182W 182RE EC DECAY (64.2 H) 1977JE02,1980SP01,1972GA1515NDS 201512
182W H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 130, 21 (2015)$CUT=15-Jul-2015$
182W c 1980Sp01: measured |g(|q,temp), nuclear orientation at low temperature
182W c 1977Je02: measured E|g, I|g, |g|g
182W c 1975We22: measured |g(ce)(|q) and |g(ce)(|q) for |DJ=0, |DPI=no
182W 2c transitions to investigate E0 admixtures
182W c 1972Ga15 (also 1971Ga30): Measured E|g, I|g, |g|g. The ce data were
182W 2c used from 1970Ag07 and 1961Ha23
182W c 1971Ga37, 1970Ag07 (from the same group): measured
182W 2c conversion electrons using an iron-free |p|62 |b spectrometer.
182W c 1969Sa25: measured E|g, I|g, |g|g. Deduced conversion coefficients
182W 2c using ce data from 1961Ha23.
182W c 1964Ba43: measured ce. Relative electron intensities measured for about
182W 2c 14 transitions from 734 to 1189 keV. No conversion coefficients given.
182W c 1961Ha23: measured ce
182W c 1958Ga24: measured E|g, ce
182W c Unless otherwise stated, experimental conversion coefficients
182W 2c are from 1972Ga15 who deduced these from their |g-ray intensities and
182W 3c ce data from 1961Ha23, 1964Ba43 and 1970Ag07. The ce data from
182W 4c 1971Ga37 (supplementary to those from their earlier publication
182W 5c 1970Ag07) were probably not available to 1972Ga15
182W c 2008Ya10: measured intensities of L-subshell x rays from {+182}Re
182W 2c decay and photoionization.
182W tG $--------------------------------------------------------
182W tG $ L x-ray intensity ratios (2008Ya10)
182W tG $ L-subshell ratio {+182}Re decay Photoionization
182W tG $ L{-|a}/L{-|b} 0.625 {I14} 0.65 {I7}
182W tG $ L{-|a}/L{-|g} 3.08 {I5} 3.21 {I7}
182W tG $ L{-|a}/L{-l} 21.14 {I5} 21.27 {I18}
182W tG $ L{-|b}/L{-|g} 4.68 {I11} 4.865 {I13}
182W tG $ L{-l}/L{-|g} 0.127 {I11} 0.156 {I4}
182W tG $ --------------------------------------------------------
182W cG $A{-2} values and W(0|')-1 anisotropies are from low-temperature
182W 2cG nuclear orientation study of 1980Sp01
182W cG E,RI$For E|g<84, values are from ce data of 1961Ha23 normalized
182W 2cG assuming using E2 for the 100.1|g, energy uncertainty of 0.1 keV is
182W 3cG assumed by the evaluators. For E|g=85-357 from 1977Je02, and for
182W 4cG E|g>357 from 1972Ga15. For |DI|g(absolute) combine 5.5% in quadrature
182W 5cG with |DI|g(relative), except as noted.
182W cG M,MR$From {+182}Ta |b{+-} decay; ce data in 1971Ga37, 1970Ag07 and
182W 2cG 1961Ha23; and |g(|q,temp) data of 1980Sp01. The conversion data were
182W 3cG normalized to 100.1|g with E2 multipolarity
182W cG RI(A)$Calculated from adopted branching ratios
182W cG E(A)$Not observed in this decay
182W cG CC$Theoretical values from BrIcc v2.3b (16-Dec-2014) 2008Ki07,
182W 2cG "Frozen Orbitals" approximation. If mixing ratio |d is not given, it
182W 3cG was assumed as 1.0 for E2/M1 and E3/M2 and 0.10 for others
182W cL J$From Adopted Levels.
182RE P 0.0 7+ 64.2 H 5 2.80E3 10
182RE cP J,T$From {+182}Re Adopted Levels
182RE cP QP$From 2012Wa38
182W N 0.258 7 1 1
182W cN NR$normalized assuming I(|g+ce)=100 to the ground state
182W PN 3
182W L 0.0 0+
182W L 100.11 4 2+
182W G 100.10 5 63.8 17E2 3.89 C
182W S G KC=0.878 13$LC=2.28 4$MC=0.577 9
182W S G NC=0.1358 20$OC=0.0186 3$PC=7.08E-5 10
182W cG |DI|g(absolute)=0.4 per 100 decays.
182W cG RI$calculated from the intensity balance at the 100 level.
182W 2cG Measured value is I|g=58 {I4}.
182W cG $ W(0|')-1=-0.057 {I25}
182W cG $|a(L1)exp=0.11, 0.091 {I19}; |a(L2)exp=1.17 {I35}, 1.08 {I13};
182W xcG |a(L3)exp=1.05 {I32}, 1.04 {I13}.
182W cG $L1/L2=0.078 {I8}, L1/L3=0.083 {I9}, L2/L3=1.07 {I6} (1970Ag07)
182W DG $ EL1C=0.090 27 (1970Ag07), EKC |? 0.874 (1971Ga37)
182W L 329.44 5 4+
182W G 229.32 5 100.0 E2 0.196 C
182W S G KC=0.1167 17$LC=0.0605 9$MC=0.01497 21
182W S G NC=0.00354 5$OC=0.000505 7$PC=9.50E-6 14
182W cG $|a(K)exp=0.117 {I30}, 0.124 {I16}
182W cG $ W(0|')-1=-0.154 {I3}
182W cG $L1/L2=0.55 {I13}, L1/L3=0.080 {I20}, L2/L3=1.5 {I3} (1970Ag07)
182W DG $ EKC=0.123 27 (1970Ag07)
182W L 680.50 10 6+
182W E 0.02 LT 0.7 LT 9.4 GT 0.7 LT ?
182W S E EAV=506 44$CK=0.801 6$CL=0.1343 14$CM+=0.0416 5
182W G 351.07 10 40 3 E2 0.0538 C
182W S G KC=0.0379 6$LC=0.01210 17$MC=0.00293 5
182W S G NC=0.000696 10$OC=0.0001026 15$PC=3.34E-6 5
182W cG $|a(K)exp=0.038 {I12}, 0.045 {I7}; |a(L1)exp=0.0050 {I5};
182W 2cG |a(L2)exp=0.0057 {I7}; |a(L3)exp=0.0028 {I7}, 0.0032 {I5}
182W cG $L1/L2=0.99 {I11}, L1/L3=1.82 {I25}, L2/L3=1.85 {I25} (1970Ag07)
182W cG $ W(0|')-1=-0.154 {I4}
182W DG $ EKC=0.044 9 (1970Ag07)
182W L 1221.37 5 2+
182W G 891.9 1 0.13 2E2 0.00569
182W S G KC=0.00464 7$LC=0.000810 12$MC=0.000187 3
182W S G NC=4.47E-5 7$OC=7.09E-6 10$PC=4.31E-7 6
182W G 1121.3 1 85.5 25E2+M1(+E0)+30 +6-4 0.00360 C
182W 2 G A2=+0.16 12
182W S G KC=0.00297 5$LC=0.000483 7$MC=0.0001104 16
182W S G NC=2.65E-5 4$OC=4.25E-6 6$PC=2.76E-7 4$IPC=4.74E-7 7
182W cG MR$+21 {I+92-9} (1980Sp01)
182W cG $|a(K)exp=0.00302 {I14}, 0.0030 {I3}, 0.0032 {I5}
182W cG $L1/L2=6.8 {I6}, L1/L3=11.8 {I12}, L2/L3=1.8 {I2} (1970Ag07)
182W cG M$E0 admixture is measured and discussed in 1975We22 from ce
182W 2cG and |g(ce)(|q) data with q(E0/E2)=0.16 {I9}
182W cG $ W(0|')-1=+0.004 {I6}
182W G 1221.4 1 67.7 14E2 0.00305 C
182W S G KC=0.00252 4$LC=0.000402 6$MC=9.15E-5 13
182W S G NC=2.20E-5 3$OC=3.53E-6 5$PC=2.34E-7 4$IPC=6.75E-6 10
182W cG $ W(0|')-1=-0.103 {I6}
182W cG $L1/L2=6.7 {I7}, L1/L3=20 {I2}, L2/L3=3.1 {I5} (1970Ag07)
182W cG $|a(K)exp=0.00248 {I25}, 0.0026 {I5}
182W L 1257.52 5 2+
182W G 928.0 1 1.4415E2 0.00524 C
182W S G KC=0.00429 6$LC=0.000738 11$MC=0.0001698 24
182W S G NC=4.07E-5 6$OC=6.47E-6 9$PC=3.98E-7 6
182W cG $|a(K)exp=0.0036 {I10}, 0.0047 {I13}, 0.011 {I5}
182W G 1157.3 1 1.4415E2+M1 -9 +3-6 0.003427 AC
182W S G KC=0.00283 6$LC=0.000455 9$MC=0.0001040 20
182W S G NC=2.49E-5 5$OC=4.01E-6 8$PC=2.63E-7 6$IPC=1.592E-6 25
182W cG $|a(K)exp=0.0061 {I12}
182W cG $ W(0|')-1=-0.12 {I3} for 1157.3+1158.1
182W G 1257.5 1 4.1412E2 0.00289 C
182W S G KC=0.00239 4$LC=0.000378 6$MC=8.60E-5 12
182W S G NC=2.06E-5 3$OC=3.32E-6 5$PC=2.21E-7 3$IPC=1.121E-5 16
182W cG $|a(K)exp|?0.0049
182W cG $ W(0|')-1=-0.095 {I19}
182W L 1289.15 5 2-
182W G 31.7 1 1.0 2E1 1.63 3
182W S G LC=1.263 21$MC=0.294 5
182W S G NC=0.0677 12$OC=0.00913 15$PC=0.000306 5
182W G 67.85 10 86 9 E1 0.201
182W S G LC=0.1556 23$MC=0.0357 6
182W S G NC=0.00837 13$OC=0.001229 18$PC=5.49E-5 8
182W cG $L1/L2=2.8 {I4}, L1/L3=2.1 {I4}, L2/L3=0.76 {I14} (1971Ga37)
182W G 959.7 1 0.78 15M2+E3 -5.5 +19-100.0116 7 C
182W S G KC=0.0090 6$LC=0.00196 8$MC=0.000463 17
182W S G NC=0.000111 4$OC=1.73E-5 7$PC=9.3E-7 6
182W cG $|a(K)exp=0.0060 {I24}, 0.012 {I3}, |?0.012
182W G 1189.0 1 35.1 10E1+M2+E3 0.0014614 C
182W cG $|d(M2/E1)=+0.48 3; |d(E3/E1)=-0.67 5
182W cG M,CC$59% {I4} E1, 14% {I1} M2 and 27% {I3} E3.
182W 2cG Conversion coefficient deduced for this admixture
182W 2 G A2=+2.13 15
182W S G KC=0.00122 12$LC=0.000174 19$MC=3.9E-5 5
182W S G NC=9.4E-6 11$OC=1.53E-6 17$PC=1.09E-7 12$IPC=1.54E-5 3
182W cG $|a(K)exp=0.0043 {I5}, 0.0041 {I8}, 0.0047 {I9}
182W cG $ W(0|')-1=-0.243 {I9}
182W cG $L1/L2=6.1 {I8}, L1/L3=32 {I5}, L2/L3=5.3 {I12} (1970Ag07)
182W G 1289.2 2 2.94 6M2 0.01230 C
182W S G KC=0.01019 15$LC=0.001630 23$MC=0.000372 6
182W S G NC=8.97E-5 13$OC=1.466E-5 21$PC=1.047E-6 15$IPC=5.97E-6 9
182W cG $|a(K)exp=0.0114 {I18}, |?0.012
182W cG $ W(0|')-1=-0.172 {I18}
182W L 1331.13 6 3+
182W G 1001.7 1 9.6 3 E2+M1 -8.9 +21-180.004558 C
182W 2 G A2=+0.84 14
182W S G KC=0.00374 7$LC=0.000627 11$MC=0.0001438 24
182W S G NC=3.45E-5 6$OC=5.51E-6 9$PC=3.48E-7 7
182W cG MR$>+22 or <-35 (1980Sp01)
182W cG $|a(K)exp=0.0046 {I5}, 0.0046 {I6}, 0.0047 {I10}
182W cG $ W(0|')-1=+0.102 {I9}
182W G 1231.0 1 57.9 11E2+M1 -33 +6-9 0.00301 C
182W 2 G A2=-0.25 4
182W S G KC=0.00249 4$LC=0.000395 6$MC=9.01E-5 13
182W S G NC=2.16E-5 3$OC=3.48E-6 5$PC=2.31E-7 4$IPC=7.86E-6 11
182W cG MR$-72 {I+28-120} (1980Sp01)
182W cG $|a(K)exp=0.0025 {I3} (1971Ga37)
182W cG $ W(0|')-1=-0.020 {I4}
182W L 1373.81 5 3-
182W G 42.7 1 1.8 4E1 0.721 12
182W S G LC=0.558 9$MC=0.1287 20
182W S G NC=0.0299 5$OC=0.00420 7$PC=0.0001588 24
182W G 84.68 5 10.7 6M1+E2 +0.326 11 7.66 C
182W S G KC=5.84 9$LC=1.40 3$MC=0.331 8
182W S G NC=0.0790 19$OC=0.0121 3$PC=0.000593 9
182W cG MR$ Other: +0.30 {I2} (1980Sp01)
182W cG $|a(K)exp|?6.0 (1971Ga37), |a(L1)exp=1.15 {I35}; |a(L2)exp=0.46 {I14};
182W xcG |a(L3)exp=0.34 {I10}
182W cG $L1/L2=2.40 {I14}, L1/L3=3.2 {I3}, L2/L3=1.36 {I12}, M1/M2=2.3 {I4},
182W 2cG M1/M3=2.5 {I5} M2/M3=1.1 {I3} (1971Ga37)
182W G 116.23 5 2.0 2E1 0.254 C
182W S G KC=0.208 3$LC=0.0355 5$MC=0.00809 12
182W S G NC=0.00191 3$OC=0.000292 4$PC=1.516E-5 22
182W G 152.43 5 33.0 20E1 0.1258 C
182W 2 G A2=+1.07 25
182W S G KC=0.1038 15$LC=0.01703 24$MC=0.00387 6
182W S G NC=0.000919 13$OC=0.0001421 20$PC=7.85E-6 11
182W cG $|a(K)exp=0.116 {I35}
182W cG $ W(0|')-1=-0.14 {I3}
182W cG $L1/L2|?4.3, K/L2|?28 (1971Ga37)
182W DG $ EKC=0.17 5 FOR 151.1G+152.4G+153.9G
182W cG MR$+0.035 {I53} from |g(|q) data consistent with RUL(M2)=1
182W 2cG which suggests |d near zero
182W G 1044.4 1 1.11 4E1+M2(+E3)0.46 9 0.0051 12
182W S G KC=0.0042 10$LC=0.00067 16$MC=0.00015 4
182W S G NC=3.7E-5 9$OC=6.0E-6 14$PC=4.2E-7 10
182W cG $|a(K)exp=0.0053 {I10}, 0.0061 {I12}, |?0.0057
182W G 1273.8 1 3.67 17E1+M2+E3 0.0029 5 C
182W cG $|d(M2/E1)=+0.36 10; |d(E3/E1)=-0.28 12
182W cG M,CC$81% {I5} E1, 12% {I4} M2 and 7% {I2} E3.
182W 2cG Conversion coefficient deduced for this admixture from BrIcc code
182W cG $|a(K)exp=0.0052 {I24}
182W G 1373.8 1 1.15 4E3 0.00496 C
182W S G KC=0.00400 6$LC=0.000728 11$MC=0.0001685 24
182W S G NC=4.05E-5 6$OC=6.44E-6 9$PC=3.97E-7 6$IPC=1.251E-5 18
182W cG $|a(K)exp=0.011 {I5}
182W L 1442.81 5 4+
182W G 1113.3 1 18.3 4E2+M1(+E0)+5.6 +13-100.00376 C
182W 2 G A2=+0.26 6
182W S G KC=0.00311 7$LC=0.000504 10$MC=0.0001151 22
182W S G NC=2.76E-5 6$OC=4.43E-6 9$PC=2.89E-7 7$IPC=3.52E-7 6
182W cG MR$+4.7 {I+6-5} (1980Sp01)
182W cG M$E0 admixture is measured and discussed in 1975We22 from ce
182W 2cG and |g(ce)(|q) data with q(E0/E2)=0.41 {I9}
182W cG $ W(0|')-1=+0.029 {I4}
182W cG $|a(K)exp=0.0035 {I4}, 0.0036 {I7}. |a(K)exp=0.00359 {I13} (1975We22)
182W cG $L1/L2=6.7 {I15}, L1/L3>16, L2/L3>2.3 (1970Ag07)
182W G 1342.7 1 10.0 25E2 0.00256 C
182W S G KC=0.00211 3$LC=0.000329 5$MC=7.49E-5 11
182W S G NC=1.80E-5 3$OC=2.90E-6 4$PC=1.95E-7 3$IPC=2.56E-5 4
182W cG $ W(0|')-1=-0.190 {I11}
182W cG $|a(K)exp=0.0024 {I4}, 0.0021 {I8}
182W L 1487.50 5 4-
182W G 113.68 5 18.9 12M1+E2 +0.36 1 3.18 C
182W 2 G A2=-0.88 13
182W S G KC=2.49 4$LC=0.529 9$MC=0.1242 22
182W S G NC=0.0297 6$OC=0.00462 8$PC=0.000250 4
182W cG MR$+0.36 {I3} (1980Sp01)
182W cG $ W(0|')-1=-0.122 {I15}
182W cG $|a(K)exp=2.7 {I8} (1971Ga37), |a(L1)exp=0.32 {I5}; |a(L2)exp=0.078
182W xcG {I25}; |a(L3)exp=0.075 {I19}
182W cG $L1/L2=4.0 {I6}, L1/L3=9.9 {I13}, L2/L3=2.1 {I17}, M1/M2=3.2 {I5},
182W 2cG M1/M3=5.4 {I10} M2/M3=1.8 {I6} (1971Ga37)
182W DG $ L1/L2=4.1 7, L1/L3 AP 6.7, L2/L3 AP 1.7 (1970Ag07)
182W G 156.39 5 28.0 20E1 0.1177 C
182W 2 G A2=+0.84 8
182W S G KC=0.0972 14$LC=0.01590 23$MC=0.00362 5
182W S G NC=0.000858 12$OC=0.0001328 19$PC=7.38E-6 11
182W DG MR$ +0.003 16 (1980Sp01)
182W cG $ W(0|')-1=+0.119 {I6}
182W cG $|a(L1)exp=0.0096 {I36}
182W G 198.34 5 15.7 13E2 0.317 C
182W S G KC=0.1726 25$LC=0.1098 16$MC=0.0273 4
182W S G NC=0.00646 9$OC=0.000910 13$PC=1.364E-5 20
182W cG $ W(0|')-1=-0.182 {I12}
182W cG $|a(K)exp=0.20 {I4}
182W cG $L1/L3=0.66 {I34} (1970Ag07)
182W DG $ EKC=0.132 26 (1970Ag07)
182W cG MR$+0.067 {I10} from |g(|q) data, but RUL(M3)=10 suggests |d near zero
182W G 1158.1 1 3.43 17E1 1.38E-3 AC
182W S G KC=0.001159 17$LC=0.0001632 23$MC=3.66E-5 6
182W S G NC=8.79E-6 13$OC=1.432E-6 20$PC=1.021E-7 15$IPC=7.59E-6 11
182W cG $A{-2}=-1.35 {I24}. Contribution from another component was considered
182W cG $ W(0|')-1=-0.12 {I3} for 1158.1+1157.3
182W cG MR$-0.047 to +1.1 (1980Sp01)
182W cG $|a(K)exp=0.0021 {I7}
182W G 1387.4 1 1.03 10E3+M2 2.6 4 0.0055424 C
182W S G KC=0.00450 21$LC=0.00079 3$MC=0.000183 7
182W S G NC=4.39E-5 16$OC=7.0E-6 3$PC=4.50E-7 21$IPC=1.426E-5 22
182W cG $|a(K)exp=0.0030 {I11}
182W L 1510.21 7 4+
182W G 1180.8 3 2.15 10E2+M1 -2.8 10 0.0036 4 C
182W 2 G A2=+1.22 16
182W S G KC=0.0030 4$LC=0.00047 5$MC=0.000108 11
182W S G NC=2.59E-5 25$OC=4.2E-6 5$PC=2.8E-7 4$IPC=3.11E-6 16
182W dG MR$ from 1980Sp01
182W cG $ W(0|')-1=+0.156 {I18}
182W cG $|a(K)exp|?0.0018 (1970Ag07)
182W G 1410.1 1 1.08 7E2 0.00235 C
182W S G KC=0.00193 3$LC=0.000298 5$MC=6.76E-5 10
182W S G NC=1.624E-5 23$OC=2.62E-6 4$PC=1.783E-7 25$IPC=4.20E-5 6
182W cG $ W(0|')-1=-0.18 {I5}
182W cG $|a(K)exp=0.0019 {I6}
182W L 1553.22 5 4-
182W G 65.8 1 11.2 22M1+E2 0.093 6 2.90 5
182W S G LC=2.24 4$MC=0.515 9
182W S G NC=0.1237 21$OC=0.0199 4$PC=0.001335 20
182W cG $L1/L2=7.9 {I7}, L1/L3|?16, L2/L3|?2, M1/M2|?8 (1971Ga37)
182W G 110.38 5 0.4 4[E1] 0.290
182W S G KC=0.238 4$LC=0.0409 6$MC=0.00932 13
182W S G NC=0.00220 3$OC=0.000335 5$PC=1.717E-5 25
182W G 179.40 5 11.7 7M1+E2 +1.2 3 0.63 7 C
182W cG MR$+0.84 to +1.8 (1980Sp01)
182W 2 G A2=-2.23 15
182W S G KC=0.44 8$LC=0.147 8$MC=0.0358 22
182W S G NC=0.0085 5$OC=0.00125 5$PC=4.1E-5 9
182W cG $ W(0|')-1=-0.299 {I12}
182W cG $L1/L2=1.99 {I19}, L1/L3=3.0 {I3}, L2/L3=1.50 {I19} (1971Ga37)
182W G 222.07 5 33 3 E1 0.0480 C
182W S G KC=0.0399 6$LC=0.00630 9$MC=0.001430 20
182W S G NC=0.000341 5$OC=5.34E-5 8$PC=3.17E-6 5
182W cG $ W(0|')-1=+0.122 {I3} for 221.6+222.1
182W cG $|a(K)exp=0.050 {I10} for 221.6|g+222.1|g (1970Ag07)
182W cG $L1/L2>4 (1970Ag07)
182W G 264.07 5 13.9 9E2 0.1254 C
182W S G KC=0.0799 12$LC=0.0347 5$MC=0.00852 12
182W S G NC=0.00202 3$OC=0.000291 4$PC=6.69E-6 10
182W cG $ W(0|')-1=-0.182 {I7}
182W cG $|a(K)exp=0.076 {I16} (1970Ag07)
182W cG $L1/L2=0.50 {I11}, M1/M2=0.8 {I4}, M1/M3=1.1 {I7}, M2/M3=1.5 {I8}
182W xcG (1971Ga37)
182W G 1223.9 1 1.02 13E1+M2(+E3)-0.15 +10-250.0016 15 A
182W S G KC=0.0013 13$LC=1.9E-4 20$MC=4.2E-5 46
182W S G NC=1.0E-5 11$OC=1.6E-6 18$PC=1.2E-7 13$IPC=2.7E-5 3
182W G 1453.1 1 0.15 3 E3(+M2) 0.0067 24
182W S G KC=0.0055 20$LC=9.1E-4 28$MC=2.08E-4 62
182W S G NC=5.0E-5 15$OC=8.1E-6 26$PC=5.6E-7 21$IPC=2.41E-5 15
182W cG $|a(K)exp=0.0043 {I13} (1971Ga37)
182W L 1621.27 5 5-
182W E 1.9 12 9.2 4 1.9 12 1U
182W S E CK=0.794 4$CL=0.157 3$CM+=0.0498 11
182W G 111.07 5 0.81 6[E1] 0.286
182W S G KC=0.234 4$LC=0.0402 6$MC=0.00916 13
182W S G NC=0.00217 3$OC=0.000329 5$PC=1.692E-5 24
182W G 133.80 5 9.3 6M1+E2 +0.39 +4-3 1.96 4 C
182W 2 G A2=-1.08 13
182W S G KC=1.55 4$LC=0.316 10$MC=0.0739 24
182W S G NC=0.0177 6$OC=0.00277 8$PC=0.000155 4
182W DG MR$ +0.39 +4-3 (1980Sp01)
182W cG $ W(0|')-1=-0.153 {I17}
182W cG $|a(K)exp=1.27 {I18}, K/L3=67 {I19} (1971Ga37)
182W G 178.47 5 8.8 5 E1 0.0838 C
182W 2 G A2=+0.77 15
182W S G KC=0.0693 10$LC=0.01118 16$MC=0.00254 4
182W S G NC=0.000604 9$OC=9.39E-5 14$PC=5.36E-6 8
182W DG MR$ +0.013 29 (1980Sp01)
182W cG $ W(0|')-1=+0.102 {I20}
182W cG $|a(K)exp=0.010 {I4} (1971Ga37)
182W G 247.46 5 19.6 13E2 0.1538 C
182W S G KC=0.0951 14$LC=0.0447 7$MC=0.01101 16
182W S G NC=0.00261 4$OC=0.000374 6$PC=7.86E-6 11
182W cG $ W(0|')-1=-0.183 {I4}
182W cG $|a(K)exp=0.088 {I22}, L1/L2=0.66 {I13}, L1/L3=1.04 {I23}, L2/L3=1.6
182W xcG {I3} (1970Ag07)
182W G 1291.8 4 0.91 9E1+M2 0.4 2 0.0027 14 C
182W S G KC=0.0022 12$LC=3.4E-4 19$MC=7.7E-5 44
182W S G NC=1.9E-5 11$OC=3.0E-6 17$PC=2.2E-7 13$IPC=5.0E-5 7
182W cG $|a(K)exp=0.00205 {I19}
182W G 1521.3 4 0.37 4(E3) 0.00402 C
182W S G KC=0.00325 5$LC=0.000568 8$MC=0.0001309 19
182W S G NC=3.15E-5 5$OC=5.03E-6 7$PC=3.20E-7 5$IPC=3.37E-5 5
182W cG $|a(K)exp=0.0032 {I6}, 0.0050 {I15}
182W L 1623.54 6(5)+
182W E 0.31 LT 9.3 GT 0.31 LT ?
182W S E CK=0.8128 16$CL=0.1427 12$CM+=0.0445 5
182W G 943.2 3 0.88 14E2 0.00507 C
182W S G KC=0.00415 6$LC=0.000711 10$MC=0.0001634 23
182W S G NC=3.92E-5 6$OC=6.23E-6 9$PC=3.86E-7 6
182W cG $|a(K)exp=0.0044 {I15}
182W G 1294.0 3 6.27 12 E2(+M1) 30 GT 0.00274 C
182W 2 G A2=-0.04 13
182W S G KC=0.00226 4$LC=0.000356 5$MC=8.10E-5 12
182W S G NC=1.94E-5 3$OC=3.13E-6 5$PC=2.10E-7 3$IPC=1.654E-5 24
182W cG $ W(0|')-1=+0.038 {I14}
182W cG $|a(K)exp=0.00210 {I19}
182W cG MR$>+30 or <-60 (1980Sp01)
182W L 1660.37 5 5-
182W E 0.6 LT 9.6 GT 0.6 LT 1U?
182W S E CK=0.792 5$CL=0.158 3$CM+=0.0502 12
182W G 39.1 1 1.0 2M1+E2 0.061 7 13.6 4
182W S G LC=10.53 25$MC=2.42 6
182W S G NC=0.581 15$OC=0.0933 21$PC=0.00618 10
182W cG $L1/L2>8.7 (1971Ga37)
182W G 107.13 5 5.5 4M1+E2 -0.8 2 3.54 13
182W 2 G A2=+3.4 5
182W S G KC=2.3 4$LC=0.96 15$MC=0.24 4
182W S G NC=0.056 9$OC=0.0081 12$PC=0.00022 4
182W cG $ W(0|')-1=+0.54 {I8}
182W cG $|a(K)exp=2.3 {I7} for 107.1|g+108.6|g (1971Ga37)
182W cG $L1/L2=0.74 {I8}, L1/L3=1.09 {I16}, L2/L3=1.6 {I3} (1971Ga37)
182W cG MR$-0.56 to -1.3 (1980Sp01)
182W G 150.25 5 2.0 2(E1) 0.1305 ?
182W 2 G A2=+0.6 11
182W S G KC=0.1077 16$LC=0.01770 25$MC=0.00403 6
182W S G NC=0.000956 14$OC=0.0001476 21$PC=8.13E-6 12
182W DG MR$ +0.04 22 (1980Sp01)
182W cG $ W(0|')-1=+0.10 {I17}
182W G 172.87 5 13.9 9M1+E2 +0.26 1 0.971 C
182W 2 G A2=-0.51 6
182W S G KC=0.795 12$LC=0.1356 20$MC=0.0312 5
182W S G NC=0.00749 11$OC=0.001205 17$PC=7.97E-5 12
182W DG MR$ FROM 1980Sp01
182W cG $ W(0|')-1=-0.079 {I9}
182W cG $|a(K)exp=0.67 {I11} (1970Ag07)
182W cG $L1/L2=7.1 {I8}, L1/L3=17 {I3}, L2/L3=2.4 {I6}, M1/M2=4.9 {I14}
182W xcG (1971Ga37)
182W G 217.55 5 12.7 8(E1) 0.0506 C
182W 2 G A2=+0.76 13
182W S G KC=0.0420 6$LC=0.00664 10$MC=0.001508 22
182W S G NC=0.000359 5$OC=5.63E-5 8$PC=3.33E-6 5
182W cG MR$+0.014 {I25} (1980Sp01)
182W cG $ W(0|')-1=+0.117 {I20}
182W cG $|a(L2)exp=0.0038 {I15} (1971Ga37)
182W DG $ EL2C AP 0.012 (1970Ag07)
182W G 286.56 5 27.418E2 0.0976 C
182W S G KC=0.0643 9$LC=0.0254 4$MC=0.00621 9
182W S G NC=0.001472 21$OC=0.000213 3$PC=5.47E-6 8
182W cG $ W(0|')-1=-0.193 {I4}
182W cG $|a(K)exp=0.069 {I19} (1970Ag07)
182W cG $L1/L2=0.77 {I15}, L1/L3=1.23 {I23}, L2/L3=1.6 {I3} (1971Ga37)
182W G 1330.9 2 1.4613 E1+M2 0.5 2 0.0032 14 C
182W S G KC=0.0026 11$LC=4.0E-4 18$MC=9.1E-5 41
182W S G NC=2.19E-5 98$OC=3.6E-6 16$PC=2.6E-7 12$IPC=6.3E-5 9
182W cG $|a(K)exp|?0.0014 (1971Ga37)
182W G 1560.4 4 0.28 3(E3) 0.00382 C
182W S G KC=0.00309 5$LC=0.000534 8$MC=0.0001231 18
182W S G NC=2.96E-5 5$OC=4.74E-6 7$PC=3.03E-7 5$IPC=4.10E-5 6
182W cG $|a(K)exp=0.0055 {I17}, |?0.0028
182W DG $ EKC=0.0028 9 (1971Ga37,1970Ag07)
182W L 1756.77 6 6+
182W E 16.4 8 7.4 1 16.4 8
182W S E CK=0.8106 21$CL=0.1442 15$CM+=0.0451 6
182W G 313.98 10 3.1 2E2 0.0743
182W S G KC=0.0506 7$LC=0.0181 3$MC=0.00440 7
182W S G NC=0.001044 15$OC=0.0001524 22$PC=4.37E-6 7
182W cG $ W(0|')-1=-0.18 {I3}
182W cG $|a(L2)exp=0.0090 {I25}, L1/L2=0.83 {I20}, L1/L3=2.2 {I8}, L2/L3=2.7
182W xcG {I10} (1971Ga37)
182W G 1076.2 2 41.012E2+M1 +2.56 +9-8 0.00444 C
182W 2 G A2=+0.11 3
182W S G KC=0.00368 6$LC=0.000592 10$MC=0.0001351 21
182W S G NC=3.24E-5 5$OC=5.22E-6 8$PC=3.46E-7 6
182W dG MR$ from 1980Sp01
182W cG $ W(0|')-1=-0.001 {I3}
182W cG $|a(K)exp=0.0037 {I4}, 0.0036 {I4}, 0.0041 {I8}. |a(K)exp=0.00399
182W 2cG {I13}, |a(L)exp=0.00060 {I3} (1975We22)
182W cG $L1/L2=7.8 {I9}, L1/L3=23 {I5}, L2/L3=3.1 {I9} (1970Ag07)
182W cG M$no E0 admixture found in |g(ce)(|q) and ce work of 1975We22
182W G 1427.3 2 38.1 7E2 0.00231 C
182W S G KC=0.00188 3$LC=0.000291 4$MC=6.60E-5 10
182W S G NC=1.584E-5 23$OC=2.56E-6 4$PC=1.743E-7 25$IPC=4.68E-5 7
182W cG $ W(0|')-1=-0.203 {I3}
182W cG $|a(K)exp=0.00169 {I15}, 0.0018 {I6}
182W L 1768.95 5 (6)-
182W E 0.18 LT 9.4 GT 0.18 LT ?
182W S E CK=0.8104 21$CL=0.1444 16$CM+=0.0452 6
182W G 108.58 5 3.1 2M1+E2 -0.6 2 3.50 13 C
182W 2 G A2=+3.6 10
182W S G KC=2.5 3$LC=0.78 14$MC=0.19 4
182W S G NC=0.045 9$OC=0.0066 11$PC=0.00025 4
182W cG $ W(0|')-1=+0.55 {I15}
182W cG $|a(K)exp=2.3 {I7} for 107.1|g+108.6|g, M1/M2=2.1 {I9} (1971Ga37)
182W cG MR$-0.41 to -1.7 (1980Sp01)
182W G 145.43 5 2.6 2(E1) 0.1420 C
182W 2 G A2=+0.4 6
182W S G KC=0.1171 17$LC=0.0193 3$MC=0.00440 7
182W S G NC=0.001043 15$OC=0.0001608 23$PC=8.80E-6 13
182W cG MR$+0.08 {I11} (1980Sp01)
182W cG $ W(0|')-1=+0.06 {I9}
182W cG $|a(K)exp=0.11 {I4} (1971Ga37)
182W G 147.69 5 3.5 3M1+E2 +0.8 2 1.30 9 C
182W 2 G A2=-2.1 5
182W S G KC=0.94 12$LC=0.277 24$MC=0.067 7
182W S G NC=0.0159 15$OC=0.00237 18$PC=9.1E-5 13
182W cG MR$+0.56 to +2.6 (1980Sp01)
182W cG $ W(0|')-1=-0.31 {I6}
182W cG $|a(K)exp=0.96 {I30} for 147.6|g+148.8|g+149.4|g, L1/L2=1.6 {I4},
182W 2cG L1/L3=2.8 {I19}, L2/L3=1.8 {I8} (1971Ga37)
182W G 215.73 5 3.0 2(E2) 0.240 C
182W S G KC=0.1376 20$LC=0.0776 11$MC=0.0192 3
182W S G NC=0.00455 7$OC=0.000645 9$PC=1.106E-5 16
182W cG $ W(0|')-1=-0.17 {I7}
182W cG $|a(L1)exp=0.026 {I10} (1970Ag07)
182W G 281.45 5 22.115E2 0.1031 C
182W S G KC=0.0674 10$LC=0.0272 4$MC=0.00665 10
182W S G NC=0.001577 23$OC=0.000228 4$PC=5.71E-6 8
182W cG $ W(0|')-1=-0.188 {I5}
182W cG $|a(K)exp=0.064 {I13}, L2/L3=1.9 {I3} (1971Ga37,1970Ag07)
182W G 1088.5 3 0.77 8E1+M2 0.4 2 0.0040 23 C
182W S G KC=0.0033 19$LC=5.1E-4 31$MC=1.17E-4 70
182W S G NC=2.8E-5 17$OC=4.6E-6 28$PC=3.3E-7 20
182W cG $|a(K)exp=0.0034 {I6} (1971Ga37,1970Ag07)
182W G 1439.3 3 0.62 4 (M2) 0.00930 C
182W S G KC=0.00770 11$LC=0.001217 17$MC=0.000277 4
182W S G NC=6.69E-5 10$OC=1.093E-5 16$PC=7.84E-7 11$IPC=2.33E-5 4
182W cG $|a(K)exp=0.0016 {I4} (1971Ga37,1970Ag07)
182W cG M$|a(K)exp gives E1+M2 or E2, but |DJ|p requires M2
182W L 1809.66 75-
182W E 7.1 23 8.3 3 1U
182W S E CK=0.786 6$CL=0.162 5$CM+=0.0521 17
182W G 188.54 5 0.51 5 ?
182W G 256.45 5 37 3 M1+E2 +0.037 +6-7 0.336
182W 2 G A2=+0.64 3
182W S G KC=0.279 4$LC=0.0438 7$MC=0.00996 14
182W S G NC=0.00240 4$OC=0.000392 6$PC=2.79E-5 4
182W dG MR$ from 1980Sp01
182W cG $ W(0|')-1=+0.099 {I3}
182W cG $|a(L1)exp=0.040 {I7}, L1/L2>7.7, L1/L3>38 (1970Ag07)
182W L 1810.89 6(6)-
182W E 0.7 5 8.7 4
182W S E CK=0.8096 23$CL=0.1450 17$CM+=0.0454 7
182W G 42.0
182W G 187.34 5 1.2512E1+M2 +0.25 +27-200.33 66
182W 2 G A2=-0.5 10
182W S G KC=0.25 50$LC=0.06 13$MC=0.014 30
182W S G NC=0.0033 73$OC=5.E-4 12$PC=3.3E-5 74
182W DG MR$ FROM 1980Sp01
182W cG $ W(0|')-1=-0.07 {I14}
182W G 189.65 5 1.5 7M1+E2 +0.31 +15-120.74 4
182W 2 G A2=-0.8 6
182W S G KC=0.60 4$LC=0.104 3$MC=0.0239 10
182W S G NC=0.00575 22$OC=0.000923 21$PC=6.0E-5 5
182W DG MR$ FROM 1980Sp01
182W cG $ W(0|')-1=-0.10 {I8}
182W cG $|a(K)exp=0.077 {I19} (1971Ga37)
182W G 323.40 10 6.8 5E2 0.0681 C
182W S G KC=0.0469 7$LC=0.01621 23$MC=0.00394 6
182W S G NC=0.000936 14$OC=0.0001371 20$PC=4.07E-6 6
182W cG $ W(0|')-1=-0.165 {I14}
182W cG $|a(K)exp=0.059 {I10}; |a(L1)exp=0.0067 {I10}; |a(L3)exp=0.0058 {I10}
182W cG $|a(L1)exp=0.007 {I2}, L1/L2=0.97 {I18}, L1/L3=1.6 {I5}, L2/L3=1.7
182W xcG {I5} (1970Ag07)
182W L 1829.53 5 6-
182W E 14 4 7.4 2
182W S E CK=0.8092 24$CL=0.1453 18$CM+=0.0455 7
182W G 19.85 10 0.14 5M1+E2 0.07 2 1.3E2 3
182W S G LC=102 20$MC=24 5
182W S G NC=5.7 12$OC=0.88 15$PC=0.0461 10
182W G 60.65 10 0.4 1[M1] 3.48
182W S G LC=2.69 4$MC=0.613 9
182W S G NC=0.1476 22$OC=0.0240 4$PC=0.00171 3
182W G 169.15 5 44 3 M1+E2 +0.094 6 1.060 C
182W 2 G A2=+0.31 3
182W S G KC=0.879 13$LC=0.1405 20$MC=0.0320 5
182W S G NC=0.00771 11$OC=0.001256 18$PC=8.85E-5 13
182W DG MR$ FROM 1980Sp01
182W cG $ W(0|')-1=+0.051 {I5}
182W cG $|a(K)exp=0.87 {I21}; |a(L1)exp=0.140 {I17}
182W cG $L1/L2=10 {I4}, L1/L3>27, L2/L3>2.5,
182W 2cG M1/M2=9.9 {I18}, M1/M3=38 {I21}, M2/M3=4.4 {I24} (1971Ga37).
182W DG $ L-SUBSHELL RATIOS ALSO LISTED BY 1970Ag07
182W G 206.00 5 2.0 2E1 0.0581
182W 2 G A2=+0.9 4
182W S G KC=0.0482 7$LC=0.00766 11$MC=0.001739 25
182W S G NC=0.000414 6$OC=6.48E-5 9$PC=3.80E-6 6
182W cG MR$-0.02 {I7} (1980Sp01)
182W cG $ W(0|')-1=+0.14 {I6}
182W cG $|a(K)exp|?0.047 (1971Ga37)
182W G 208.26 5 2.4 2M1+E2 -1.0 5 0.43 10 C
182W DG MR$ from 1980Sp01
182W 2 G A2=+3.2 4
182W S G KC=0.32 11$LC=0.084 4$MC=0.0200 14
182W S G NC=0.0048 3$OC=0.000721 18$PC=3.1E-5 12
182W cG $ W(0|')-1=+0.52 {I6}
182W cG $|a(L2)exp|?0.024 (1970Ag07); |a(K)exp=0.31 {I4}
182W G 276.31 5 34.020E2 0.1090 C
182W S G KC=0.0708 10$LC=0.0291 4$MC=0.00714 10
182W S G NC=0.001693 24$OC=0.000245 4$PC=5.98E-6 9
182W cG $ W(0|')-1=-0.194 {I4}
182W cG $|a(K)exp=0.078 {I24}, 0.073 {I6}; |a(L1)exp=0.0105 {I11};
182W xcG |a(L2)exp=0.0127 {I11}; |a(L3)exp=0.0080 {I10}
182W cG $L1/L2=0.74 {I6}, L1/L3=1.10 {I10}, L2/L3=1.49 {I13} (1970Ag07)
182W G 342.03 10 4.1 3E2 0.0579 C
182W S G KC=0.0406 6$LC=0.01326 19$MC=0.00321 5
182W S G NC=0.000764 11$OC=0.0001124 16$PC=3.55E-6 5
182W cG $ W(0|')-1=-0.20 {I4}
182W cG $|a(K)exp=0.038 {I5}
182W L 1916.94 11(7)-
182W E 0.46 9 8.8 2
182W S E CK=0.807 3$CL=0.1468 22$CM+=0.0461 8
182W G 160.20 5 0.93 6 & ?
182W G 295.67 10 0.8 3 (E2) 0.0888
182W S G KC=0.0592 9$LC=0.0226 4$MC=0.00551 8
182W S G NC=0.001307 19$OC=0.000190 3$PC=5.06E-6 7
182W L 1960.33 6 (7)-
182W E 23 5 7.1 2
182W S E CK=0.806 4$CL=0.1477 25$CM+=0.0464 10
182W G 130.81 5 29.020M1+E2 -0.51 +6-8 2.03 6 C
182W 2 G A2=+2.87 14
182W S G KC=1.55 8$LC=0.369 21$MC=0.087 6
182W S G NC=0.0208 13$OC=0.00319 16$PC=0.000154 8
182W DG MR$ -0.51 +6-8 (1980Sp01)
182W cG $ W(0|')-1=+0.410 {I9}
182W cG $|a(K)exp=1.4 {I4}
182W DG $ EKC AP 1.48 (1971Ga37)
182W G 149.45 5 3.5 3M1+E2 -0.15 +15-181.50 6 C
182W 2 G A2=+1.6 8
182W S G KC=1.23 7$LC=0.202 14$MC=0.046 4
182W S G NC=0.0111 9$OC=0.00180 10$PC=0.000124 8
182W cG $ W(0|')-1=+0.23 {I11}
182W DG MR$ FROM 1980Sp01
182W cG $|a(K)exp=0.96 {I30} for 147.6|g+148.8|g+149.4|g, K/L2=37 {I25}
182W xcG (1971Ga37)
182W G 191.39 5 26.020M1+E2 -0.23 +6-8 0.734 18 C
182W 2 G A2=+0.90 9
182W S G KC=0.604 19$LC=0.1002 18$MC=0.0230 5
182W S G NC=0.00552 11$OC=0.000892 14$PC=6.05E-5 20
182W cG MR$-0.017 {I17} (1980Sp01)
182W cG $ W(0|')-1=+0.129 {I9}
182W cG $|a(K)exp=0.66 {I15}; |a(L1)exp=0.098 {I30}, 0.077 {I8};
182W xcG |a(L2)exp=0.0081 {I7}; EL3C|?0.002
182W DG $ EKC=0.48 8 (1971Ga37), EL1C=0.081 17 (1970Ag07)
182W G 203.55 5 1.9 2 (E1) 0.0599
182W 2 G A2=+0.5 5
182W S G KC=0.0497 7$LC=0.00790 11$MC=0.00179 3
182W S G NC=0.000427 6$OC=6.68E-5 10$PC=3.91E-6 6
182W cG $ W(0|')-1=+0.07 {I6}
182W cG MR$from |g(|q), 1980Sp01 give |d(Q/D)=-17 {I+10-24} or +0.06 {I+9-4};
182W 2cG favoring the former value from |d based on ce data of 1971Ga37. But
182W 3cG 1971Ga37 (also 1972Ga15) assigned tentative E2 from |a(K)exp=0.15 {I3}
182W 4cG (1971Ga37) and questioned the placement and mult assignment.
182W 5cG |d(M2/E1)=-17 {I+10-24} is inconsistent with RUL(M2)=1 for
182W 6cG T{-1/2}(1960.33 level)<1 ns or so. The evaluators assign tentative E1.
182W G 299.90 10 4.910E2 0.0851 C
182W S G KC=0.0570 8$LC=0.0214 3$MC=0.00522 8
182W S G NC=0.001239 18$OC=0.000180 3$PC=4.89E-6 7
182W cG $ W(0|')-1=-0.064 {I8} for 299.9+300.4
182W cG $L1/L3=1.35 {I6} (1970Ag07)
182W G 339.06 10 21.614E2 0.0594 C
182W S G KC=0.0415 6$LC=0.01368 20$MC=0.00332 5
182W S G NC=0.000788 11$OC=0.0001159 17$PC=3.63E-6 5
182W cG $ W(0|')-1=-0.173 {I5}
182W cG $|a(K)exp=0.058 {I20}, 0.038 {I8}; |a(L1)exp=0.0052 {I8};
182W 2cG |a(L2)exp=0.0069 {I10}; |a(L3)exp=0.0036 {I13}, 0.0033 {I6}
182W cG $L1/L2=0.82 {I15}, L1/L3=1.6 {I3}, L2/L3=2.0 {I4} (1970Ag07)
182W L 1960.79 8 6-
182W E 2.8 6 8.0 2
182W S E CK=0.806 4$CL=0.1477 25$CM+=0.0464 10
182W G 151.15 5 1.7 2M1+E2 0.8 3 1.21 13 C
182W S G KC=0.88 17$LC=0.25 3$MC=0.061 9
182W S G NC=0.0146 20$OC=0.00218 23$PC=8.5E-5 19
182W cG $EKC|?0.32
182W cG $|a(K)exp=0.17 {I5} for 151.1|g+152.4|g+153.9|g, L1/L2=2.1 {I6},
182W 2cG L1/L3>9.8, L2/L3>5.0 (1971Ga37)
182W G 300.36 10 6.615M1+E2 +0.048 26 0.218 C
182W 2 G A2=+0.56 14
182W S G KC=0.181 3$LC=0.0284 4$MC=0.00646 9
182W S G NC=0.001555 22$OC=0.000254 4$PC=1.81E-5 3
182W dG MR$ from 1980Sp01
182W cG $ W(0|')-1=-0.064 {I8} for 300.4+299.9
182W cG $|a(K)exp=0.23 {I6}
182W G 1279.8 3 0.24 3 ?
182W G 1631.4 5 0.049 9M2+E3 2.5 AP 0.00396AP ?
182W S G KC AP 0.00321$LC AP 0.000536$MC AP 0.0001230
182W S G NC AP 2.96E-5$OC AP 4.77E-6$PC AP 3.17E-7$IPC AP 5.70E-5
182W cG $|a(K)exp=0.0054 {I20}, |?0.0016
182W DG $ EKC=0.0032 14 (1971Ga37)
182W L 1971.09 8(7)+
182W E 1.70 13 8.2 1
182W S E CK=0.806 4$CL=0.148 3$CM+=0.0465 10
182W G 214.32 5 4.3 3M1+E2 +0.25 +8-7 0.532 15 C
182W 2 G A2=-0.5 4
182W S G KC=0.439 14$LC=0.0725 11$MC=0.0166 3
182W S G NC=0.00399 7$OC=0.000645 9$PC=4.39E-5 15
182W DG MR$ from 1980Sp01
182W cG $ W(0|')-1=-0.07 {I5}
182W cG $|a(K)exp=0.44 {I13}, 0.42 {I8}; |a(L1)exp=0.065 {I19}, 0.064 {I9}
182W cG $L1/L2=8.7 {I19} (1971Ga37)
182W DG $ EL1C=0.063 10, L1/L2=7.7 21 (1970Ag07)
182W L 1978.37 6 (7)-
182W E 24 5 7.0 2
182W S E CK=0.805 4$CL=0.148 3$CM+=0.0465 10
182W G 18.05 10 0.4812M1+E2 0.016 5 128 4
182W S G LC=99 3$MC=22.7 7
182W S G NC=5.45 16$OC=0.883 24$PC=0.0612 14
182W G 148.86 5 6.8 5M1+E2 +0.28 +8-6 1.48 4 C
182W 2 G A2=-0.7 3
182W S G KC=1.20 5$LC=0.214 8$MC=0.0493 22
182W S G NC=0.0118 5$OC=0.00189 6$PC=0.000121 5
182W DG MR$ +0.28 +8-6 (1980Sp01)
182W cG $ W(0|')-1=-0.12 {I6}
182W cG $|a(K)exp=0.96 {I30} for 147.6|g+148.8|g+149.4|g (1971Ga37)
182W G 209.40 5 1.9 2M1+E2 -0.28 +23-150.56 3 C
182W 2 G A2=+2.2 7
182W S G KC=0.46 3$LC=0.0776 15$MC=0.0178 5
182W S G NC=0.00428 10$OC=0.000690 11$PC=4.6E-5 4
182W DG MR$ from 1980Sp01
182W cG $ W(0|')-1=+0.39 {I10}
182W cG $|a(K)exp=0.53 {I15}, 0.35 {I11}; |a(L1)exp=0.074 {I14}
182W cG $L1/L3>3 (1970Ag07)
182W G 221.61 5 25.020E1 0.0483 C
182W 2 G A2=+0.72 13
182W S G KC=0.0401 6$LC=0.00633 9$MC=0.001438 21
182W S G NC=0.000342 5$OC=5.37E-5 8$PC=3.19E-6 5
182W cG MR$+0.016 {I24} (1980Sp01)
182W cG $ W(0|')-1=+0.122 {I3} for 221.6+222.1
182W cG $EKC|?0.04, 0.060 {I20}; |a(L1)exp=0.0068 {I8}
182W cG $|a(K)exp=0.050 {I10} for 221.6|g+222.1|g, L1/L2>4 (1970Ag07)
182W G 357.04 10 2.1 2E2 0.0513
182W S G KC=0.0364 5$LC=0.01140 16$MC=0.00276 4
182W S G NC=0.000656 10$OC=9.68E-5 14$PC=3.20E-6 5
182W cG $ W(0|')-1=-0.22 {I3}
182W cG $|a(K)exp=0.032 {I13} (1970Ag07)
182W L 2114.43 7 (8)-
182W E 1.03 19 8.2 2
182W S E CK=0.800 6$CL=0.152 4$CM+=0.0479 15
182W G 154.10 5 0.9 3M1+E2 0.6 3 1.22 12
182W S G KC=0.93 15$LC=0.22 3$MC=0.052 8
182W S G NC=0.0124 17$OC=0.00190 19$PC=9.2E-5 17
182W cG $|a(K)exp=0.17 {I5} for 151.1|g+152.4|g+154.0|g (1971Ga37)
182W cG $L1/L2=2.9 {I8}, L1/L3=3.3 {I10}, L2/L3=1.2 {I5} (1971Ga37)
182W G 345.46 10 1.9 2E2 0.0563
182W S G KC=0.0395 6$LC=0.01280 18$MC=0.00310 5
182W S G NC=0.000737 11$OC=0.0001085 16$PC=3.47E-6 5
182W cG $ W(0|')-1=-0.28 {I18}
182W cG $|a(K)exp=0.053 {I19} (1971Ga37)
182W L 2120.53 8 (8-) ?
182W E 0.47 8 8.6 2 ?
182W S E CK=0.800 6$CL=0.152 4$CM+=0.0480 16
182W G 160.20 5 0.93 6(M1) 1.241 & ?
182W S G KC=1.030 15$LC=0.1631 23$MC=0.0371 6
182W S G NC=0.00894 13$OC=0.001459 21$PC=0.0001038 15
182W cG $|a(K)exp|?0.92 (1971Ga37)
182W L 2204.56 8 (8)-
182W E 4.5 3 7.5 2
182W S E CK=0.795 8$CL=0.155 6$CM+=0.0492 22
182W G 226.19 5 11.9 8M1+E2 +0.15 2 0.468
182W 2 G A2=-0.02 9
182W S G KC=0.388 6$LC=0.0620 9$MC=0.01414 20
182W S G NC=0.00341 5$OC=0.000554 8$PC=3.89E-5 6
182W dG MR$ from 1980Sp01
182W cG $ W(0|')-1=-0.004 {I15}
182W cG $|a(K)exp=0.50 {I15}, 0.41 {I6}; |a(L1)exp=0.059 {I18}, 0.058 {I5}
182W cG $L1/L2=7.8 {I8}, L1/L3>24, L2/L3>3 (1971Ga37)
182W DG $ EKC=0.40 10 (1970Ag07)