWI, 1972Ru06, 1966BaZY, 1962Ba60
190OS c Total deposit energy of 1801 keV {I85} calculated by RADLIST code is
190OS2c in agreement with expected value of 1784 {I81} from
190OS3c Q(|b{+-})=3125 keV {I5} and the adopted branching ratio.
190OS cG $Combined intensities given under comments are the total |g intensities
190OS2cG for the 3.1-h (isomer) and 3.0-min (g.s.) activities in equilibrium
190OS3cG (1974Ya02), where applicable.
190OS cG E$From 1974Ya02, obtained by the author from weighted averages when
190OS2cG possible from their measurements of {+190}Ir |e decay (11.78 d) and
190OS3cG {+190}Re |b{+-} decay (3.2 h and 3.1 min).
190OS cG RI$From decomposition (by evaluators) of the combined intensities
190OS2cG given by 1974Ya02 for the 3.1-h (isomer) and 3.0-min (g.s.) activities
190OS3cG in equilibrium, unless otherwise noted. Note that the combined
190OS4cG intensities are quoted as for {+190}Re isomer |b{+-} decay in 1974Ya02
190OS5cG but are actually for the combination of two activities, with the ground
190OS6cG state fed by the IT decays of {+190}Re isomer in equilibrium. The
190OS7cG combined intensities are given under comments for transitions seen in
190OS8cG both activities. The quoted intensities for the |b{+-} decay of the
190OS9cG isomer decay here are obtained by removing the contributions from the |
190OSacG b{+-} decay of the g.s. that are already deduced first in the
190OSbcG decomposition of combined intensities in the dataset of {+190}Re |b{+-}
190OSccG decay (3.0 m). See that dataset for how the decomposition is performed.
190OSdcG The unplaced |g rays belong to {+190}Re (3.0 min) and/or {+190}Re
190OSecG (3.1 h), with quoted intensities being the original values in 1974Ya02.
190OSfcG Intensity values in 1974Ya02 are relative to combined I(371.2|g)=100.
190OS cG E(F),RI(F)$|g ray reported in {+190}Ir |e decay (12 d) (1974Ya02). I|g
190OS2cG deduced from branching ratios in {+190}Ir |e decay and I|g value of
190OS3cG the strongest branch from the parent level in this decay.
190OS cG RI(A)$From intensity balance at 187 level. The corresponding combined
190OS2cG intensity (3.1-h and 3.0-min in equilibrium) is 249 {I5} from intensity
190OS3cG balance using combined intensities for feeding transitions in 1974Ya02,
190OS4cG but is inconsistent with the measured value of 310 {I22} in 1974Ya02,
190OS5cG The latter value is probably in error since it would imply a large
190OS6cG |b{+-} feeding to 187 level in the decay of {+190}Re g.s. other than
190OS7cG the 1387 level which is claimed to be the only level that is strongly
190OS8cG fed in that decay in 1969Ha44 and 1974Ya02.
190OS cG RI(B)$Total I|g=13.5 {I8}. I|g divided on the basis of branching
190OS2cG ratio from {+190}Ir |e decay (11.78 d)
190OS cG RI(D)$Deduced from the total I(|g+ce) to the 1387 level in this decay
190OS2cG and the branching ratios from combined intensities, considering that
190OS3cG the 1387 level is fed only by |g transitions from upper levels that
190OS4cG are populated only in this decay. Those |g feedings account for a
190OS5cG 4.6% {I4} contribution to the population of the 1387 level in the
190OS6cG decays of 3.1-h (isomer) and 3.0-min (g.s.) in equilibrium
190OS cG M,MR$From the Adopted Gammas
190OS cL E$From a least-squares fit to |g-ray energies
190OS cL J$From the Adopted Levels
190RE P 204 10 (6-) 3.1 H 2 3125 5
190RE cP E,J,T,QP$From the Adopted Levels of {+190}Re.
190RE2cP Other: Q(|b{+-})=3070 {I70} (2017Wa10)
190OS N 0.370 16 0.544 20 1.838
190OS cN NR$From |S[I(|g+ce) of 558|g, 1387|g and all |g rays to 187 level]=100,
190OS2cN Most of the unplaced intensity (49 units on relative scale) is
190OS3cN associated with transitions of energy <800 keV, not expected to proceed
190OS4cN to g.s. or the 187 level
190OS cN BR$Deduced by the evaluators from |g+ce intensity balances of |g
190OS2cN transitions in {+190}Os from |b{+-} decays of the 3.0-min g.s. and
190OS3cN the 3.1-h isomer of {+190}Re in equilibrium (which means the total
190OS4cN number of {+190}Re g.s. decays is equal to the total number of {+190}Re
190OS5cN IT decays that feeds the g.s.) measured by 1974Ya02, based on that
190OS6cN the 2352, 1996 and 1387 levels are the only levels fed directly by the
190OS7cN |b{+-} decay of the 3.0-min g.s. but not by the |b{+-} decay of the
190OS8cN 3.1-h isomer and the 2352 and 1996 levels are not populated in the
190OS9cN |b{+-} decay of the 3.1-h isomer, as claimed by 1974Ya02. So the %IT
190OSacN branching is determined by the total I(|g+ce) from 2352, 1996 and
190OSbcN 1387 levels in {+190}Re g.s. decay, divided by the total I(|g+ce) of
190OSccN transitions to 187 level, 558|g and 1387|g from |b{+-} decays of
190OSdcN {+190}Re g.s. and isomer combined. This gives %IT=45.6 {I20} and
190OSecN %|b{+-}=54.4 {I20}.
190OS PN 3
190OS G 108.67 15 1.52 14
190OS2 G %IG=0.31 4
190OS G 114.18 15 0.92 15
190OS2 G %IG=0.18 4
190OS G 127.27 6 1.95 17
190OS2 G %IG=0.39 4
190OS G 163.14 6 2.65 17
190OS2 G %IG=0.53 5
190OS G 182.1 3 3.9 4
190OS2 G %IG=0.78 9
190OS G 200.0 3 6.3 4
190OS2 G %IG=1.27 11
190OS G 252.65 20 0.63 7
190OS2 G %IG=0.127 16
190OS G 255.19 10 2.42 19
190OS2 G %IG=0.49 5
190OS G 294.75 12 7.1 6 @
190OS2 G %IG=1.43 15
190OS G 315.56 8 5.0 3
190OS2 G %IG=1.01 9
190OS G 344.09 10 6.0 3
190OS2 G %IG=1.21 9
190OS G 539.21 25 1.1 3
190OS2 G %IG=0.22 7
190OS G 739.73 10 3.8 2
190OS2 G %IG=0.76 6
190OS G 889.07 15 2.2 4
190OS2 G %IG=0.44 9
190OS G 965.1 4 2.1 4
190OS2 G %IG=0.42 9
190OS G 1155.6 5 1.34 17
190OS2 G %IG=0.27 4
190OS G 1194.2 3 1.01 10
190OS2 G %IG=0.203 23
190OS G 1250.2 4 1.4 3
190OS2 G %IG=0.28 7
190OS G 1265.9 5 0.41 12
190OS2 G %IG=0.082 25
190OS G 1382.7 5 0.34 12
190OS2 G %IG=0.068 25
190OS G 1499.4 5 0.25 8
190OS2 G %IG=0.050 17
190OS G 1536.5 8 0.24 7
190OS2 G %IG=0.048 15
190OS G 1564.9 3 0.59 15
190OS2 G %IG=0.12 3
190OS G 1573.7 3 1.3 3
190OS2 G %IG=0.26 7
190OS G 1616.4 3 0.70 18
190OS2 G %IG=0.14 4
190OS G 1725.2 5 0.29 9
190OS2 G %IG=0.058 19
190OS G 1745.4 5 0.20 6
190OS2 G %IG=0.040 13
190OS G 1882.3 7 0.15 5
190OS2 G %IG=0.030 11
190OS G 2023.4 8 0.10 5
190OS2 G %IG=0.020 11
190OS L 0.0 0+
190OS L 186.69 42+
190OS G 186.68 4 140 7 E2 0.420 AC
190OS2 G %IG=28.2 13
190OSS G KC=0.203 3$LC=0.1642 23$MC=0.0415 6
190OSS G NC=0.00997 14$OC=0.001504 21$PC=1.88E-5 3
190OS L 547.88 54+
190OS B 3.6 LT 10.4 GT 1U?
190OSS B EAV=1034 37
190OS G 361.09 5 60 5 E2 0.0535 C
190OS2 G %IG=12.1 10
190OSS G KC=0.0370 6$LC=0.01255 18$MC=0.00307 5
190OSS G NC=0.000742 11$OC=0.0001169 17$PC=3.82E-6 6
190OS cG $combined intensity=93 {I4}
190OS L 557.92 5 2+
190OS G 371.24 5 52 3 E2+M1 -8.1 8 0.0510 C
190OS2 G %IG=10.5 8
190OSS G KC=0.0359 6$LC=0.01151 17$MC=0.00281 4
190OSS G NC=0.000679 10$OC=0.0001074 16$PC=3.73E-6 7
190OS cG $combined intensity=100
190OS G 557.95 7 70 6 E2 0.01748 C
190OS2 G %IG=14.1 12
190OSS G KC=0.01340 19$LC=0.00312 5$MC=0.000745 11
190OSS G NC=0.000181 3$OC=2.94E-5 5$PC=1.430E-6 20
190OS cG $combined intensity=135 {I8}
190OS L 755.91 5 3+
190OS G 198.08 20 4.8 8 E2+M1 -9 +2-5 0.349 7 C
190OS2 G %IG=0.97 17
190OSS G KC=0.180 5$LC=0.1277 19$MC=0.0321 5
190OSS G NC=0.00773 12$OC=0.001171 18$PC=1.70E-5 6
190OS cG $combined intensity=8.7 {I12}
190OS G 207.91 6 2.4 5 E2(+M1) -16 +5-20 0.293 @C
190OS2 G %IG=0.48 11
190OSS G KC=0.155 3$LC=0.1045 15$MC=0.0263 4
190OSS G NC=0.00632 9$OC=0.000959 14$PC=1.47E-5 3
190OS cG $combined intensity=4.3 {I8}
190OS G 569.30 7 69 7 E2+M1 -9.8 10 0.0169925 C
190OS2 G %IG=13.9 13
190OSS G KC=0.01310 20$LC=0.00298 5$MC=0.000709 10
190OSS G NC=0.0001720 25$OC=2.81E-5 4$PC=1.401E-6 21
190OS cG $combined intensity=125 {I6}
190OS L 955.23 5 4+
190OS B 2.9 LT 10.1 GT 1U?
190OSS B EAV=861 37
190OS G 199.3 3 1.3 3 E2 0.336 C
190OS2 G %IG=0.26 7
190OSS G KC=0.1712 25$LC=0.1246 20$MC=0.0314 5
190OSS G NC=0.00755 12$OC=0.001143 18$PC=1.604E-5 24
190OS cG $combined intensity=2.0 {I5}
190OS G 397.36 6 30 3 E2 0.0412 C
190OS2 G %IG=6.0 7
190OSS G KC=0.0293 5$LC=0.00904 13$MC=0.00220 3
190OSS G NC=0.000532 8$OC=8.44E-5 12$PC=3.05E-6 5
190OS cG $combined intensity=48.5 {I29}
190OS G 407.22 6 21 4 E2+M1 -3.4 +6-9 0.045 3 @C
190OS2 G %IG=4.2 8
190OSS G KC=0.0330 23$LC=0.0089 3$MC=0.00214 6
190OSS G NC=0.000517 14$OC=8.3E-5 3$PC=3.5E-6 3
190OS cG $combined intensity=34 {I5}
190OS G 768.57 8 10.7 8 E2 0.00853 C
190OS2 G %IG=2.15 20
190OSS G KC=0.00682 10$LC=0.001318 19$MC=0.000309 5
190OSS G NC=7.50E-5 11$OC=1.250E-5 18$PC=7.32E-7 11
190OS cG $combined intensity=17.0 {I10}
190OS L 1050.43 10 6+
190OS B 1.8 2 9.1 1
190OSS B EAV=842 38
190OS G 502.55 8 16.8 5 E2 0.0225 C
190OS2 G %IG=3.38 21
190OSS G KC=0.01693 24$LC=0.00426 6$MC=0.001022 15
190OSS G NC=0.000248 4$OC=4.00E-5 6$PC=1.80E-6 3
190OS L 1163.10 54+
190OS B 2.7 LT 9.9 GT 1U?
190OSS B EAV=774 36
190OS G 207.91 6 0.7 2 (E2) 0.291 @C
190OS2 G %IG=0.14 4
190OSS G KC=0.1533 22$LC=0.1045 15$MC=0.0263 4
190OSS G NC=0.00632 9$OC=0.000959 14$PC=1.446E-5 21
190OS cG $combined intensity=1.0 {I3}
190OS G 407.22 6 41 4 E2+M1 -2.6 +8-14 0.048 8 @C
190OS2 G %IG=8.2 8
190OSS G KC=0.036 8$LC=0.0092 8$MC=0.00220 16
190OSS G NC=0.00053 4$OC=8.6E-5 8$PC=3.9E-6 9
190OS cG $combined intensity=63 {I6}
190OS G 605.14 7 73 4 E2 0.01447 C
190OS2 G %IG=14.7 10
190OSS G KC=0.01123 16$LC=0.00248 4$MC=0.000589 9
190OSS G NC=0.0001427 20$OC=2.34E-5 4$PC=1.202E-6 17
190OS cG $combined intensity=111 {I5}
190OS G 615.39 15 0.86 8 [M1,E2] 0.026 13 F S
190OS2 G %IG=0.173 19
190OSS G KC=0.021 11$LC=0.0037 14$MC=0.0009 3
190OSS G NC=0.00021 8$OC=3.5E-5 13$PC=2.4E-6 13
190OS L 1203.82 7 5+
190OS B 1.8 7 8.9 2
190OSS B EAV=776 37
190OS G 447.81 8 14.3 8 E2 0.0301 C
190OS2 G %IG=2.88 22
190OSS G KC=0.0221 3$LC=0.00611 9$MC=0.001475 21
190OSS G NC=0.000357 5$OC=5.72E-5 8$PC=2.32E-6 4
190OS G 656.02 8 5.3 4 E2+M1 -1.7 14 0.017 14 C
190OS2 G %IG=1.07 10
190OSS G KC=0.014 12$LC=0.0026 15$MC=0.0006 4
190OSS G NC=0.00015 9$OC=2.5E-5 15$PC=1.5E-6 14
190OS L 1386.91 53-
190OS G 223.81 5 2.8 3 E1 0.0500 DC
190OS2 G %IG=0.56 7
190OSS G KC=0.0414 6$LC=0.00669 10$MC=0.001530 22
190OSS G NC=0.000370 6$OC=6.15E-5 9$PC=3.76E-6 6
190OS cG $combined intensity=61.8 {I25}
190OS G 431.62 7 1.8 2 [E1] 0.01056 DC
190OS2 G %IG=0.36 5
190OSS G KC=0.00882 13$LC=0.001348 19$MC=0.000307 5
190OSS G NC=7.44E-5 11$OC=1.261E-5 18$PC=8.55E-7 12
190OS cG $combined intensity=40.1 {I24}
190OS G 630.91 16 1.9 3 [E1] 0.00472 DC
190OS2 G %IG=0.38 7
190OSS G KC=0.00396 6$LC=0.000588 9$MC=0.0001335 19
190OSS G NC=3.24E-5 5$OC=5.54E-6 8$PC=3.92E-7 6
190OS cG $combined intensity=42 {I6}
190OS G 828.99 7 2.6 3 E1 0.00276 DC
190OS2 G %IG=0.52 7
190OSS G KC=0.00232 4$LC=0.000339 5$MC=7.68E-5 11
190OSS G NC=1.87E-5 3$OC=3.20E-6 5$PC=2.33E-7 4
190OS cG $combined intensity=55 {I5}
190OS G 839.14 12 0.9 1 (E1) 0.00270 DC
190OS2 G %IG=0.181 23
190OSS G KC=0.00227 4$LC=0.000331 5$MC=7.50E-5 11
190OSS G NC=1.82E-5 3$OC=3.13E-6 5$PC=2.27E-7 4
190OS cG $combined intensity=19.0 {I9}
190OS G 1200.24 12 0.34 5 (E1) 1.42E-3 D
190OS2 G %IG=0.068 11
190OSS G KC=0.001184 17$LC=0.0001693 24$MC=3.82E-5 6
190OSS G NC=9.30E-6 13$OC=1.603E-6 23$PC=1.196E-7 17$IPC=1.82E-5 3
190OS cG $combined intensity=7.5 {I8}
190OS G 1386.95 12 0.14 2 (E3) 0.00542 D
190OS2 G %IG=0.028 5
190OSS G KC=0.00434 6$LC=0.000818 12$MC=0.000191 3
190OSS G NC=4.66E-5 7$OC=7.86E-6 11$PC=5.00E-7 7$IPC=1.382E-5 20
190OS cG $combined intensity=3.1 {I4}
190OS L 1446.01 6 (5)+
190OS B 1.9 6 8.7 2
190OSS B EAV=673 37
190OS G 242.3 3 0.71 7 [M1,E2] 0.32 15 C
190OS2 G %IG=0.143 17
190OSS G KC=0.24 14$LC=0.059 3$MC=0.01407 22
190OSS G NC=0.00341 7$OC=0.00056 4$PC=2.7E-5 18
190OS G 282.93 6 11.1 8 E2(+M1) 2.5 GT 0.122 14 C
190OS2 G %IG=2.23 20
190OSS G KC=0.081 13$LC=0.0313 8$MC=0.00771 16
190OSS G NC=0.00186 4$OC=0.000290 9$PC=8.4E-6 16
190OS G 490.76 7 17.3 9 (E2) 0.0239 C
190OS2 G %IG=3.5 3
190OSS G KC=0.0179 3$LC=0.00458 7$MC=0.001101 16
190OSS G NC=0.000267 4$OC=4.30E-5 6$PC=1.89E-6 3
190OS G 690.04 8 7.0 6 (E2) 0.01077 C
190OS2 G %IG=1.41 15
190OSS G KC=0.00851 12$LC=0.001738 25$MC=0.000409 6
190OSS G NC=9.94E-5 14$OC=1.645E-5 23$PC=9.12E-7 13
190OS L 1513.9 5 (6+,5+) ?
190OS B 4.7 9 8.3 2 ?
190OSS B EAV=644 37
190OS G 558.7 5 27 4 [E2] 0.01743 C ?
190OS2 G %IG=5.4 8
190OSS G KC=0.01336 19$LC=0.00311 5$MC=0.000742 11
190OSS G NC=0.000180 3$OC=2.93E-5 5$PC=1.426E-6 21
190OS L 1583.84 124- ?
190OS cL $Population in {+190}Re decay is suspect since the only
190OS2cL |g ray reported is 1036.0, other |g rays of comparable intensity
190OS3cL such as 196.8|g, 380.0|g, 420.6|g are not reported
190OS G 196.85 15 1.9 2 E2+M1 +1.0 5 0.59 15 F S
190OS2 G %IG=0.38 5
190OSS G KC=0.43 16$LC=0.121 7$MC=0.0292 24
190OSS G NC=0.0071 6$OC=0.00113 5$PC=4.8E-5 19
190OS G 1036.05 20 1.35 14E1 0.00182 ?
190OS2 G %IG=0.27 4
190OSS G KC=0.001539 22$LC=0.000222 4$MC=5.01E-5 7
190OSS G NC=1.218E-5 17$OC=2.10E-6 3$PC=1.550E-7 22
190OS L 1666.51 17 8+
190OS B 0.55 13 9.9 2 1U
190OSS B EAV=569 35
190OS G 616.08 14 5.1 4 E2 0.01389 C
190OS2 G %IG=1.03 10
190OSS G KC=0.01081 16$LC=0.00236 4$MC=0.000559 8
190OSS G NC=0.0001357 19$OC=2.23E-5 4$PC=1.157E-6 17
190OS L 1681.60 75-
190OS B 7.4 7 7.9 1
190OSS B EAV=574 36
190OS G 294.75 12 6.4 6 (E2) 0.0963 @C
190OS2 G %IG=1.29 14
190OSF G FLAG=B$
190OSS G KC=0.0618 9$LC=0.0262 4$MC=0.00649 10
190OSS G NC=0.001565 22$OC=0.000243 4$PC=6.19E-6 9
190OS G 477.8 3 2.1 9 [E1] 0.00845
190OS2 G %IG=0.42 19
190OSS G KC=0.00707 10$LC=0.001072 15$MC=0.000244 4
190OSS G NC=5.91E-5 9$OC=1.005E-5 15$PC=6.89E-7 10
190OS G 518.55 7 33.2 23E1(+M2) +0.010 15 0.0071114 C
190OS2 G %IG=6.7 6
190OSS G KC=0.00595 11$LC=0.000897 19$MC=0.000204 5
190OSS G NC=4.95E-5 11$OC=8.42E-6 19$PC=5.84E-7 13
190OS G 726.22 8 2.21 12E1 0.00357
190OS2 G %IG=0.44 4
190OSS G KC=0.00300 5$LC=0.000441 7$MC=9.99E-5 14
190OSS G NC=2.43E-5 4$OC=4.16E-6 6$PC=2.98E-7 5
190OS L 1708.2 3 (2+,3,4+) ?
190OS G 952.3 3 0.81 10 (M1) ?
190OS2 G %IG=0.163 22
190OS L 1836.21 7 (6+)
190OS B 17.0 14 7.4 1
190OSS B EAV=510 36
190OS G 321.81 8 3.8 4 [M1,E2] 0.14 7 ? ?
190OS2 G %IG=0.76 9
190OSS G KC=0.11 7$LC=0.024 5$MC=0.0056 9
190OSS G NC=0.00135 23$OC=0.00022 5$PC=1.3E-5 8
190OS G 390.17 6 24.0 14[M1,E2] 0.09 5 C
190OS2 G %IG=4.8 4
190OSS G KC=0.07 4$LC=0.013 4$MC=0.0031 8
190OSS G NC=0.00075 19$OC=0.00013 4$PC=8.E-6 5
190OS G 633 AP 5 3 [M1,E2] 0.025 AP C
190OS2 G %IG=1.0 6
190OSS G KC AP 0.020$LC AP 0.0034$MC AP 0.0008
190OSS G NC AP 0.00019$OC AP 3.3E-5$PC AP 2.2E-6
190OS G 673.10 10 46.9 24[E2] 0.01138 C
190OS2 G %IG=9.4 7
190OSS G KC=0.00896 13$LC=0.00186 3$MC=0.000438 7
190OSS G NC=0.0001063 15$OC=1.756E-5 25$PC=9.61E-7 14
190OS G 881.10 14 3.9 4 C
190OS2 G %IG=0.78 9
190OS L 1872.10 12 (5)-
190OS B 0.89 8 8.6 1
190OSS B EAV=495 36
190OS G 288.22 10 2.35 14E2+M1 2.2 +11-5 0.135 17 ?
190OS2 G %IG=0.47 4
190OSS G KC=0.095 16$LC=0.0302 10$MC=0.00736 18
190OSS G NC=0.00178 5$OC=0.000282 10$PC=1.01E-5 19
190OS G 485.23 20 0.68 7 E2 0.0245 C
190OS2 G %IG=0.137 16
190OSS G KC=0.0183 3$LC=0.00474 7$MC=0.001141 16
190OSS G NC=0.000276 4$OC=4.45E-5 7$PC=1.94E-6 3
190OS G 1324.30 18 1.07 22E1 1.25E-3
190OS2 G %IG=0.22 5
190OSS G KC=0.000997 14$LC=0.0001419 20$MC=3.20E-5 5
190OSS G NC=7.80E-6 11$OC=1.345E-6 19$PC=1.010E-7 15$IPC=7.06E-5 10
190OS L 2061.2 2 (6+,7-) ?
190OS B 1.88 18 8.1 2 ?
190OSS B EAV=418 35
190OS G 379.4 3 3.6 3 [D,E2] 0.08 6 ?
190OS2 G %IG=0.72 8
190OS G 394.6 4 2.3 4 [D,E2] 0.07 6 ? ?
190OS2 G %IG=0.46 9
190OS G 1010.9 3 3.0 4 ?
190OS2 G %IG=0.60 9
190OS L 2068.79 9(5+)
190OS B 3.9 3 7.7 2
190OSS B EAV=415 35
190OS G 387.10 12 4.3 4 [E1] 0.01349 ?
190OS2 G %IG=0.86 10
190OSS G KC=0.01125 16$LC=0.001734 25$MC=0.000395 6
190OSS G NC=9.58E-5 14$OC=1.619E-5 23$PC=1.081E-6 16
190OS G 864.85 20 3.1 2 C
190OS2 G %IG=0.62 6
190OS G 905.75 16 6.5 7 C
190OS2 G %IG=1.31 16
190OS G 1113.6 4 2.0 2
190OS2 G %IG=0.40 5
190OS G 1313.1 2 3.2 5
190OS2 G %IG=0.64 11
190OS G 1521.1 4 0.41 12
190OS2 G %IG=0.082 25
190OS L 2121.28 13(5,6+)
190OS B 3.4 4 7.7 2
190OSS B EAV=394 35
190OS G 284.9 3 2.2 3 [D,E2] 0.17 14 ?
190OS2 G %IG=0.44 7
190OS G 675.2 6 2.6 10 [D,E2] 0.018 14
190OS2 G %IG=0.52 21
190OS G 958.20 14 9.8 6 C
190OS2 G %IG=1.97 16
190OS G 1166.1 3 2.03 22 ?
190OS2 G %IG=0.41 5