123I 123XE EC DECAY 1971ST08,1971HO02 21NDS 202105
123I H TYP=FUL$AUT=Jun Chen$CIT=NDS 174, 1 (2021)$CUT=15-Apr-2021$
123I DG CC$FROM BrIcc v2.3a (10-Sep-2014) 2008Ki07, "Frozen Orbitals" appr.
123I c 1971St08: source of {+123}Xe was produced from Ce(p,5pxn) with E=600
123I 2c MeV proton beam from the synchro-cyclotron at the ISOLDE facility at
123I 3c CERN and separated by an on-line mass separator. |g rays were detected
123I 4c with Ge(Li) detectors and a Si(Li) detector for E<50 keV; conversion
123I 5c electrons were detected with a Si(Li) detector and a double-focusing
123I 6c magnetic spectrometer for low-energy part of the electron spectrum.
123I 7c Measured E|g, I|g, E(ce), I(ce), |g|g-coin, |g-ce-coin. Deduced levels,
123I 8c J, |p, |e-decay branching ratios, log {Ift}, |g-ray conversion
123I 9c coefficients, multipolarities. Comparisons with available data.
123I Ac Systematics of neighboring I isotopes.
123I c 1971Ho02: {+123}Xe source was produced at the ISOLDE facility at CERN.
123I 2c |g rays were detected with a plastic scintillation detector and
123I 3c conversion electrons were detected with an electron-electron
123I 4c coincidence |b-spectrometer. Measured |g-ce(t). Deduced T{-1/2},
123I 5c transition strengths. Systematics of neighboring I isotopes.
123I c 1981Bo25: source of {+123}Xe was produced at JINR. Conversion
123I 2c electrons were detected with a |b-spectrometer (FWHM|?2.5 keV) with a
123I 3c Si(Li) detector. Measured E(ce), I(ce). Deduced levels, J, |p,
123I 4c |g-ray conversion coefficients, multipolarities.
123I c 1968Gf01: {+123}Xe source was produced via {+122}Te(|a,3n) with |a
123I 2c beam from the Gottinger Synchro-cyclotron. |g rays were detected with
123I 3c Ge(Li) and NaI(Tl) detectors and conversion electrons were detected
123I 4c with a Si(Li) detector. Measured E|g, I|g, E(ce), I(ce), |g|g-coin.
123I 5c Deduced levels, J, |p, |e-decay branching ratios, log {Ift}, |g-ray
123I 6c conversion coefficients, multipolarities. E|g and I|g values with no
123I 7c uncertainties of 57 |g transitions are reported
123I c 1970Sc21: measured |g|g(t) at CERN. Deduced T{-1/2} of 149 level.
123I c Others: 2021Ze01, 1982BeYR, 1974Jo16, 1971ShZY, 1971Ch43, 1970Sc21,
123I 2c 1969Bu07, 1969ChZK, 1967DaZY, 1965An05
123I c The decay scheme is that proposed by 1971St08.
123I cE TI$Deduced by the evaluator from |g+ce intensity imbalance at each
123I 2cE level
123I cG E,RI$From 1971St08, unless otherwise noted.
123I cG RI(A)$From |g|g-coin. Uncertainty assigned by evaluators.
123I 2cG I|g=1.15 {I20} for the doubly-placed 1241|g (1971St08).
123I cG M$From Adopted Gammas, supported by ce data given in comments from
123I 2cG this study. Conversion coefficients from 1971St08 are obtained by
123I 3cG assuming Mult=E2 for 148.9|g (|a(K)theo=0.325 quoted in 1971St08), for
123I 4cG which |a(K)exp=0.32 {I2} is also determined by 1971St08 with a separate
123I 5cG measurement of |g-ce coincidence. Conversion coefficients from 1981Bo25
123I 6cG are obtained using I(ce) values from their work and I|g values from
123I 7cG 1971St08 and are normalized to |a(K)exp=0.32 {I2} from 1971St08 for
123I 8cG 148.9|g. Assignments for unplaced transitions are from ce data in
123I 9cG 1981Bo25.
123I cL E$From a least-squares fit to |g-ray energies.
123I cL J$From Adopted Levels.
123I cL T$From |g|g(t) and |g-ce(t) in this study for excited states. Values
123I 2cL are adopted in Adopted Levels.
123XE P 0.0 1/2(+) 2.050 H 14 2694 10
123XE cP J,T$From Adopted Levels of {+123}Xe
123XE cP QP$From 2021Wa16
123I N 0.491 6 1.00
123I cN NR$From |SI(|g+ce to g.s.)=100
123I PN 3
123I G 728.3 2 0.25 3
123I 2 G %IG=0.123 15
123I cG E,RI$other: E|g=727.3, I|g=0.30 (1968Gf01)
123I cG $|a(K)exp=0.010 {I8}, I(ceK)=0.008 {I6} (1981Bo25)
123I G 943.5 3 0.10 2
123I 2 G %IG=0.049 10
123I G 1264.7 4 0.06 1
123I 2 G %IG=0.029 5
123I G 1296.3 3 0.06 1
123I 2 G %IG=0.029 5
123I G 1334.3 3 0.05 1
123I 2 G %IG=0.025 5
123I G 2280.8 5 0.015 4
123I 2 G %IG=0.0074 20
123I G 2419.6 5 0.010 3
123I 2 G %IG=0.0049 15
123I L 0.0 5/2+ 13.2230 H 19
123I cL T$From Adopted Levels.
123I L 138.07 157/2+
123I G 138.1 2 0.50 5 M1+E2 -0.15 5 0.307 7 C
123I 2 G %IG=0.245 25
123I S G KC=0.263 5$LC=0.0355 14$MC=0.0072 3
123I S G NC=0.00145 6$OC=0.000167 6
123I cG M$|a(K)exp=0.26 {I4}, |a(L)exp=0.041 {I7} (1971St08)
123I cG MR$from Adopted Gammas. Other: 0.30 {I+15-30} from ce data in 1971St08
123I cG CC$Calculated with |d=-0.15 {I5} from {+120}Sn({+6}Li,3n|g)
123I L 148.91 101/2+ 2.35 NS 3
123I cL T$weighted average of 2.34 ns {I3} from (|b{++})(ce of 148.9|g)(t)
123I 2cL (1971Ch43); 2.44 ns {I9} from (|g{+|+})(148.9|g)(t),
123I 3cL (899|g)(148.9|g)(t) (1970Sc21); 2.35 ns {I8} from (600-800|g)(ce of
123I 4cL 148.9|g)(t) (1971Ho02)
123I E 18.0 4 43.6 7 5.60 1 61.6 9
123I S E EAV=682.4 45$CK=0.606 4$CL=0.0806 5$CM+=0.02155 14
123I G 148.9 2 100 E2 0.431 C
123I 2 G %IG=49.1 6
123I B G BE2W=63.1 11
123I S G KC=0.329 5$LC=0.0818 13$MC=0.0171 3
123I S G NC=0.00333 5$OC=0.000328 5
123I cG E$other: 148.7 (1968Gf01)
123I cG RI$%I|g=48.0 {I10} from direct measurement in 1974Jo16
123I cG M$|a(K)exp=0.32 {I2}, |a(L)exp=0.080 {I10}, |a(M)exp=0.021 {I5}
123I 2cG (1971St08), |a(M)exp=0.0175 {I15} (1981Bo25), |a(K)exp=0.294,
123I 3cG |a(L+M)(exp)=0.096 (1968Gf01)
123I cG $I(ceK)=100.0 {I34}, I(ceM)=5.46 {I30} (1981Bo25)
123I L 178.00 10 3/2+ 0.36 NS 2
123I cL T$from (600-800|g)(ce(L) of 178.1|g)(t) (1971Ho02)
123I E 3.9 3 10.2 7 6.22 3 14.1 9
123I S E EAV=669.4 45$CK=0.616 4$CL=0.0820 5$CM+=0.02194 14
123I G 39.9 3 0.006 2 (E2) 51.3 17
123I 2 G %IG=0.0029 10
123I B G BE2W=71 25
123I S G KC=11.30 18$LC=31.8 13$MC=6.8 3
123I S G NC=1.29 6$OC=0.112 5
123I cG E$from energies of conversion electrons (1971St08)
123I cG RI$deduced from I(ceL) and I(ceM) and assumption that mult=E2
123I 2cG (1971St08).
123I cG M$L/M=3.5 {I15} gives M1 or E2 (1971St08). |DJ=2 from the decay scheme,
123I G 178.1 2 30.5 15M1(+E2) 0.2 LT 0.151 3 C
123I 2 G %IG=15.0 7
123I B G BM1W=0.0046 5$BE2W=103 10
123I S G KC=0.1299 22$LC=0.0171 5$MC=0.00345 11
123I S G NC=0.000697 21$OC=8.13E-5 20
123I cG E,RI$other: E|g=178.0, I|g=32.2 (1968Gf01)
123I cG M$|a(K)exp=0.145 {I20}, |a(L)=0.017 {I3}, |a(M)=0.004 {I1} (1971St08),
123I 2cG |a(L)exp=0.0175 {I19}, |a(M)exp=0.0038 {I7} (1981Bo25), |a(K)exp=0.137,
123I 3cG |a(L+M)exp=0.03 (1968Gf01)
123I cG MR$Deduced by the evaluator from ce data using BrIccMixing, adopted in
123I 2cG Adopted Gammas.
123I cG $I(ceL)=1.70 {I5}, I(ceM)=0.365 {I22} (1981Bo25)
123I L 330.26 10 3/2+ 42 PS 13
123I cL T$From (600-800|g)(ce(K) of 330.2|g)(t) (1971Ho02)
123I E 1.1 1 4.0 5 6.57 6 5.1 6
123I S E EAV=601.3 45$CK=0.672 4$CL=0.0895 5$CM+=0.02395 13
123I G 192.3 3 0.17 3 [E2] 0.178 C
123I 2 G %IG=0.083 15
123I B G BE2W=13 5
123I S G KC=0.1411 21$LC=0.0292 5$MC=0.00606 10
123I S G NC=0.001187 19$OC=0.0001209 19
123I G 330.2 2 17.5 10(M1) 0.0291 C
123I 2 G %IG=8.6 5
123I B G BM1W=0.0070 23$BE2W=45 15
123I S G KC=0.0251 4$LC=0.00319 5$MC=0.000641 9
123I S G NC=0.0001299 19$OC=1.528E-5 22
123I cG E,RI$other: E|g=330.3, I|g=17.2 (1968Gf01)
123I cG M$M1,E2 from |a(K)exp=0.029 {I5}, |a(L)exp=0.004 {I1} (1971St08),
123I 2cG |a(K)exp=0.027 {I4}, |a(L)exp=0.0032 {I6}, |a(M)exp=0.00070 {I12}
123I 3cG (1981Bo25), |a(K)exp=0.032, |a(L+M)exp=0.003 (1968Gf01); |DJ=(1) from
123I 4cG level scheme
123I cG $I(ceK)=1.50 {I5}, I(ceL)=0.174 {I10}, I(ceM)=0.039 {I6} (1981Bo25)
123I L 1011.04 14(3/2)+
123I E 0.015 2 0.63 6 7.07 5 0.64 6
123I S E EAV=301.6 44$CK=0.8347 11$CL=0.11234 17$CM+=0.03010 5
123I G 680.5 2 0.41 3 M1 0.00485 C
123I 2 G %IG=0.201 15
123I S G KC=0.00420 6$LC=0.000521 8$MC=0.0001044 15
123I S G NC=2.12E-5 3$OC=2.50E-6 4
123I cG E,RI$other: E|g=679.6, I|g=0.31 (1968Gf01)
123I cG M$|a(K)exp=0.0061 {I23} (1981Bo25)
123I cG $I(ceK)=0.0079 {I29} (1981Bo25)
123I G 833.3 3 0.08 1
123I 2 G %IG=0.039 5
123I cG E,RI$other: E|g=832.8, I|g=0.14 (1968Gf01)
123I G 862.2 3 0.07 1
123I 2 G %IG=0.034 5
123I G 1011.3 5 0.90 10
123I 2 G %IG=0.44 5
123I cG E,RI$other: E|g=1010.5, I|g=1.44 (1968Gf01)
123I L 1048.68 131/2+
123I E 0.050 6 2.7 3 6.43 5 2.7 3
123I S E EAV=285.2 44$CK=0.8383 10$CL=0.11292 15$CM+=0.03025 4
123I G 718.5 2 0.35 3 (M1) 0.00427 C
123I 2 G %IG=0.172 15
123I S G KC=0.00370 6$LC=0.000457 7$MC=9.16E-5 13
123I S G NC=1.86E-5 3$OC=2.19E-6 3
123I cG E,RI$other: E|g=718.0, I|g=0.43 (1968Gf01)
123I cG M$D,E2 from |a(K)exp=0.0045 {I35} (1981Bo25); (M1) required from level
123I 2cG scheme
123I cG $I(ceK)=0.005 {I4} (1981Bo25)
123I G 870.7 3 0.58 7 M1(+E2) 0.0024 4 C
123I 2 G %IG=0.28 4
123I S G KC=0.0021 3$LC=0.00026 3$MC=5.2E-5 6
123I S G NC=1.06E-5 12$OC=1.24E-6 16
123I cG E,RI$other: E|g=870.3, I|g=0.60 (1968Gf01)
123I cG M$|a(K)exp=0.0040 {I19} (1981Bo25)
123I cG $I(ceK)=0.0073 {I32} (1981Bo25)
123I G 899.6 4 5.0 5 M1 0.00252 C
123I 2 G %IG=2.45 24
123I S G KC=0.00219 3$LC=0.000269 4$MC=5.38E-5 8
123I S G NC=1.092E-5 16$OC=1.290E-6 19
123I cG E,RI$other: E|g=898.9, I|g=5.16 (1968Gf01)
123I cG M$|a(K)exp=0.0026 {I4},|a(L)exp=0.00045 {I18} (1981Bo25)
123I cG $I(ceK)=0.0403 {I23}, I(ceL)=0.0072 {I22} (1981Bo25)
123I G 1048.9 3 0.28 3
123I 2 G %IG=0.137 15
123I cG E,RI$other: E|g=1048.0, I|g=0.35 (1968Gf01)
123I L 1113.09 13 (1/2,3/2)+
123I E 0.035 3 2.78 17 6.37 3 2.81 17
123I S E EAV=257.2 44$CK=0.8434 7$CL=0.11377 12$CM+=0.03049 4
123I G 782.9 2 0.91 9 M1,E2 0.0031 4 C
123I 2 G %IG=0.45 5
123I S G KC=0.0027 4$LC=0.00034 4$MC=6.8E-5 7
123I S G NC=1.37E-5 15$OC=1.60E-6 20
123I cG E,RI$other: E|g=782.6, I|g=1.30 (1968Gf01)
123I cG M$|a(K)exp=0.0029 {I7} (1981Bo25)
123I cG $I(ceK)=0.0082 {I14} (1981Bo25)
123I G 934.9 3 0.64 7 M1,E2 0.0020 3 C
123I 2 G %IG=0.31 4
123I S G KC=0.00177 24$LC=0.00022 3$MC=4.4E-5 5
123I S G NC=9.0E-6 11$OC=1.05E-6 13
123I cG E,RI$other: E|g=934.5, I|g=0.82 (1968Gf01)
123I cG M$|a(K)exp=0.0032 {I18} (1981Bo25)
123I cG $I(ceK)=0.0064 {I16} (1981Bo25)
123I G 964.0 3 1.10 10M1,E2 0.0019125 C
123I 2 G %IG=0.54 5
123I S G KC=0.00165 22$LC=0.000206 24$MC=4.1E-5 5
123I S G NC=8.3E-6 10$OC=9.8E-7 12
123I cG E,RI$other: E|g=963.1, I|g=1.28 (1968Gf01)
123I cG M$|a(K)exp=0.0019 {I5} (1981Bo25)
123I cG $I(ceK)=0.0066 {I14} (1981Bo25)
123I G 1113.1 3 3.2 3 E2(+M1) 0.0013917
123I 2 G %IG=1.57 15
123I S G KC=0.00120 15$LC=0.000148 17$MC=3.0E-5 4
123I S G NC=6.0E-6 7$OC=7.1E-7 9$IPC=6.6E-7 4
123I cG E,RI$other: E|g=1112.0, I|g=2.84 (1968Gf01)
123I cG M$|a(K)exp=0.00112{I17} (1981Bo25)
123I cG $I(ceK)=0.0113 {I11} (1981Bo25)
123I L 1153.4 3 (3/2)+ ?
123I E 0.0012820 0.136 19 7.66 6 0.137 19 ?
123I S E EAV=239.6 44$CK=0.8459 6$CL=0.1142 1$CM+=0.03061 3
123I G 823.5 3 0.03 1 ?
123I 2 G %IG=0.015 5
123I G 973.8 0.12 ?
123I 2 G %IG=0.0589 7
123I cG E,RI$from 1968Gf01 only
123I G 1004.2 3 0.15 2 ?
123I 2 G %IG=0.074 10
123I cG E,RI$other: E|g=1003.2, I|g=0.21 (1968Gf01)
123I G 1153.8 3 0.20 2 ?
123I 2 G %IG=0.098 10
123I cG E,RI$other: E|g=1152.5, I|g=0.22 (1968Gf01)
123I L 1189.93 18(1/2+,3/2,5/2+) ?
123I E 0.0012114 0.171 13 7.54 4 0.172 13 ?
123I S E EAV=223.7 44$CK=0.8477 5$CL=0.1146 1$CM+=0.03071 3
123I G 859.7 3 0.09 1 ?
123I 2 G %IG=0.044 5
123I cG E,RI$other: E|g=859.9, I|g=0.15 (1968Gf01)
123I G 1041.0 3 0.15 2 ?
123I 2 G %IG=0.074 10
123I G 1189.9 3 0.11 1 ?
123I 2 G %IG=0.054 5
123I L 1242.35161/2+
123I E 0.016 2 3.5 3 6.20 4 3.5 3
123I S E EAV=200.9 44$CK=0.8497 4$CL=0.11499 8$CM+=0.03083 3
123I G 912.0 4 0.17 2 M1 0.00244 C
123I 2 G %IG=0.083 10
123I S G KC=0.00212 3$LC=0.000260 4$MC=5.21E-5 8
123I S G NC=1.057E-5 15$OC=1.250E-6 18
123I cG M$|a(K)exp=0.0034 {I13} (1981Bo25)
123I cG $I(ceK)=0.0018 {I7} (1981Bo25)
123I G 1064.3 4 1.35 15M1,E2 0.0015320 C
123I 2 G %IG=0.66 8
123I S G KC=0.00132 17$LC=0.000164 19$MC=3.3E-5 4
123I S G NC=6.7E-6 8$OC=7.8E-7 10
123I cG M$|a(K)exp=0.0015 {I4} (1981Bo25)
123I cG $I(ceK)=0.0064 {I13} (1981Bo25)
123I G 1093.4 3 5.7 5 (M1) 0.00162 C
123I 2 G %IG=2.80 24
123I S G KC=0.001403 20$LC=0.0001714 24$MC=3.43E-5 5
123I S G NC=6.96E-6 10$OC=8.23E-7 12
123I cG E,RI$other: E|g=1092.6, I|g=5.23 (1968Gf01)
123I cG M$M1,E2 from |a(K)exp=0.00122 {I21} (1981Bo25); M1 from level scheme
123I cG $I(ceK)=0.0217 {I27} (1981Bo25)
123I G 1242.0 4 0.23 20 @
123I 2 G %IG=0.11 10
123I F G FLAG=A
123I L 1310.0914(3/2)+
123I E 0.0012 2 0.52 4 6.98 4 0.52 4
123I S E EAV=171.2 44$CK=0.8514 2$CL=0.11544 6$CM+=0.03096 2
123I G 979.4 3 0.58 7 M1(+E2) 0.0018424 C
123I 2 G %IG=0.28 4
123I S G KC=0.00159 21$LC=0.000198 23$MC=4.0E-5 5
123I S G NC=8.0E-6 10$OC=9.4E-7 12
123I cG E,RI$other: E|g=977.8, I|g=0.78 (1968Gf01)
123I cG M$|a(K)exp=0.0020 {I5} (1981Bo25)
123I cG $I(ceK)=0.0037 {I7} (1981Bo25)
123I G 1132.2 3 0.12 1 C
123I 2 G %IG=0.059 5
123I G 1161.3 3 0.21 2
123I 2 G %IG=0.103 10
123I cG E,RI$other: E|g=1159.7, I|g=0.18 (1968Gf01)
123I G 1310.3 3 0.27 2
123I 2 G %IG=0.133 10
123I cG E,RI$other: E|g=1308.1, I|g=0.26 (1968Gf01)
123I L 1390.80 14(1/2,3/2)+
123I E 1.20 15 6.57 6 1.20 15
123I S E CK=0.8523$CL=0.11586 5$CM+=0.03108 2
123I G 1060.7 4 1.60 20M1 1.73E-3 C
123I 2 G %IG=0.79 10
123I S G KC=0.001503 21$LC=0.000184 3$MC=3.68E-5 6
123I S G NC=7.46E-6 11$OC=8.82E-7 13
123I cG E,RI$other: E|g=1060.7, I|g=2.88 (1968Gf01)
123I cG M$|a(K)exp=0.0020 {I5} (1981Bo25)
123I cG $I(ceK)=0.0099 {I20} (1981Bo25)
123I G 1242.0 4 0.92 20 @C
123I 2 G %IG=0.45 10
123I F G FLAG=A
123I cG E,RI$other: E|g=1240.6, I|g=0.98 (1968Gf01)
123I G 1390.9 3 0.24 2
123I 2 G %IG=0.118 10
123I cG E,RI$other: E|g=1390.3, I|g=0.16 (1968Gf01)
123I L 1657.11 20(3/2)+ ?
123I E 0.191 16 7.16 4 0.191 16 ?
123I S E CK=0.8515$CL=0.11708 6$CM+=0.03146 2
123I G 1326.8 3 0.020 5 ?
123I 2 G %IG=0.0098 25
123I G 1508.4 3 0.10 1 ?
123I 2 G %IG=0.049 5
123I G 1656.8 4 0.27 3 ?
123I 2 G %IG=0.133 15
123I cG E,RI$other: E|g=1655.4, I|g=0.15 (1968Gf01)
123I L 1864.88131/2+
123I E 1.38 9 6.10 3 1.38 9
123I S E CK=0.8496 2$CL=0.11848 9$CM+=0.03190 3
123I G 474.2 2 0.21 3 M1,E2 0.0108 9
123I 2 G %IG=0.103 15
123I S G KC=0.0093 9$LC=0.00124 3$MC=0.000250 6
123I S G NC=5.04E-5 13$OC=5.8E-6 3
123I cG E,RI$other: E|g=474.9, I|g=0.22 (1968Gf01)
123I cG M$|a(K)exp=0.0114 {I30} (1981Bo25)
123I cG $I(ceK)=0.0075 {I16} (1981Bo25)
123I G 816.3 3 0.15 2 (M1)
123I 2 G %IG=0.074 10
123I cG M$M1,Q from |a(K)exp=0.013 {I11} (1981Bo25); M1 from level scheme
123I cG $I(ceK)=0.006 {I5} (1981Bo25)
123I G 853.5 3 0.06 1
123I 2 G %IG=0.029 5
123I G 1534.9 3 0.62 6 C
123I 2 G %IG=0.30 3
123I cG E,RI$other: E|g=1534.0, I|g=0.51 (1968Gf01)
123I G 1686.8 3 1.25 15 C
123I 2 G %IG=0.61 8
123I cG E,RI$other: E|g=1685.8, I|g=1.13 (1968Gf01)
123I G 1715.9 3 0.39 5 C
123I 2 G %IG=0.191 25
123I cG E,RI$other: E|g=1714.6, I|g=0.34 (1968Gf01)
123I G 1864.7 3 0.13 2
123I 2 G %IG=0.064 10
123I cG E,RI$other: E|g=1864.9, I|g=0.07 (1968Gf01)
123I L 1934.14 15(1/2,3/2,5/2)+
123I E 0.63 4 6.36 3 0.63 4
123I S E CK=0.8488 2$CL=0.1191 1$CM+=0.03210 4
123I G 691.5 3 0.23 3 M1,E2 0.0041 6
123I 2 G %IG=0.113 15
123I S G KC=0.0036 5$LC=0.00046 5$MC=9.2E-5 9
123I S G NC=1.86E-5 18$OC=2.17E-6 24
123I cG M$|a(K)exp=0.0051 {I32} (1981Bo25)
123I cG $I(ceK)=0.0037 {I24} (1981Bo25)
123I G 1603.9 3 0.35 3 C
123I 2 G %IG=0.172 15
123I cG E,RI$other: E|g=1602.7, I|g=0.26 (1968Gf01)
123I G 1756.1 3 0.19 2
123I 2 G %IG=0.093 10
123I cG E,RI$other: E|g=1754.5, I|g=0.15 (1968Gf01)
123I G 1785.4 3 0.06 1
123I 2 G %IG=0.029 5
123I G 1934.2 3 0.45 5
123I 2 G %IG=0.221 25
123I cG E,RI$other: E|g=1933.2, I|g=0.40 (1968Gf01)
123I L 1956.07 15 3/2+
123I E 2.10 14 5.81 4 2.10 14
123I S E CK=0.8485 2$CL=0.1194 2$CM+=0.03218 4
123I G 802.7 3 0.04 1
123I 2 G %IG=0.020 5
123I G 842.7 3 0.08 1
123I 2 G %IG=0.039 5
123I G 1625.9 3 1.20 10 C
123I 2 G %IG=0.59 5
123I cG E,RI$other: E|g=1624.6, I|g=1.05 (1968Gf01)
123I G 1778.2 3 0.20 2 C
123I 2 G %IG=0.098 10
123I cG E,RI$other: E|g=1777.2, I|g=0.15 (1968Gf01)
123I G 1807.3 3 2.55 25 C
123I 2 G %IG=1.25 13
123I cG E,RI$other: E|g=1806.7, I|g=2.15 (1968Gf01)
123I G 1955.9 3 0.20 3
123I 2 G %IG=0.098 15
123I cG E,RI$other: E|g=1954.5, I|g=0.20 (1968Gf01)
123I L 2062.49 12(1/2,3/2,5/2)+
123I E 1.31 9 5.88 4 1.31 9
123I S E CK=0.8467 2$CL=0.12073 16$CM+=0.03261 5
123I G 671.7 2 0.10 2
123I 2 G %IG=0.049 10
123I G 752.4 2 0.12 2
123I 2 G %IG=0.059 10
123I cG E,RI$other: E|g=751.3, I|g=0.18 (1968Gf01)
123I G 820.1 3 0.12 2
123I 2 G %IG=0.059 10
123I G 909.0 4 0.18 2 M1 0.00246
123I 2 G %IG=0.088 10
123I S G KC=0.00214 3$LC=0.000262 4$MC=5.25E-5 8
123I S G NC=1.066E-5 15$OC=1.260E-6 18
123I cG E,RI$other: E|g=909.0, I|g=0.30 (1968Gf01)
123I cG M$|a(K)exp=0.0037 {I15} (1981Bo25)
123I cG $I(ceK)=0.0021 {I8} (1981Bo25)
123I G 949.5 3 0.06 1
123I 2 G %IG=0.029 5
123I G 1013.5 5 0.24 3
123I 2 G %IG=0.118 15
123I G 1732.2 3 0.29 4 C
123I 2 G %IG=0.142 20
123I cG E,RI$other: E|g=1730.4, I|g=0.26 (1968Gf01)
123I G 1884.5 3 1.30 15 C
123I 2 G %IG=0.64 8
123I cG E,RI$other: E|g=1883.3, I|g=1.02 (1968Gf01)
123I G 1913.5 4 0.15 2
123I 2 G %IG=0.074 10
123I cG E,RI$other: E|g=1910.4, I|g=0.07 (1968Gf01)
123I G 2062.6 4 0.10 2
123I 2 G %IG=0.049 10
123I L 2152.40 21 (1/2+,3/2)
123I E 0.45 4 6.20 5 0.45 4
123I S E CK=0.8445 3$CL=0.12234 22$CM+=0.03312 7
123I G 1822.3 3 0.25 3 C
123I 2 G %IG=0.123 15
123I cG E,RI$other: E|g=1820.8, I|g=0.20 (1968Gf01)
123I G 1974.3 3 0.28 4 C
123I 2 G %IG=0.137 20
123I cG E,RI$other: E|g=1973.0, I|g=0.28 (1968Gf01)
123I G 2003.3 4 0.38 5 C
123I 2 G %IG=0.186 25
123I cG E,RI$other: E|g=2002.8, I|g=0.35 (1968Gf01)
123I G 2151.7 5 0.03 1 & ?
123I 2 G %IG=0.015 5
123I L 2201.32 22 (1/2+,3/2)
123I E 0.147 15 6.60 5 0.147 15
123I S E CK=0.8430 4$CL=0.1235 3$CM+=0.03348 9
123I G 1871.1 3 0.12 2
123I 2 G %IG=0.059 10
123I G 2052.4 4 0.09 1
123I 2 G %IG=0.044 5
123I G 2201.2 4 0.09 2
123I 2 G %IG=0.044 10
123I L 2250.03 18(3/2)+
123I E 0.45 3 6.02 4 0.45 3
123I S E CK=0.8412 5$CL=0.1249 4$CM+=0.03392 11
123I G 1201.5 3 0.19 2
123I 2 G %IG=0.093 10
123I cG E,RI$other: E|g=1199.8, I|g=0.15 (1968Gf01)
123I G 1919.8 4 0.05 1
123I 2 G %IG=0.025 5
123I G 2071.9 4 0.34 4 C
123I 2 G %IG=0.167 20
123I cG E,RI$other: E|g=2070.9, I|g=0.38 (1968Gf01)
123I G 2101.3 4 0.32 4 C
123I 2 G %IG=0.157 20
123I cG E,RI$other: E|g=2099.8, I|g=0.32 (1968Gf01)
123I G 2249.6 4 0.025 5
123I 2 G %IG=0.0123 25
123I L 2285.52 211/2+
123I E 0.187 18 6.32 5 0.187 18
123I S E CK=0.8395 6$CL=0.1262 4$CM+=0.03432 13
123I G 1237.1 4 0.20 3
123I 2 G %IG=0.098 15
123I cG E,RI$other: E|g=1236.7, I|g=0.24 (1968Gf01)
123I G 1274.6 3 0.09 1
123I 2 G %IG=0.044 5
123I G 2107.0 5 0.04 1
123I 2 G %IG=0.020 5
123I G 2136.4 4 0.05 1
123I 2 G %IG=0.025 5
123I L 2322.6 3 (1/2,3/2)
123I E 0.142 13 6.35 5 0.142 13
123I S E CK=0.8374 7$CL=0.1278 5$CM+=0.03483 16
123I G 1992.5 4 0.09 1
123I 2 G %IG=0.044 5
123I G 2144.6 4 0.07 1
123I 2 G %IG=0.034 5
123I G 2173.5 5 0.13 2
123I 2 G %IG=0.064 10
123I cG E,RI$other: E|g=2173.5, I|g=0.17 (1968Gf01)
123I L 2327.4 4 (1/2+,3/2)
123I E 0.078 9 6.60 6 0.078 9
123I S E CK=0.8371 7$CL=0.1280 6$CM+=0.03490 17
123I G 2151.7 5 0.03 1 & ?
123I 2 G %IG=0.015 5
123I F G FL=178.00
123I G 2178.5 5 0.08 1
123I 2 G %IG=0.039 5
123I G 2327.3 5 0.07 1
123I 2 G %IG=0.034 5
123I cG E,RI$other: E|g=2326.1, I|g=0.05 (1968Gf01)
123I L 2367.78 22 (1/2+,3/2+)
123I E 0.31 3 5.89 6 0.31 3
123I S E CK=0.8341 9$CL=0.1303 7$CM+=0.03562 22
123I G 2037.6 4 0.50 6 C
123I 2 G %IG=0.25 3
123I cG E,RI$other: E|g=2037.3, I|g=0.51 (1968Gf01)
123I G 2189.8 4 0.04 1
123I 2 G %IG=0.020 5
123I G 2218.8 4 0.07 1
123I 2 G %IG=0.034 5
123I G 2367.6 5 0.020 4
123I 2 G %IG=0.0098 20
123I L 2389.4 3(3/2)+
123I E 0.118 14 6.24 6 0.118 14
123I S E CK=0.8321 11$CL=0.1318 8$CM+=0.03610 25
123I G 2058.9 4 0.15 2 C
123I 2 G %IG=0.074 10
123I cG E,RI$other: E|g=2059.0, I|g=0.18 (1968Gf01)
123I G 2211.7 4 0.08 2
123I 2 G %IG=0.039 10
123I G 2389.1 5 0.010 3
123I 2 G %IG=0.0049 15
123I L 2455.40 24(1/2+) ?
123I E 0.042 5 6.45 7 0.042 5 ?
123I S E CK=0.8235 19$CL=0.1384 14$CM+=0.0382 5
123I G 2125.3 4 0.020 5 ?
123I 2 G %IG=0.0098 25
123I G 2277.0 5 0.015 4 ?
123I 2 G %IG=0.0074 20
123I G 2306.5 5 0.020 5 ?
123I 2 G %IG=0.0098 25
123I G 2455.5 5 0.030 5 ?
123I 2 G %IG=0.0147 25
123I L 2560.3 4 (1/2+,3/2) ?
123I E 0.020 3 6.2 1 0.020 3 ?
123I S E CK=0.785 9$CL=0.167 7$CM+=0.0474 21
123I G 2411.3 5 0.010 3 ?
123I 2 G %IG=0.0049 15
123I G 2560.4 5 0.030 5 ?
123I 2 G %IG=0.0147 25
123I cG E,RI$other: E|g=2559.1, I|g=0.03 (1968Gf01)
123I L 2580.0 4 (1/2+,3/2,5/2+) ?
123I E 0.0098 21 6.3 2 0.0098 21 ?
123I S E CK=0.767 14$CL=0.181 10$CM+=0.052 4
123I G 2430.8 5 0.010 3 ?
123I 2 G %IG=0.0049 15
123I G 2580.3 5 0.010 3 ?
123I 2 G %IG=0.0049 15