127XE 127CS B+ DECAY 1990MA46 11NDS 201108
127XE H TYP=FUL$AUT=A. HASHIZUME$CIT=NDS 112, 1647 (2011)$CUT=1-Oct-2009$
127XE c The decay scheme is that proposed by 1990Ma46; see also {+127}Xe IT
127XE2c decay (69.2 s). The 1236, 1410, and 1481 levels proposed by 1976Ge18
127XE3c have been not adopted in this scheme.
127XE c 2004He22: {+11}B(E=52 MeV) on natural Sn, measured |s, no decay data.
127XE c 1990Ma46: {+32}S(E=145 MeV) on {+98}Mo, on-line mass separation; |g,
127XE2c ce, |g|g coin, (|g)(ce) coin
127XE c 1990Ga02: {+127}I(|a,4n) E=60 MeV, chem; |g, |g|g coin, |g|g(|q)
127XE c 1976Ge18: {+127}I({+3}He,3n), {+116}Cd({+14}N,3n),
127XE2c {+118}Sn({+12}C,3n){+127}Ba |b{++} decay, chem; |g, |g|g coin
127XE c 1967Sp08: Ce(p,spallation) E=660 MeV, chem; semi |g, magnetic
127XE2c spectrometer |b{++}, ce
127XE c Others: |g, |g|g coin (1972Jh01), |b{++} (1975We23)
127XE cE Total |e/|b{++}=27.7 {I17} (1962Fr08)
127XE cG |a(K)exp from 1990Ma46, unless otherwise noted. Values are
127XE2cG normalized to |a(K)exp(124.7|g, M1+1%E2)=0.380.
127XE cL E From a least-squares fit to E{-|g}'s
127XE cL J From adopted levels
127XE cE IB$From (I|b{++} to the ground state) /(I|b{++} to the 411.965 state)=1
127XE2cE (1967Sp08,1975We23)
127XE cG E From 1990Ma46
127XE cG E Except assigned |g's in {+127}Cs |b decay by 1990Ma46, the
127XE2cG authors report following unassigned E{-|g}'s from |g|g coincidence:
127XE3cG (100), 104, 141, (147), (161), (167), (168), 181, 207, (214), 220,
127XE4cG 228, 230, 235, (241), 244, 248, (275), (284), (299), 338, 378, 395,
127XE5cG (398), 449, 474, (513), 547, 553, (563), 577, 587, (636), (683), (685),
127XE6cG 712, 717, 770, 802, 815, (822), 827, 845, 882, 956, 980, 1056, (1071),
127XE7cG 1126, 1229, 1242, 1285 keV. Possible escape peaks are shown in
127XE8cG parentheses (evaluator).
127XE cG M From |g|g(|q) (1990Ga02) and |a(K)exp (1990Ma46)
127XE cG RI Value relative to I(411.9|g)=100
127XE cG CC$Theoretical conversion coefficients are calculated using BrIcc code
127XE2cG for the multipolarity and mixing ratio indicated.
127XE cG E(Y) Unresolved peak in singles spectrum (1990Ma46)
127XE cG E(B) Energy difference between relevant levels (1990Ma46),
127XE2cG uncertainty is given by the evaluators
127XE cG RI(A) From coincidence data
127XE cG RI(B) No intensity is given by 1990Ma46
127XE cG M(C) |a(K)exp=0.0078 {I15} is for E|g=555.7+556.57
127XE cG M(D) |a(K)exp=0.0029 {I14} is for E|g=719.2+720.2
127XE cG M(E) |a(K)exp=0.0067 {I9}, K/L=7.4 {I15} is for E|g=586.7+587.01.
127XE2cG Authors' E|g=558 in their table 2 is a misprint. Other: 0.0057 {I25}
127XE3cG (1967Sp08). With mult(586.7|g)|=E0, the data lead to
127XE4cG mult(587.01|g)=M1(+E2) with |d<0.9
127XE cG M(F) |a(K)exp=0.0025 {I4} is for E|g=930.8+931.10. With
127XE2cG mult(930.8|g) |=E0, the data lead to mult(931.10|g)=M1(+E2) with |d<0.5
127CS P 0.0 1/2+ 6.25 H 10 2081 6
127XE N 0.629 10 1.0 1.0
127XE cN NR I(|e+|b{++} to g.s.)=12.4% {I5} is deduced from
127XE2cN I(|b{++} to g.s.)/I(|b{++} to 411.957 level)=1 (1967Sp08) and
127XE3cN I|e/I|b{++}. I(|e+|b{++} to 297 level)=0 is also assumed (evaluators).
127XE PN 3
127XE G 115.13 5 0.026 1
127XE G 388.71 5 0.018 2
127XE G 400.20 5 0.021 6
127XE G 401.90 5 0.050 6
127XE G 427.00 5 0.013 3
127XE G 439.53 5 0.016 1
127XE G 458.5 1 0.006 1 C
127XE G 480.3 1 0.006 1 C
127XE G 526.2 1 0.005 3
127XE G 534.6 1 0.007 2
127XE G 545.5 1 0.007 1 C
127XE G 548.0 1 0.005 1
127XE G 634.4 1 0.009 5
127XE G 646.60 5 0.017 2
127XE G 658.6 1 0.005 1
127XE G 659.32 5 0.010 1
127XE G 678.84 5 0.020 1 C
127XE G 727.07 5 0.019 1
127XE G 731.07 5 0.023 1
127XE G 736.9 1 0.005 1 C
127XE G 766.0 1 0.004 1
127XE G 768.1 1 0.006 1
127XE G 794.7 1 0.008 1
127XE G 816.2 1 0.005 3
127XE G 821.0 1 0.015 2
127XE G 835.4 1 0.004 1
127XE G 860.4 1 0.007 1 C
127XE G 920.4 1 0.003 1
127XE G 923.9 1 0.012 1
127XE G 964.69 5 0.028 1
127XE cG 1990Ma46 tentatively assign this as transition from
127XE2cG 1306.339 to 342.29
127XE G 1070.0 1 0.003 1 C
127XE G 1120.14 5 0.037 1 C
127XE G 1154.6 1 0.008 1 C
127XE G 1178.5 1 0.002 1
127XE G 1362.1 1 0.004 3
127XE G 1363.5 1 0.025 3 C
127XE cG 1990Ma46 tentatively assign this as the transition from
127XE2cG 1774.87 to 411.945
127XE G 1396.1 1 0.005 3
127XE G 1438.4 1 0.0006 5 C
127XE G 1452.7 1 0.038 5 C
127XE cG 1990Ma46 tentatively assign this as the transition from
127XE2cG 1774.87 to 321.564
127XE L 0.0 1/2+ 36.346 D 3
127XE E 1.25 15 11.1 13 6.53 6 12.3 15
127XES E EAV=476.7 27$CK=0.7670 15$CL=0.10336 21$CM+=0.02812 6
127XE cE TI from I|b(1063|b) and |e/|b{++} theory
127XE cE E E(|b{++})=1040 {I20} (1975We23), 1068 {I20} (1967Sp08), 1063
127XExcE {I10} (1954Ma54)
127XE L 124.748 203/2+
127XE E 0.40 2 5.4 3 6.791 24 5.8 3
127XES E EAV=421.8 27$CK=0.7951 12$CL=0.10734 18$CM+=0.02920 5
127XE cE E E(|b{++})|?910 (1967Sp08)
127XE cE IB others: 0.47% (1975We23), |?0.4% (1967Sp08)
127XE G 124.70 5 18.1 2 M1+E2 +0.12 2 0.445 C
127XE3 G EKC=0.38 5$ K/L=6.7 13
127XES G KC=0.381 6$LC=0.0516 10$MC=0.01051 21$NC+=0.00244 5
127XES G NC=0.00217 5$OC=0.000269 5
127XE cG K:L:M=0.38 {I5}:0.057 {I8}:0.0078 {I12}
127XE cG M from |a(K)exp
127XE cG MR from {+127}Xe IT decay (1967Ge15)
127XE L 297.15 119/2- 69.2 S 9 M
127XE G 172.4 1 0.03 2 E3 1.627 B
127XES G KC=0.912 13$LC=0.564 8$MC=0.1238 18$NC+=0.0269 4
127XES G NC=0.0245 4$OC=0.00243 4
127XE DG CC E3 CC(THEORY)'S MULT. BY 0.975 10 (Cf. 1990Ne01)
127XE DG CC E3 CC(THEORY)'S MULT. BY 0.975 10 (Cf. 1990Ne01)
127XE L 321.546 203/2+
127XE E 0.023 1 0.72 3 7.574 20 0.74 3
127XES E EAV=335.7 27$CK=0.8268 8$CL=0.11200 12$CM+=0.03049 4
127XE G 196.73 5 0.604 8 M1+E2 -0.005 15 0.1250 C
127XE3 G EKC=0.100 10$ K/L=9.1 19
127XES G KC=0.1075 15$LC=0.01399 20$MC=0.00284 4$NC+=0.000661 10
127XES G NC=0.000588 9$OC=7.35E-5 11
127XE cG MR from (196.7|g)(124.7|g)(|q) (1990Ga02)
127XE G 321.54 5 2.08 2 M1+E2 -0.90 4 0.0338 C
127XE3 G EKC=0.036 5$ K/L=13 3
127XES G KC=0.0286 4$LC=0.00414 7$MC=0.000848 13$NC+=0.000195 3
127XES G NC=0.000174 3$OC=2.10E-5 3
127XE cG MR from 1983Ir02 in (|a,n|g)
127XE L 342.22 47/2+
127XE G 217.48 5 0.066 5 E2 0.1210 C
127XE3 G EKC=0.076 19
127XES G KC=0.0967 14$LC=0.0194 3$MC=0.00404 6$NC+=0.000904 13
127XES G NC=0.000813 12$OC=9.03E-5 13
127XE L 375.445 255/2+
127XE E 0.0035 7 0.15 3 8.24 9 0.15 3
127XES E EAV=312.2 27$CK=0.8328 7$CL=0.1129 1$CM+=0.03075 3
127XE G 250.71 5 0.06 2 C
127XE G 375.35 5 0.721 9 (E2) 0.0207
127XE3 G EKC=0.019 3
127XES G KC=0.01732 25$LC=0.00273 4$MC=0.000561 8$NC+=0.0001278 18
127XES G NC=0.0001144 16$OC=1.341E-5 19
127XE L 411.957 221/2+
127XE E 1.31 5 66.8 11 5.558 11 68.1 11
127XES E EAV=296.3 27$CK=0.8363 6$CL=0.11350 9$CM+=0.03090 3
127XE G 90.7 1 0.32 1 M1+E2 0.00 2 1.084 C
127XE3 G EKC=0.78 11
127XES G KC=0.930 14$LC=0.1230 18$MC=0.0250 4$NC+=0.00582 9
127XES G NC=0.00517 8$OC=0.000645 10
127XE cG MR from (90.7|g)(321.5|g)(|q) (1990Ga02)
127XE G 287.16 5 6.09 7 M1+E2 +0.55 30 0.0462 8 C
127XE3 G EKC=0.045 6$ K/L=6.8 13
127XES G KC=0.0394 6$LC=0.0055 4$MC=0.00112 8$NC+=0.000258 16
127XES G NC=0.000230 15$OC=2.81E-5 13
127XE cG Other: |a(K)exp=0.036 {I13}, K/L=6.1 (1967Sp08)
127XE cG MR from (287.1|g)(124.7|g)(|q) (1990Ga02)
127XE G 411.95 5 100 (M1) 0.0181 C
127XE3 G EKC=0.016 2$ K/L=7.0 13
127XES G KC=0.01559 22$LC=0.00198 3$MC=0.000401 6$NC+=9.36E-5 14
127XES G NC=8.31E-5 12$OC=1.043E-5 15
127XE cG K:L:M=16 {I2}:2.3 {I3}:0.9 {I1}. Other: |a(K)exp=0.014 {I6}
127XExcG (1967Sp08)
127XE L 419.58 65/2-,7/2-,9/2-
127XE E 0.000506 0.027 3 8.96 5 0.027 3
127XES E EAV=292.9 27$CK=0.8370 6$CL=0.11361 9$CM+=0.03093 3
127XE G 77.36 5 0.030 3 E1 0.432
127XES G KC=0.369 6$LC=0.0503 8$MC=0.01015 15$NC+=0.00230 4
127XES G NC=0.00206 3$OC=0.000240 4
127XE L 509.97 3(3/2)+
127XE E 0.000347 0.032 7 8.83 10 0.032 7
127XES E EAV=253.5 27$CK=0.8435 4$CL=0.11473 7$CM+=0.03125 2
127XE G 188.4 1 BC
127XE G 385.20 5 0.148 3 M1,E2 0.0203 12 C
127XES G KC=0.0173 13$LC=0.00243 9$MC=0.000496 21$NC+=0.000114 4
127XES G NC=0.000102 4$OC=1.236E-5 18
127XE L 530.33 47/2+
127XE E 7.E-5 3 0.008 3 9.42 17 0.008 3
127XES E EAV=244.7 27$CK=0.8447 4$CL=0.11495 6$CM+=0.03131 2
127XE G 405.68 5 0.025 4
127XE L 587.053 223/2+
127XE E 0.056 3 9.53 18 6.306 12 9.59 18
127XES E EAV=219.9 27$CK=0.8472 3$CL=0.11546 5$CM+=0.03146 2
127XE G 175.11 5 0.186 3 M1,E2 0.21 5 Y
127XES G KC=0.172 25$LC=0.032 13$MC=0.007 3$NC+=0.0015 6
127XES G NC=0.0014 6$OC=0.00015 6
127XE cG |a(K)exp=0.36 {I6} for an unresolved transition
127XE G 211.57 5 0.130 5 M1 0.1027 C
127XE3 G EKC=0.073 13
127XES G KC=0.0884 13$LC=0.01148 16$MC=0.00233 4$NC+=0.000543 8
127XES G NC=0.000482 7$OC=6.03E-5 9
127XE G 265.51 5 0.207 3 M1+E2 +1.1 3 0.0594 13 C
127XE3 G EKC=0.045 10
127XES G KC=0.0496 8$LC=0.0078 5$MC=0.00161 11$NC+=0.000367 22
127XES G NC=0.000329 20$OC=3.87E-5 18
127XE cG MR from (265.5|g)(321.5|g)(|q) (1990Ga02)
127XE G 462.31 5 8.08 8 M1+E2 +0.6 4 0.0129 6 C
127XE3 G EKC=0.0091 13$ K/L=6.5 13
127XES G KC=0.0111 6$LC=0.00146 3$MC=0.000296 6$NC+=6.87E-5 14
127XES G NC=6.11E-5 12$OC=7.58E-6 22
127XE cG K:L:M=9.1 {I13}:1.4 {I2}:0.55 {I8}. Others: |a(K)exp 0.0124
127XE2cG {I50}, K/L=6.3 (1967Sp08)
127XE cG MR from (462.3|g)(124.5|g)(|q) (1990Ga02)
127XE G 587.01 5 6.7 1 M1(+E2) 0.9 LT EC
127XES G CC=0.0071 4$KC=0.0062 4$LC=0.00079 3$MC=0.000160 6$NC+=3.71E-5 15
127XES G NC=3.30E-5 13$OC=4.12E-6 19
127XE L 711.60 37/2+
127XE G 201.6 1 0.014 4 AC
127XE G 336.1 1 0.017 2 C
127XE G 369.41 5 0.014 2 C
127XE G 390.05 5 0.084 2
127XE G 586.7 1 0.037 4 AC
127XE2 G FLAG=E
127XE L 720.09 3
127XE E 4.0E-5 16 0.026 10 8.79 17 0.026 10
127XES E EAV=161.5 27$CK=0.8504$CL=0.11635 4$CM+=0.03172 1
127XE G 308.07 5 0.019 3 C
127XE G 595.3 1 0.08 1 C
127XE G 720.2 1 0.03 1 DC
127XE L 878.12 6
127XE E 0.026 5 8.68 9 0.026 5
127XES E CK=0.8509$CL=0.11709 3$CM+=0.031946 9
127XE G 556.57 5 0.042 7 CC
127XE L 931.065 243/2+
127XE E 1.16 4 6.988 18 1.16 4
127XES E CK=0.8506$CL=0.11733 3$CM+=0.032021 9
127XE G 343.98 5 0.091 3 C
127XE G 421.00 5 0.021 3 C
127XE G 519.13 5 0.075 2 C
127XE G 555.7 1 0.25 4 CC
127XE G 588.8 1 C
127XE G 609.6 1 0.06 1 BC
127XE G 806.34 5 0.723 8 M1+E2 +0.14 3 C
127XE3 G EKC=0.0031 5
127XES G CC=0.00351 5$KC=0.00303 5$LC=0.000378 6$MC=7.63E-5 11$NC+=1.78E-5 3
127XES G NC=1.581E-5 23$OC=1.99E-6 3
127XE cG MR -8.7 {I+19-34} from |g|g(|q) (1990Ga02)
127XE G 931.10 5 0.66 1 M1+E2 0.5 LT YC
127XES G CC=0.00246 8$KC=0.00213 7$LC=0.000264 7$MC=5.34E-5 14$NC+=1.25E-5 4
127XES G NC=1.11E-5 3$OC=1.39E-6 4
127XE L 976.07 31/2,3/2,5/2+
127XE G 654.51 5 0.022 1 C
127XE G 976.3 1 0.003 1 C
127XE L 1196.85 41/2+,3/2+
127XE E 0.325 11 7.305 18 0.325 11
127XES E CK=0.8486$CL=0.11891 5$CM+=0.03253 2
127XE G 609.9 1 0.04 1 BC
127XE G 875.26 5 0.068 2 C
127XE G 1072.0 1 0.04 1 AC
127XE G 1196.87 5 0.368 4 M1,E2
127XE3 G EKC=0.0013 2$ K/L=6.5 28
127XES G CC=0.00127 16$KC=0.00110 14$LC=0.000136 16$MC=2.7E-5 4$NC+=1.23E-5 6
127XES G NC=5.7E-6 7$OC=7.1E-7 9$IPC=5.93E-6 24
127XE L 1306.333 243/2+
127XE E 0.475 13 7.021 16 0.475 13
127XES E CK=0.8473$CL=0.11990 7$CM+=0.03284 2
127XE G 330.27 5 0.011 1 C
127XE G 594.8 1 0.01 1 C
127XE G 719.2 1 0.05 1 DC
127XE G 776.07 5 0.012 1
127XE G 796.5 1 0.006 1
127XE G 894.31 5 0.030 1 C
127XE G 930.8 1 0.030 7 FC
127XE2 G FLAG=A
127XE G 984.78 5 0.119 2 C
127XE G 1181.57 5 0.170 2 M1,E2 C
127XE3 G EKC=0.00098 26
127XES G CC=0.00131 17$KC=0.00113 15$LC=0.000140 17$MC=2.8E-5 4$NC+=1.09E-5 7
127XES G NC=5.9E-6 7$OC=7.3E-7 9$IPC=4.37E-6 18
127XE G 1306.31 5 0.316 5 M1,E2 C
127XE3 G EKC=0.00080 14
127XES G CC=0.00107 13$KC=0.00091 11$LC=0.000112 13$MC=2.27E-5 25$NC+=2.79E-5 4
127XES G NC=4.7E-6 6$OC=5.9E-7 7$IPC=2.26E-5 8
127XE L 1402.60 3(3/2)+
127XE E 0.1145 25 7.519 15 0.1145 25
127XES E CK=0.8457 1$CL=0.12104 9$CM+=0.03321 3
127XE G 691.1 1 0.004 1
127XE G 990.64 5 0.060 1 C
127XE G 1081.05 5 0.032 1 C
127XE G 1402.56 5 0.086 2
127XE L 1534.623 22(3/2+)
127XE E 0.51 10 6.67 9 0.51 10
127XES E CK=0.8427 2$CL=0.12332 14$CM+=0.03394 5
127XE G 603.57 5 0.026 1 C
127XE G 814.58 5 0.042 3 C
127XE G 822.98 5 0.228 4 (E2) C
127XE3 G EKC=0.0031 7
127XES G CC=0.00251 4$KC=0.00216 3$LC=0.000284 4$MC=5.76E-5 8$NC+=1.334E-5 19
127XES G NC=1.188E-5 17$OC=1.463E-6 21
127XE G 947.6 1 0.008 1 C
127XE G 1004.4 1 0.0003 1
127XE G 1024.64 5 0.027 1 C
127XE G 1159.18 5 0.071 1 C
127XE G 1192.38 5 0.019 1
127XE G 1213.08 5 0.074 2 C
127XE3 G EKC=0.0015 5
127XE G 1409.81 5 0.180 3 C
127XE G 1534.62 5 0.134 2 (M1,E2)
127XE3 G EKC=0.00053 10
127XES G CC=0.00084 8$KC=0.00065 7$LC=8.0E-5 8$MC=1.61E-5 16$NC+=9.41E-5 17
127XES G NC=3.3E-6 4$OC=4.2E-7 5$IPC=9.03E-5 19
127XE L 1558.25 61/2,3/2,5/2+
127XE E 0.0208 13 8.02 3 0.0208 13
127XES E CK=0.8420 2$CL=0.12386 15$CM+=0.03411 5
127XE G 1146.2 1 0.004 1 C
127XE G 1236.5 1 0.017 1 C
127XE G 1433.7 1 0.003 1
127XE G 1558.3 1 0.009 1
127XE L 1582.664 231/2+,3/2+
127XE E 0.28 8 6.85 13 0.28 8
127XES E CK=0.8412 3$CL=0.12448 17$CM+=0.03431 6
127XE G 606.66 5 0.017 1 C
127XE G 862.56 5 0.012 1
127XE G 995.54 5 0.059 1 C
127XE G 1073.0 1 0.025 9 A
127XE G 1170.73 5 0.092 2 C
127XE G 1207.1 1 0.006 1
127XE G 1261.09 5 0.147 2 M1,E2 C
127XE3 G EKC=0.0014 3
127XES G CC=0.00115 14$KC=0.00098 12$LC=0.000121 14$MC=2.4E-5 3$NC+=2.04E-5 4
127XES G NC=5.1E-6 6$OC=6.4E-7 8$IPC=1.47E-5 6
127XE G 1457.86 5 0.018 1
127XE G 1582.66 5 0.069 1 M1,E2
127XE3 G EKC=0.00059 14
127XES G CC=0.00081 7$KC=0.00061 6$LC=7.5E-5 7$MC=1.50E-5 15$NC+=0.0001121 19
127XES G NC=3.1E-6 3$OC=3.9E-7 4$IPC=0.0001086 20
127XE L 1611.96 8
127XE E 0.0176 10 7.99 3 0.0176 10
127XES E CK=0.8401 3$CL=0.12531 19$CM+=0.03457 6
127XE G 1290.3 1 0.021 1 C
127XE G 1487.3 1 0.007 1
127XE L 1716.55 51/2,3/2
127XE E 0.0585 25 7.24 3 0.0585 25
127XES E CK=0.8346 5$CL=0.1295 4$CM+=0.03592 11
127XE G 785.4 1 0.007 1 C
127XE G 1129.7 1 0.007 1 C
127XE G 1341.2 1 0.014 1 C
127XE G 1394.7 1 0.025 3 C
127XE2 G FL=321.546
127XE G 1592.3 1 0.020 1 ?
127XE2 G FL=124.748
127XE G 1716.6 1 0.040 1
127XE L 1741.33 81/2,3/2
127XE E 0.0063 7 8.14 6 0.0063 7
127XES E CK=0.8327 5$CL=0.1309 4$CM+=0.03638 13
127XE G 1365.8 1 0.008 1
127XE G 1741.4 1 0.0020 3
127XE L 1774.91 201/2,3/2 ?
127XE E 0.017 7 7.61 18 0.017 7
127XES E CK=0.8296 7$CL=0.1332 5$CM+=0.03713 16
127XE G 1188.3 1 0.015 1 ?
127XE2 G FL=587.053
127XE G 1649.6 1 0.017 1 ?
127XE2 G FL=124.748
127XE G 1774.9 2 0.027 1
127XE L 1806.46 4(1/2+,3/2)
127XE E 0.0815 22 6.82 3 0.0815 22
127XES E CK=0.8259 9$CL=0.1360 7$CM+=0.03804 20
127XE G 830.3 1 0.008 1 C
127XE G 1086.3 1 0.009 1 C
127XE G 1219.3 1 0.018 1 C
127XE G 1296.4 1 0.007 1 C
127XE G 1431.1 1 0.006 1
127XE G 1484.98 5 0.042 1 C
127XE G 1681.68 5 0.035 1 C
127XE G 1806.5 2 0.0045 4
127XE L 1831.00 4(1/2+)
127XE E 0.0811 25 6.73 3 0.0811 25
127XES E CK=0.8223 11$CL=0.1388 8$CM+=0.0389 3
127XE G 1110.86 5 0.024 1 C
127XE G 1419.12 5 0.085 3 C
127XE G 1455.2 1 0.008 4 ?
127XE G 1509.3 1 0.015 1 C
127XE G 1831.0 2 0.0050 4
127XE L 1894.80 9(1/2+,3/2)
127XE E 0.0094 7 7.37 5 0.0094 7
127XES E CK=0.8071 22$CL=0.1502 16$CM+=0.0427 6
127XE G 1519.2 1 0.012 1
127XE G 1770.4 2 0.0020 3
127XE G 1895.0 2 0.0009 3
127XE L 1972.36 111/2,3/2
127XE E 0.0019 7 7.47 18 0.0019 7
127XES E CK=0.752 10$CL=0.191 8$CM+=0.0562 24
127XE G 1385.3 1 0.003 1
127XE G 1973.4 2 0.022 1 ?
127XE2 G FL=0.0
127XE L 2033.16 71/2,3/2
127XE E 0.0063 10 5.78 25 0.0063 10
127XES E CK=0.36 18$CL=0.48 13$CM+=0.16 5
127XE G 1321.4 1 0.004 1
127XE G 1446.1 1 0.004 1
127XE G 1909.0 2 0.0020 3