158ER 158TM EC DECAY 1975AG01 17NDS 201704
158ER H TYP=FUL$AUT=N. NICA$CIT=NDS 141, 1 (2017)$CUT=1-Feb-2017$
158ER c Source produced by {+162}Er(p,5n) at 157 MeV and mass separation,
158ER2c measured E{-|g}, I{-|g}, |g|g-coin, ce, T{-1/2} (1975Ag01);
158ER3c other: 1970De13, 1993Al03.
158ER cE $This scheme is quite incomplete since there are 78 unplaced |g's and
158ER2cE the I{-(|e+|b+)} measurements of 1982By03 indicate that 57% of the
158ER3cE decays go to levels above those of the current scheme. However as the
158ER4cE total unplaced |g-ray intensity is only about 2.3% of the Q value
158ER5cE obtained by 2012Wa38 from the atomic mass difference, it results that
158ER6cE the main components of the decay are already present in the level
158ER7cE scheme. Because of these rather contradictory statements, while the
158ER8cE complete figures of intensities and log| {Ift} (including
158ER9cE uncertainties) are listed in the |e+|b+ table, the evaluator recommends
158ERacE to use them rather as limits (see also comments on I|b,I|e)
158ER cE IB,IE I{-(|e+|b+)} values are from |g intensity balances and
158ER2cE these are divided into I(|b+) and I(|e) components based on the
158ER3cE theoretical |b+/capture ratios. The associated uncertainties
158ER4cE are given, but they do not include any contribution from the
158ER5cE incompleteness of the decay scheme (as illustrated by the
158ER6cE presence of 78 unplaced |g's). Although they are not populated
158ER7cE by |e decay, the calculated I(|e+|b+) for the levels at 970 and
158ER8cE 1438 keV are each |? 0.4%, again indicating the limited quality
158ER9cE of these values.
158ER cE IB,IE From total absorption |g spectra, 1982By03 deduce that |?
158ER2cE 57% of the |e+|b+ decays go to levels above |? 2.8 MeV which are
158ER3cE not in the known scheme. This suggests that in general the
158ER4cE I(|e+|b+) in this scheme should be reduced by a factor of 2 (and
158ER5cE the log {Ift} values increased by 0.3 units). Also, it suggests
158ER6cE that the small I(|e+|b+) values are not meaningful since these
158ER7cE levels may be fed by |g's from the unreported levels.
158ER cG M From {+158}Er Adopted Gammas, but based primarily on
158ER2cG |a{-K}(exp) data of 1975Ag01 where the conversion electron
158ER3cG intensities were normalized to the |g intensities by
158ER4cG |a{-K}(192|g,E2)=0.185 and |a{-K}(335|g,E2)=0.037. These two
158ER5cG |g's are E2 since they are the 2+ to 0+ and 4+ to 2+ |g's in
158ER6cG the ground-state band.
158ER cG E(G) |g not firmly assigned to {+158}Tm decay (1975Ag01).
158ER cL E From least-squares fit to |g energies.
158ER cL J From {+158}Er Adopted Levels.
158ER cL BAND(A) K|p 0+ ground-state band
158ER cL BAND(B) K|p=0+ |b-vibrational band
158ER cL BAND(C) K|p=2+ |g-vibrational band
158ER cL BAND(E) K|p=0+ band
158ER DG CC$FROM BrIcc v2.3 (29-Mar-2013) 2008Ki07, "Frozen Orbitals" appr.
158ER cG MR$If no value given it was assumed |d=1.00 for E2/M1, |d=1.00 for
158ER2cG E3/M2 and |d=0.10 for the other multipolarities
158TM P 0.0 2- 3.98 M 6 6600 30
158ER N 0.62 7 0.62 7 1.00
158ER cN NR calculated to give 100% feeding of the ground state and
158ER2cN assuming the ground-state |e+|b+ branching=10% {I10}, based
158ER3cN on log {If{+1u}t} > 8.5 for ground state which gives I{-|e}(0)
158ER4cN <20%.
158ER PN 3
158ER G 104.6 3 0.12 3
158ER cG $%I|g=0.074~{I21}
158ER G 175.0 3 0.09 3
158ER cG $%I|g=0.056~{I20}
158ER G 177.9 4 0.10 3
158ER cG $%I|g=0.062~{I20}
158ER G 240.00 20 0.40 8
158ER cG $%I|g=0.25~{I6}
158ER G 248.08 10 0.37 6
158ER cG $%I|g=0.23~{I5}
158ER G 359.10 20 0.10 4
158ER cG $%I|g=0.06~{I3}
158ER G 406.00 20 0.07 2
158ER cG $%I|g=0.043~{I14}
158ER G 415.0 3 0.09 2
158ER cG $%I|g=0.056~{I14}
158ER G 504.70 20 0.72 18
158ER cG $%I|g=0.45~{I13}
158ER cG $|a(K)exp=0.009~{I3} (1975Ag01)
158ER G 599.80 10 0.30 3M1(+E2) 1.0 LE 0.019 3
158ER cG $%I|g=0.19~{I3}
158ERS G KC=0.016 3$LC=0.0024 3$MC=0.00053 6
158ERS G NC=0.000123 15$OC=1.77E-5 23$PC=9.6E-7 16
158ER cG $|a(K)exp=0.021~{I8} (1975Ag01)
158ER G 635.5 3 0.05 3
158ER cG $%I|g=0.031~{I19}
158ER G 667.40 15 0.19 3
158ER cG $%I|g=0.118~{I23}
158ER G 676.80 10 0.17 5 G
158ER cG $%I|g=0.11~{I4}
158ER G 697.3 8 0.05 LT E0
158ER cG $%I|g=0.015~{I16}
158ER cG $|a(K)exp>0.195 (1975Ag01)
158ER cG TI From I{-ce}(K), I(|g+ce)=0.0092 {I17} if |g is pure E0.
158ER G 703.9 3 0.38 10
158ER cG $%I|g=0.24~{I7}
158ER G 831.02 20 0.13 3
158ER cG $%I|g=0.081~{I21}
158ER G 889.6 4 0.20 7
158ER cG $%I|g=0.12~{I5}
158ER G 968.3 4 0.07 2
158ER cG $%I|g=0.043~{I14}
158ER G 978.45 15 0.14 2
158ER cG $%I|g=0.087~{I16}
158ER G 1008.6 4 0.20 3
158ER cG $%I|g=0.124~{I24}
158ER G 1011.5 3 0.22 6
158ER cG $%I|g=0.14~{I4}
158ER G 1048.75 25 0.18 3
158ER cG $%I|g=0.111~{I23}
158ER G 1052.45 25 0.15 6
158ER cG $%I|g=0.09~{I4}
158ER G 1109.8 3 0.16 3
158ER cG $%I|g=0.099~{I22}
158ER G 1132.90 10 0.25 3
158ER cG $%I|g=0.15~{I3}
158ER G 1206.9 3 0.14 4
158ER cG $%I|g=0.09~{I3}
158ER G 1217.2 5 0.19 8
158ER cG $%I|g=0.12~{I6}
158ER G 1262.4 4 0.14 5
158ER cG $%I|g=0.09~{I4}
158ER G 1295.0 5 0.20 4
158ER cG $%I|g=0.12~{I3}
158ER G 1303.30 15 0.60 9
158ER cG $%I|g=0.37~{I7}
158ER G 1311.85 15 0.28 4
158ER cG $%I|g=0.17~{I4}
158ER G 1319.45 25 0.27 5
158ER cG $%I|g=0.17~{I4}
158ER G 1360.4 4 0.28 3
158ER cG $%I|g=0.17~{I3}
158ER G 1407.8 3 0.28 4
158ER cG $%I|g=0.17~{I4}
158ER G 1428.5 5 0.13 5
158ER cG $%I|g=0.08~{I4}
158ER G 1453.7 3 0.20 10
158ER cG $%I|g=0.12~{I7}
158ER G 1459.0 5 0.25 8
158ER cG $%I|g=0.15~{I6}
158ER G 1473.0 4 0.15 4
158ER cG $%I|g=0.09~{I3}
158ER G 1482.6 4 0.30 5
158ER cG $%I|g=0.19~{I4}
158ER G 1489.75 25 0.30 5
158ER cG $%I|g=0.19~{I4}
158ER G 1533.5 7 0.16 4
158ER cG $%I|g=0.10~{I3}
158ER G 1567.4 3 0.20 4
158ER cG $%I|g=0.12~{I3}
158ER G 1693.90 20 0.36 5
158ER cG $%I|g=0.22~{I4}
158ER G 1751.40 20 0.21 3
158ER cG $%I|g=0.130~{I24}
158ER G 1761.40 20 0.21 3
158ER cG $%I|g=0.130~{I24}
158ER G 1771.3 3 0.16 3
158ER cG $%I|g=0.099~{I22}
158ER G 1811.80 15 0.31 4
158ER cG $%I|g=0.19~{I4}
158ER G 1832.4 4 0.10 3
158ER cG $%I|g=0.062~{I20}
158ER G 1840.20 20 0.26 5
158ER cG $%I|g=0.16~{I4}
158ER G 1879.1 4 0.20 3
158ER cG $%I|g=0.124~{I24}
158ER G 1889.25 25 0.19 3
158ER cG $%I|g=0.118~{I23}
158ER G 1904.17 20 0.34 5
158ER cG $%I|g=0.21~{I4}
158ER G 1909.9 3 0.23 4
158ER cG $%I|g=0.14~{I3}
158ER G 1925.0 5 0.13 5
158ER cG $%I|g=0.08~{I4}
158ER G 1931.1 5 0.11 5
158ER cG $%I|g=0.07~{I4}
158ER G 2090.8 3 0.15 3
158ER cG $%I|g=0.093~{I22}
158ER G 2118.8 3 0.20 5
158ER cG $%I|g=0.12~{I4}
158ER G 2162.9 3 0.23 4
158ER cG $%I|g=0.14~{I3}
158ER G 2186.8 3 0.32 6
158ER cG $%I|g=0.20~{I5}
158ER G 2208.8 5 0.12 4
158ER cG $%I|g=0.07~{I3}
158ER G 2221.3 5 0.18 7
158ER cG $%I|g=0.11~{I5}
158ER G 2241.2 4 0.22 4
158ER cG $%I|g=0.14~{I3}
158ER G 2274.1 3 0.26 5
158ER cG $%I|g=0.16~{I4}
158ER G 2422.15 20 0.42 6
158ER cG $%I|g=0.26~{I5}
158ER G 2453.8 15 0.25 10
158ER cG $%I|g=0.15~{I7}
158ER G 2457.0 15 0.19 10
158ER cG $%I|g=0.12~{I7}
158ER G 2470.5 15 0.25 7
158ER cG $%I|g=0.15~{I5}
158ER G 2487.5 15 0.19 10
158ER cG $%I|g=0.12~{I7}
158ER G 2548.5 15 0.29 10
158ER cG $%I|g=0.18~{I7}
158ER G 2643 3 0.10 5
158ER cG $%I|g=0.06~{I4}
158ER G 2656 4 0.08 4 G
158ER cG $%I|g=0.05~{I3}
158ER G 2686 4 0.07 4 G
158ER cG $%I|g=0.04~{I3}
158ER G 2816.5 20 0.33 8
158ER cG $%I|g=0.20~{I6}
158ER G 2838 4 0.06 3 G
158ER cG $%I|g=0.037~{I19}
158ER G 2888 3 0.12 4
158ER cG $%I|g=0.07~{I3}
158ER G 3000 4 0.09 3
158ER cG $%I|g=0.056~{I20}
158ER G 3036 4 0.11 3
158ER cG $%I|g=0.068~{I20}
158ER G 3053 4 0.14 4
158ER cG $%I|g=0.09~{I3}
158ER L 0.0 0+ 2.29 H 6 A
158ER cL T$from Adopted Levels
158ER E 7 7 3 3 8.9 5 10 10 1U
158ERS E EAV=2510 14$CK=0.239 3$CL=0.0367 5$CM+=0.01089 14
158ER L 192.19 42+ 257 PS 18 A
158ER cL T$from Adopted Levels
158ER E 23 3 4.5 6 6.42 7 28 4
158ERS E EAV=2470 15$CK=0.1348 19$CL=0.0204 3$CM+=0.00605 9
158ER G 192.14 6 100 E2 0.288 C
158ER cG $%I|g=62~{I7}
158ERS G KC=0.182 3$LC=0.0813 12$MC=0.0194 3
158ERS G NC=0.00442 7$OC=0.000543 8$PC=8.50E-6 12
158ER L 527.22 54+ 13.5 PS 4 A
158ER cL T$from Adopted Levels
158ER E 5.1 12 2.8 7 8.72 11 7.9 19 1U
158ERS E EAV=2268 14$CK=0.294 4$CL=0.0453 6$CM+=0.01346 17
158ER G 335.08 6 27.1 24E2 0.0496 C
158ER cG $%I|g=16.8~{I24}
158ERS G KC=0.0372 6$LC=0.00961 14$MC=0.00223 4
158ERS G NC=0.000512 8$OC=6.66E-5 10$PC=1.95E-6 3
158ER L 806.42 60+ B
158ER E 0.62 13 0.41 9 9.48 10 1.03 22 1U
158ERS E EAV=2141 14$CK=0.328 4$CL=0.0507 7$CM+=0.01506 19
158ER G 614.26 6 2.74 25E2 0.00987 C
158ER cG $%I|g=1.70~{I25}
158ERS G KC=0.00802 12$LC=0.001441 21$MC=0.000326 5
158ERS G NC=7.53E-5 11$OC=1.037E-5 15$PC=4.50E-7 7
158ER cG $|a(K)exp=0.0079~{I20} (1975Ag01)
158ER cG M Assignment from |a{-K}(exp) is E2(+M1), but J|p's require E2.
158ER G 806.2 5 0.02 LT E0 0.038 6
158ER cG $%I|g=0.006~{I7}
158ER cG $|a(K)exp>1.2 (1975Ag01)
158ER L 820.14 52+ C
158ER E 5.6 9 1.5 2 6.80 7 7.1 11
158ERS E EAV=2174 14$CK=0.180 3$CL=0.0273 4$CM+=0.00810 12
158ER G 628.03 6 10.8 10E2(+M1) 1.7 GT 0.0107 14 C
158ER cG $%I|g=6.7~{I10}
158ERS G KC=0.0088 12$LC=0.00149 14$MC=0.00033 3
158ERS G NC=7.7E-5 7$OC=1.08E-5 11$PC=5.0E-7 8
158ER cG $|a(K)exp=0.0083~{I15} (1975Ag01)
158ER G 820.09 7 5.3 4E2 0.00511 C
158ER cG $%I|g=3.3~{I5}
158ERS G KC=0.00423 6$LC=0.000684 10$MC=0.0001530 22
158ERS G NC=3.55E-5 5$OC=4.98E-6 7$PC=2.40E-7 4
158ER cG $|a(K)exp=0.0036~{I9} (1975Ag01)
158ER L 970.35 86+ 2.59 PS 8 A
158ER cL T$from Adopted Levels
158ER G 443.13 7 0.59 6E2 0.0226 C
158ER cG $%I|g=0.37~{I6}
158ERS G KC=0.01772 25$LC=0.00377 6$MC=0.000866 13
158ERS G NC=0.000199 3$OC=2.67E-5 4$PC=9.68E-7 14
158ER cG $|a(K)exp=0.020~{I4} (1975Ag01)
158ER cG M Assignment from |a{-K}(exp) is E2(+M1), but J|p's require E2.
158ER L 989.09 62+ B
158ER E 3.2 5 0.98 14 6.96 7 4.2 6
158ERS E EAV=2094 14$CK=0.195 3$CL=0.0296 5$CM+=0.00879 13
158ER G 182.3 3 0.16 7[E2] 0.344 C
158ER cG $%I|g=0.10~{I5}
158ERS G KC=0.212 4$LC=0.1012 16$MC=0.0242 4
158ERS G NC=0.00550 9$OC=0.000673 11$PC=9.77E-6 15
158ER G 461.93 7 1.37 13E2 0.0202 C
158ER cG $%I|g=0.85~{I13}
158ERS G KC=0.01595 23$LC=0.00331 5$MC=0.000759 11
158ERS G NC=0.0001749 25$OC=2.35E-5 4$PC=8.76E-7 13
158ER cG $|a(K)exp=0.016~{I3} (1975Ag01)
158ER cG M Assignment from |a{-K}(exp) is E2(+M1), but J|p's require E2.
158ER G 796.85 15 1.83 15E0+E2+M1 0.113 17 C
158ERS G KC=0.093 15 $LC=0.015
158ER cG $%I|g=1.26~{I18}
158ER cG $|a(K)exp=0.100~{I15} (1975Ag01)
158ER cG CC Calculated from |a{-K}(exp).
158ER G 989.06 10 5.9 5E2 0.00344 C
158ER cG $%I|g=3.7~{I5}
158ERS G KC=0.00287 4$LC=0.000441 7$MC=9.81E-5 14
158ERS G NC=2.28E-5 4$OC=3.23E-6 5$PC=1.635E-7 23
158ER cG $|a(K)exp=0.0027~{I7} (1975Ag01)
158ER L 1043.41 63+ C
158ER E 3.6 6 1.1 2 6.89 8 4.7 8
158ERS E EAV=2069 14$CK=0.201 3$CL=0.0304 5$CM+=0.00902 14
158ER G 223.33 6 0.20 2[M1,E2] 0.24 7 C
158ER cG $%I|g=0.124~{I19}
158ERS G KC=0.18 7$LC=0.041 4$MC=0.0093 12
158ERS G NC=0.00215 25$OC=0.000287 12$PC=1.0E-5 5
158ER G 516.28 20 1.1 3E2,M1 0.024 9 C
158ER cG $%I|g=0.68~{I20}
158ERS G KC=0.020 8$LC=0.0031 8$MC=0.00070 17
158ERS G NC=0.00016 4$OC=2.3E-5 7$PC=1.2E-6 5
158ER cG $|a(K)exp=0.019~{I9} (1975Ag01)
158ER G 851.19 9 7.6 7E2(+M1) 1.2 GE 0.0056 10 C
158ER cG $%I|g=4.7~{I7}
158ERS G KC=0.0047 8$LC=0.00072 10$MC=0.000161 22
158ERS G NC=3.7E-5 5$OC=5.3E-6 8$PC=2.7E-7 5
158ER cG $|a(K)exp=0.0045~{I9} (1975Ag01)
158ER L 1183.79 6 4+ C
158ER E 1.0 2 0.87 14 9.03 7 1.9 3 1U
158ERS E EAV=1970 14$CK=0.381 5$CL=0.0589 7$CM+=0.01751 21
158ER G 363.75 7 0.43 4E2 0.0391 C
158ER cG $%I|g=0.27~{I4}
158ERS G KC=0.0298 5$LC=0.00723 11$MC=0.001674 24
158ERS G NC=0.000384 6$OC=5.04E-5 7$PC=1.584E-6 23
158ER cG $|a(K)exp=0.031~{I5} (1975Ag01)
158ER cG M Assignment from |a{-K}(exp) is E2(+M1), but J|p's require E2.
158ER G 656.57 7 2.76 25E2(+M1) 1.0 GE 0.0107 23 C
158ER cG $%I|g=1.71~{I25}
158ERS G KC=0.0089 20$LC=0.00143 23$MC=0.00032 5
158ERS G NC=7.4E-5 12$OC=1.05E-5 18$PC=5.1E-7 13
158ER cG $|a(K)exp=0.0092~{I20} (1975Ag01)
158ER L 1210.58 9 +
158ER E 0.54 8 0.19 3 7.64 7 0.73 11
158ERS E EAV=1991 14$CK=0.218 4$CL=0.0330 5$CM+=0.00979 15
158ER G 390.65 20 0.14 2
158ER cG $%I|g=0.087~{I16}
158ER G 1018.36 10 1.11 10E2,M1 0.0046 14 C
158ER cG $%I|g=0.69~{I10}
158ERS G KC=0.0039 12$LC=0.00056 15$MC=0.00012 4
158ERS G NC=2.9E-5 8$OC=4.1E-6 12$PC=2.3E-7 8
158ER L 1257.31 74+ B
158ER E 0.87 12 0.77 11 9.06 7 1.64 23 1U
158ERS E EAV=1936 14$CK=0.392 5$CL=0.0606 8$CM+=0.01803 22
158ER G 268.31 9 0.32 3(E2) 0.0974
158ER cG $%I|g=0.20~{I3}
158ERS G KC=0.0694 10$LC=0.0216 3$MC=0.00509 8
158ERS G NC=0.001164 17$OC=0.0001478 21$PC=3.49E-6 5
158ER cG $|a(K)exp<0.078 (1975Ag01)
158ER cG M Assignment from |a{-K}(exp) is E1,E2, but J|p's require E2.
158ER G 287.00 20 0.04 1[E2] 0.0791
158ER cG $%I|g=0.025~{I7}
158ERS G KC=0.0573 8$LC=0.01682 24$MC=0.00394 6
158ERS G NC=0.000902 13$OC=0.0001154 17$PC=2.92E-6 5
158ER G 729.8 5 E0(+M1+E2)
158ER cG RI Measured value is < 0.10; intensity balance at 527 level
158ER2cG requires < 0.03.
158ER cG $|a(K)exp>0.705 (1975Ag01)
158ER cG TI Equals I(ce)=0.080 {I9} if |g is pure E0.
158ER G 1065.07 8 2.50 20E2 0.00295 C
158ER cG $%I|g=1.55~{I22}
158ERS G KC=0.00248 4$LC=0.000374 6$MC=8.30E-5 12
158ERS G NC=1.93E-5 3$OC=2.74E-6 4$PC=1.411E-7 20
158ER cG $|a(K)exp=0.0029~{I8} (1975Ag01)
158ER cG M Assignment from |a{-K}(exp) is E2(+M1), but J|p's require E2.
158ER L 1304.96 17 2+,3,4+
158ER E 0.15 3 0.057 11 8.15 9 0.21 4
158ERS E EAV=1947 14$CK=0.228 4$CL=0.0346 6$CM+=0.01026 16
158ER G 484.85 25 0.12 2 C
158ER cG $%I|g=0.074~{I15}
158ER G 777.45 25 0.10 3
158ER cG $%I|g=0.062~{I20}
158ER G 1113.4 4 0.12 3 &
158ER cG $%I|g=0.074~{I21}
158ER L 1341.96 7 3-
158ER E 6.3 9 2.4 3 6.52 7 8.7 12
158ERS E EAV=1929 14$CK=0.232 4$CL=0.0353 6$CM+=0.01045 16
158ER G 352.30 20 0.07 3[E1] 0.01253 &
158ER cG $%I|g=0.043~{I20}
158ERS G KC=0.01059 15$LC=0.001514 22$MC=0.000334 5
158ERS G NC=7.72E-5 11$OC=1.090E-5 16$PC=5.55E-7 8
158ER G 814.75 8 1.86 15E1 0.00202 C
158ER cG $%I|g=1.15~{I16}
158ERS G KC=0.001722 25$LC=0.000234 4$MC=5.14E-5 8
158ERS G NC=1.195E-5 17$OC=1.718E-6 24$PC=9.39E-8 14
158ER cG $|a(K)exp<0.0023 (1975Ag01)
158ER G 1149.83 7 12.2 10E1 1.07E-3 C
158ER cG $%I|g=7.6~{I11}
158ERS G KC=0.000905 13$LC=0.0001213 17$MC=2.66E-5 4
158ERS G NC=6.17E-6 9$OC=8.92E-7 13$PC=4.97E-8 7$IPC=7.52E-6 11
158ER cG $|a(K)exp=0.00083~{I20} (1975Ag01)
158ER L 1386.9 5 0+ E ?
158ER E 0.008 4 0.008 4 11.00 22 0.016 8 1U
158ERS E EAV=1878 14$CK=0.412 5$CL=0.0638 8$CM+=0.01897 23
158ER G 580.5 5 0.05 LT E0 ?
158ER cG $%I|g=0.015~{I16}
158ER cG TI From I{-ce}(K)=0.023 {I4}, I(|g+ce)=0.026 {I5} if
158ER2cG transition is pure E0.
158ER cG $|a(K)exp>0.5 (1975Ag01)
158ER L 1417.57 62+
158ER E 0.85 14 0.35 6 7.35 8 1.2 2
158ERS E EAV=1894 14$CK=0.241 4$CL=0.0366 6$CM+=0.01086 17
158ER G 374.15 7 0.46 4 E2(+M1) 2. GT 0.040 4 C
158ER cG $%I|g=0.28~{I4}
158ERS G KC=0.031 4$LC=0.0068 3$MC=0.00157 6
158ERS G NC=0.000361 14$OC=4.81E-5 24$PC=1.71E-6 24
158ER cG $|a(K)exp=0.030~{I5} (1975Ag01)
158ER G 428.53 10 0.60 6E2(+M1) 1.5 GT 0.029 5 C
158ER cG $%I|g=0.37~{I6}
158ERS G KC=0.023 4$LC=0.0045 4$MC=0.00103 7
158ERS G NC=0.000239 17$OC=3.2E-5 3$PC=1.30E-6 25
158ER cG $|a(K)exp=0.023~{I4} (1975Ag01)
158ER G 597.12 20 0.15 3E0+M1,E2 0.20 8
158ERS G KC=0.16 6 $ LC=0.03
158ER cG $%I|g=0.11~{I3}
158ER cG $|a(K)exp=0.165~{I65} (1975Ag01)
158ER cG CC Calculated from |a{-K}(exp).
158ER G 611.19 8 0.42 5(E2) 0.00999 C
158ER cG $%I|g=0.26~{I5}
158ERS G KC=0.00811 12$LC=0.001461 21$MC=0.000330 5
158ERS G NC=7.64E-5 11$OC=1.051E-5 15$PC=4.55E-7 7
158ER cG $|a(K)exp<0.010 (1975Ag01)
158ER cG M Assigned E1,E2 from |a{-K}(exp), but J|p's require E2.
158ER G 890.65 25 0.43 11(E2) 0.00428 C
158ER cG $%I|g=0.27~{I8}
158ERS G KC=0.00356 5$LC=0.000561 8$MC=0.0001253 18
158ERS G NC=2.91E-5 4$OC=4.10E-6 6$PC=2.02E-7 3
158ER cG $|a(K)exp<0.007 (1975Ag01)
158ER cG M Assigned E1,E2 from |a{-K}(exp), but J|p's require E2.
158ER G 1225.90 8 2.20 18 & ?
158ER cG $%I|g=1.36~{I19}
158ER3 G FL=192.19
158ER cG $|a(K)exp<0.0018 (1975Ag01)
158ER L 1418.28 7(1-)
158ER E 1.9 3 0.78 12 6.99 7 2.7 4
158ERS E EAV=1894 14$CK=0.241 4$CL=0.0366 6$CM+=0.01086 17
158ER G 1225.90 8 2.20 18 &C
158ER cG $%I|g=1.36~{I19}
158ER G 1418.55 10 2.23 20[E1] 8.73E-4
158ER cG $%I|g=1.38~{I20}
158ERS G KC=0.000626 9$LC=8.33E-5 12$MC=1.82E-5 3
158ERS G NC=4.24E-6 6$OC=6.14E-7 9$PC=3.45E-8 5$IPC=0.0001406 20
158ER L 1426.82 25 2+,3,4+
158ER E 0.12 3 0.049 12 8.19 11 0.17 4
158ERS E EAV=1890 14$CK=0.242 4$CL=0.0368 6$CM+=0.01091 17
158ER G 900.0 4 0.10 2
158ER cG $%I|g=0.062~{I15}
158ER G 1234.4 3 0.17 4
158ER cG $%I|g=0.11~{I3}
158ER L 1438.18 10 5+
158ER G 395.12 20 0.11 2 (E2) 0.0309
158ER cG $%I|g=0.070~{I15}
158ER G 910.87 10 0.64 7 C
158ER cG $%I|g=0.40~{I7}
158ER L 1489.47 72+,3+
158ER E 0.77 10 0.33 4 7.36 6 1.10 14
158ERS E EAV=1861 14$CK=0.250 4$CL=0.0380 6$CM+=0.01125 18
158ER G 278.95 15 0.07 1 G
158ER cG $%I|g=0.043~{I8}
158ER G 305.82 8 0.11 2
158ER cG $%I|g=0.068~{I15}
158ER G 445.90 20 0.23 2(E2) 0.0222 C
158ER cG $%I|g=0.142~{I21}
158ERS G KC=0.01744 25$LC=0.00370 6$MC=0.000849 12
158ERS G NC=0.000196 3$OC=2.62E-5 4$PC=9.54E-7 14
158ER cG $|a(K)exp<0.018 (1975Ag01)
158ER cG M |a{-K}(exp) indicates E1,E2, but placement requires E2.
158ER G 500.40 10 0.69 7M1(+E2) 0.5 LT 0.0330 19
158ER cG $%I|g=0.43~{I7}
158ERS G KC=0.0277 17$LC=0.00408 18$MC=0.00090 4
158ERS G NC=0.000211 9$OC=3.04E-5 14$PC=1.67E-6 11
158ER cG $|a(K)exp=0.033~{I6} (1975Ag01)
158ER G 669.37 15 0.38 4 C
158ER cG $%I|g=0.24~{I4}
158ER G 961.68 15 0.26 3
158ER cG $%I|g=0.16~{I3}
158ER L 1526.29 6(2,3)-
158ER E 2.9 4 1.2 2 6.77 7 4.1 6
158ERS E EAV=1843 14$CK=0.254 4$CL=0.0387 6$CM+=0.01146 18
158ER G 482.85 25 0.14 2
158ER cG $%I|g=0.087~{I16}
158ER G 706.05 10 1.20 11E1 0.00269 C
158ER cG $%I|g=0.74~{I11}
158ERS G KC=0.00229 4$LC=0.000314 5$MC=6.89E-5 10
158ERS G NC=1.599E-5 23$OC=2.29E-6 4$PC=1.242E-7 18
158ER cG $|a(K)exp<0.0031 (1975Ag01)
158ER G 999.32 10 0.59 9 C
158ER cG $%I|g=0.37~{I7}
158ER G 1334.03 10 5.3 5(E1) 9.01E-4 C
158ER cG $%I|g=3.3~{I5}
158ERS G KC=0.000696 10$LC=9.28E-5 13$MC=2.03E-5 3
158ERS G NC=4.72E-6 7$OC=6.83E-7 10$PC=3.83E-8 6$IPC=8.61E-5 12
158ER cG $|a(K)exp<0.016 (1975Ag01)
158ER G 1526.05 15 0.36 5
158ER cG $%I|g=0.22~{I4}
158ER L 1570.22 8(2+) E
158ER E 1.03 14 0.47 6 7.19 6 1.50 20
158ERS E EAV=1823 14$CK=0.260 4$CL=0.0395 6$CM+=0.01172 18
158ER G 763.90 15 0.13 2 C
158ER cG $%I|g=0.081~{I16}
158ER G 1043.05 10 1.30 13(E2) 0.00308 C
158ER cG $%I|g=0.81~{I12}
158ERS G KC=0.00258 4$LC=0.000391 6$MC=8.69E-5 13
158ERS G NC=2.02E-5 3$OC=2.87E-6 4$PC=1.470E-7 21
158ER cG $|a(K)exp<0.003 (1975Ag01)
158ER cG M Assigned E1,E2 from |a{-K}(exp), but J|p's require E2.
158ER G 1377.58 15 0.42 5
158ER cG $%I|g=0.26~{I5}
158ER G 1570.45 15 0.57 9
158ER cG $%I|g=0.35~{I7}
158ER L 1614.48 10(2-) A
158ER E 0.41 6 0.19 3 7.57 7 0.60 9
158ERS E EAV=1802 14$CK=0.266 4$CL=0.0404 7$CM+=0.01199 19
158ER G 430.7 3 0.08 3
158ER cG $%I|g=0.050~{I20}
158ER G 571.20 10 0.35 4(E1) 0.00418 C
158ER cG $%I|g=0.22~{I4}
158ERS G KC=0.00355 5$LC=0.000493 7$MC=0.0001083 16
158ERS G NC=2.51E-5 4$OC=3.59E-6 5$PC=1.91E-7 3
158ER cG $|a(K)exp<0.0085 (1975Ag01)
158ER G 794.00 15 0.45 5
158ER cG $%I|g=0.28~{I5}
158ER G 1615.1 7 0.09 5
158ER cG $%I|g=0.06~{I4}
158ER L 1630.22 20 (1,2+) ?
158ER E 0.19 5 0.090 23 7.90 11 0.28 7
158ERS E EAV=1795 14$CK=0.268 4$CL=0.0408 7$CM+=0.01208 19
158ER G 1438.0 3 0.30 9 ?
158ER cG $%I|g=0.19~{I6}
158ER G 1630.25 25 0.15 4 ?
158ER cG $%I|g=0.09~{I3}
158ER L 1640.87 12 (2+)
158ER E 0.47 7 0.22 4 7.50 7 0.69 11
158ERS E EAV=1790 14$CK=0.269 4$CL=0.0410 7$CM+=0.01215 19
158ER G 834.40 20 0.18 4
158ER cG $%I|g=0.11~{I3}
158ER G 1113.4 4 0.12 3 &
158ER cG $%I|g=0.074~{I21}
158ER G 1448.80 15 0.48 8
158ER cG $%I|g=0.30~{I6}
158ER G 1640.6 3 0.34 5
158ER cG $%I|g=0.21~{I4}
158ER L 1674.03 8 (2+,3)
158ER E 0.51 7 0.25 4 7.44 7 0.76 11
158ERS E EAV=1775 14$CK=0.274 5$CL=0.0417 7$CM+=0.01235 19
158ER G 256.50 10 0.06 1
158ER cG $%I|g=0.037~{I8}
158ER G 416.88 20 0.12 2 &
158ER cG $%I|g=0.074~{I15}
158ER G 684.85 10 0.54 5 C
158ER cG $%I|g=0.33~{I5}
158ER cG $|a(K)exp<0.0064 (1975Ag01)
158ER cG M |a{-K}(exp) is consistent with E1 or E2.
158ER G 853.90 20 0.50 8
158ER cG $%I|g=0.31~{I6}
158ER L 1687.02 14 (1,2+)
158ER E 0.52 7 0.26 4 7.43 7 0.78 11
158ERS E EAV=1769 14$CK=0.276 5$CL=0.0419 7$CM+=0.01243 19
158ER G 1494.80 15 1.00 10
158ER cG $%I|g=0.62~{I10}
158ER G 1687.1 3 0.26 4
158ER cG $%I|g=0.16~{I3}
158ER L 1697.97 12 (1-,2,3)
158ER E 0.59 8 0.30 4 7.37 6 0.89 12
158ERS E EAV=1764 14$CK=0.277 5$CL=0.0422 7$CM+=0.01250 20
158ER G 172.0 3 0.12 3 [D,E2] 0.419 7
158ER cG $|a value given for E2; 0.0772~{I12} if E1, 0.612~{I9} if M1
158ER cG $%I|g=0.074~{I21}
158ER G 356.10 20 0.11 3
158ER cG $%I|g=0.068~{I20}
158ER G 1505.65 15 0.90 9 C
158ER cG $%I|g=0.56~{I9}
158ER L 1700.12 11
158ER E 0.47 7 0.24 4 7.46 7 0.71 11
158ERS E EAV=1763 14$CK=0.277 5$CL=0.0422 7$CM+=0.01252 20
158ER G 1172.90 10 1.15 10 C
158ER cG $%I|g=0.71~{I10}
158ER L 1742.63 9 (2,3,4)
158ER E 1.7 3 0.85 14 6.90 7 2.5 4
158ERS E EAV=1743 14$CK=0.283 5$CL=0.0431 7$CM+=0.01279 20
158ER G 698.9 3 0.10 3
158ER cG $%I|g=0.062~{I20}
158ER G 922.50 20 0.30 4
158ER cG $%I|g=0.19~{I4}
158ER G 1215.32 15 1.04 11 C
158ER cG $%I|g=0.64~{I10}
158ER G 1550.50 10 2.58 23 C
158ER cG $%I|g=1.60~{I23}
158ER L 1769.63 13
158ER E 0.87 16 0.46 8 7.16 8 1.33 24
158ERS E EAV=1730 14$CK=0.287 5$CL=0.0437 7$CM+=0.01297 20
158ER G 352.30 20 0.07 3 &
158ER cG $%I|g=0.043~{I20}
158ER G 780.7 3 0.12 3
158ER cG $%I|g=0.074~{I21}
158ER G 948.9 5 0.55 20 C
158ER cG $%I|g=0.34~{I13}
158ER G 1577.20 20 1.40 20 C
158ER cG $%I|g=0.87~{I16}
158ER L 1809.09 20 (2+,3,4+)
158ER E 0.19 5 0.11 2 7.79 11 0.30 7
158ERS E EAV=1712 14$CK=0.293 5$CL=0.0446 7$CM+=0.01323 21
158ER G 1282.00 25 0.16 3
158ER cG $%I|g=0.099~{I22}
158ER G 1616.7 3 0.32 8 C
158ER cG $%I|g=0.20~{I6}
158ER L 1834.65 13
158ER E 0.29 5 0.16 3 7.61 8 0.45 8
158ERS E EAV=1700 14$CK=0.297 5$CL=0.0452 7$CM+=0.01340 21
158ER G 416.88 20 0.12 2 &
158ER cG $%I|g=0.074~{I15}
158ER G 1307.53 15 0.60 9 C
158ER cG $%I|g=0.37~{I7}
158ER L 1977.46 19 (1,2+) ?
158ER E 0.15 3 0.096 19 7.81 9 0.25 5
158ERS E EAV=1634 14$CK=0.319 5$CL=0.0486 8$CM+=0.01441 23
158ER G 1785.30 20 0.23 5 ?
158ER cG $%I|g=0.14~{I4}
158ER G 1977.4 4 0.18 4 ?
158ER cG $%I|g=0.11~{I3}
158ER L 2029.25 11
158ER E 0.49 7 0.32 5 7.27 7 0.81 12
158ERS E EAV=1610 14$CK=0.327 5$CL=0.0499 8$CM+=0.01479 23
158ER G 1502.02 10 1.30 12 C
158ER cG $%I|g=0.81~{I12}
158ER L 2059.71 12 (1,2+)
158ER E 0.37 6 0.24 4 7.38 8 0.61 10
158ERS E EAV=1596 14$CK=0.332 5$CL=0.0507 8$CM+=0.01502 23
158ER G 1239.80 20 0.32 5 &
158ER cG $%I|g=0.20~{I4}
158ER G 1253.65 25 0.19 8
158ER cG $%I|g=0.12~{I6}
158ER G 1867.25 15 0.48 5 &C
158ER cG $%I|g=0.30~{I5}
158ER L 2143.59 17 (1,2+) ?
158ER E 0.24 4 0.17 3 7.52 8 0.41 7
158ERS E EAV=1557 14$CK=0.347 6$CL=0.0529 8$CM+=0.01568 24
158ER G 1951.7 3 0.26 5 ?
158ER cG $%I|g=0.16~{I4}
158ER G 2143.45 20 0.40 5 ?
158ER cG $%I|g=0.25~{I5}
158ER L 2228.77 11 (2+,3+)
158ER E 0.50 8 0.38 6 7.15 7 0.88 14
158ERS E EAV=1518 14$CK=0.362 6$CL=0.0552 9$CM+=0.01637 25
158ER G 702.40 15 0.50 10(E1) 0.00272 C
158ER cG $%I|g=0.31~{I7}
158ERS G KC=0.00231 4$LC=0.000317 5$MC=6.96E-5 10
158ERS G NC=1.616E-5 23$OC=2.32E-6 4$PC=1.255E-7 18
158ER G 971.6 3 0.13 4
158ER cG $%I|g=0.08~{I3}
158ER G 1239.80 20 0.32 5 &
158ER cG $%I|g=0.20~{I4}
158ER G 1701.1 4 0.12 4
158ER cG $%I|g=0.07~{I3}
158ER G 2036.7 3 0.34 6 C
158ER cG $%I|g=0.21~{I5}
158ER L 2305.18 15 (2+,3,4+) ?
158ER E 0.27 4 0.23 3 7.37 7 0.50 7
158ERS E EAV=1483 14$CK=0.376 6$CL=0.0573 9$CM+=0.0170 3
158ER G 1777.87 15 0.46 5 ?
158ER cG $%I|g=0.28~{I5}
158ER G 2113.3 3 0.34 5 ?
158ER cG $%I|g=0.21~{I4}
158ER L 2368.35 20 (1,2+) ?
158ER E 0.25 4 0.22 4 7.37 8 0.47 8
158ERS E EAV=1454 14$CK=0.388 6$CL=0.0592 9$CM+=0.0176 3
158ER G 2176.25 25 0.45 6 ?
158ER cG $%I|g=0.28~{I5}
158ER G 2368.2 3 0.30 5 ?
158ER cG $%I|g=0.19~{I4}
158ER L 2389.6 3 (1,2+) ?
158ER E 0.11 3 0.094 24 7.73 11 0.20 5
158ERS E EAV=1444 14$CK=0.392 6$CL=0.0598 9$CM+=0.0177 3
158ER G 2197.4 3 0.23 4 & ?
158ER cG $%I|g=0.14~{I3}
158ER G 2389.6 5 0.10 4 ?
158ER cG $%I|g=0.06~{I3}
158ER L 2673.69 16 (1,2+) ?
158ER E 0.25 5 0.30 5 7.17 8 0.55 10
158ERS E EAV=1314 14$CK=0.450 7$CL=0.0687 10$CM+=0.0204 3
158ER G 1867.25 15 0.48 5 & ?
158ER cG $%I|g=0.30~{I5}
158ER G 2480.5 15 0.23 8 ?
158ER cG $%I|g=0.14~{I6}
158ER G 2673 2 0.18 6 ?
158ER cG $%I|g=0.11~{I4}
158ER L 3017.72 16 (1,2+) ?
158ER E 0.17 3 0.29 5 7.10 8 0.46 8
158ERS E EAV=1157 14$CK=0.526 7$CL=0.0806 11$CM+=0.0239 4
158ER G 788.5 3 0.15 3 ?
158ER cG $%I|g=0.093~{I22}
158ER G 1275.38 20 0.18 4 ?
158ER cG $%I|g=0.11~{I3}
158ER G 2197.4 3 0.23 4 & ?
158ER cG $%I|g=0.14~{I3}
158ER G 2826 4 0.09 5 ?
158ER cG $%I|g=0.06~{I4}
158ER G 3017 4 0.09 3 ?
158ER cG $%I|g=0.056~{I20}