131CS 131BA EC DECAY 2003Sa62,1990SU07 06NDS 200612
131CS H TYP=FUL$AUT=YU. KHAZOV, I. MITROPOLSKY, A. RODIONOV$
131CS2 H CIT=NDS 107, 2715 (2006)$CUT=17-Jul-2006$
131CS c 1976Ge14:{+131}Ba |e decay [from Pr(p,X) E=600-800 MeV, chemical
131CS2c extraction, separator; energy correction by 1982KhZW]; measured |g,
131CS3c |g|g coin deduced {+131}Cs levels. Ge(Li) detectors.
131CS c 1964Ho17: {+131}Ba |e decay; measured ce, xce-delay deduced {+131}Cs
131CS2c levels, Ece, Ice, |d, T{-1/2}. Iron-free beta-ray spectrometer,
131CS3c plastic scintillations
131CS c 1969Fe02: {+131}Ba |e decay; measured |g|g(|q), |g|g(90|',pol),
131CS2c |g|g(|q,t), |g|g(|q,H), ce|g(|q), xce-delay deduced {+131}Cs levels,
131CS3c J|p, T{-1/2}, |d, g-factor. Ge(Li), Si(Li), NaI(Tl) detectors
131CS c 1980Kr17: {+131}Ba |e decay; measured |g|g(|q) deduced {+131}Cs
131CS2c levels, J|p, |d. Ge(Li) detectors
131CS c 1980VyZZ: {+131}Ba |e decay; measured |g, ce deduced {+131}Cs E|g,
131CS2c I|g, Ice, |a(exp)
131CS c 1990Su07: {+131}Ba |e decay; measured |g, |g|g coin deduced {+131}Cs
131CS2c levels, E|g, I|g
131CS c 1995Ku32: {+131}Ba |e decay; measured |g, x|g coin deduced {+131}Cs
131CS2c E|g, I|g, K capture probabilities
131CS c 2003Sa62: {+131}Ba |e decay; measured |g, ce deduced {+131}Cs levels,
131CS2c J|p, E|g, I|g, Ice, |a(exp). HPGe detector, mini-orange electron
131CS3c spectrometer
131CS c Others: 1963Ke11, 1965Hi06, 1967Se03, 1969Kh09, 1970Ha45, 1970Ma21,
131CS2c 1972St20, 1972Dr02, 1975Mo12, 1977Sa20, 1978Vo11, 1978Va04, 1979Sh10,
131CS3c 1988Sa14, 1988Si02, 1999De49, 2000De13
131CS cE TI From net |g feeding of each level
131CS cG E$Weighted average from 1976Ge14 (corrected by 1982KhZW), 1980VyZZ,
131CS2cG 1990Su07, 1995Ku32 and 2003Sa62 when it is possible besides as noted
131CS cG E,RI(B)$Reported by 2003Sa62 only
131CS cG E(C)$From 1990Su07
131CS cG RI$Averaged from 1976Ge14, 1980VyZZ, 1988Ch44, 1990Me15, 1990Su07,
131CSxcG 1995Ku32 besides as noted
131CS cG EKC$from 1978Vo11 and 1980VyZZ besides as noted. The values of |a(exp)
131CS2cG are normalized by evaluators (using BrIcc program) to |a{-K}=0.619,
131CS3cG for 123.8 keV, E2 transition between the levels with J|p=1/2+ and
131CS4cG J|p=5/2+
131CS cG M$From |a(exp) and |d
131CS cG MR From |g|g(|q), except as noted
131CS cG $See 1978Vo11, 1975Mo12, 1970Ha45, 1999De49 for penetration parameters
131CS cL $The decay scheme is based on the coincidence relations and Ritz
131CS2cL combination principle
131CS cL E$From least-squares fit to E|g's
131CS cL J$From multipolarities and |g(|q) measurements
131CS cL $T{-1/2}(excited states) measured by |g|g(t), ce|g(t), xce(t)
131CS cL E(A)$The level is introduced by 2003Sa62 because of |g energy
131CS2cL relations and available data on reactions
131BA P 0.0 1/2+ 11.50 D 6 1376 5
131CS N 0.480 4 1.0 1.0
131CS cN NR from |SI(|g+ce)=100 to g.s.
131CS PN 5
131CS L 0.0 5/2+ 9.689 D 16
131CS cL T$from adopted levels, |g(t) measurements
131CS L 78.738 57/2+ 9.4 NS 2
131CS cL T$weighted average of 9.6 ns {I3} (1964Ho17), 9.15 ns {I30}
131CSxcL (1969Fe02)
131CS G 78.736 6 1.58 3 M1+E2 0.060 11 1.80 C
131CS cG $K:L1:L2:L3=67.8 14:7.54 19:0.71 6:0.24 5 (1975Mo12)
131CSS G KC=1.533 22$LC=0.209 4$MC=0.0429 8$NC+=0.01037 18
131CSS G NC=0.00906 16$OC=0.001253 20$PC=6.02E-5 9
131CS cG MR$from 1975Mo12
131CS L 123.802 31/2+ 3.75 NS 5
131CS cL T$weighted average of 3.77 ns {I5} (1960Bo24), 3.7 ns {I1}
131CS2cL (1964Ho17), 3.8 ns {I1} (1963Va35), 3.48 ns {I7} (1969Fe02), 3.79 ns
131CS3cL {I8} (1969Kh09), 3.80 ns 1 (1972Gu03). Others: 4.15 ns {I8}
131CSxcL (1961Na06), 3.5 ns {I3} (1963Ke11)
131CS E 1.7 6 8.58 16 1.7 6
131CSS E CK=0.8491$CL=0.11794 3$CM+=0.032678 8
131CS G 123.804 3 62.0 5 E2 0.878 C
131CS2 G EKC=0.63 8 (1995Ku32)
131CS cG $K:L1:L2:L3=1000:94.9 17:116 2:126 2 (1975Mo12)
131CSS G KC=0.619 9$LC=0.205 3$MC=0.0440 7$NC+=0.01006 14
131CSS G NC=0.00896 13$OC=0.001074 15$PC=1.79E-5 3
131CS L 133.623 45/2+ 8.6 NS 3
131CS2 L G=+0.79 5 (1969Fe02)$ G=+0.74 3 (1972AoZZ)$ MOME2=0.022 2 (2000De13)
131CS cL T$weighted average of 9.3 ns {I3} (1964Ho17), 9.13 ns {I20}
131CS2cL (1969Kh09), 9.75 ns {I30} (1969Fe02), 8.1 ns {I1} (1972Gu03),
131CS3cL 9.06 ns {I16} (2000De13). Others: 13.5 ns {I5} (1960Bo24),
131CS4cL 12.7 ns {I10} (1963Ke11)
131CS cL MOME2$from PAC measurements
131CS G 54.887 5 0.221 5 E2(+M1) 4 GE 16.2 4 C
131CS cG $K:L1:L2:L3=34.0 7:3.14 16:19.8 4:26.3 5 (1975Mo12)
131CSS G KC=6.07 10$LC=8.0 3$MC=1.75 6$NC+=0.391 13
131CSS G NC=0.351 11$OC=0.0398 13$PC=0.0001625 23
131CS cG MR from 1975Mo12
131CS G 133.617 5 4.54 5 M1+E2 +0.51 2 0.454 8 C
131CS2 G EKC=0.345 8$EKC=0.47 6 (1995Ku32)
131CS cG $|d=0.52 {I3} (1969Fe02)
131CS cG $K:L1:L2:L3=44.3 9:5.24 11:1.62 5:1.42 5 (1975Mo12)
131CSS G KC=0.370 6$LC=0.0664 17$MC=0.0139 4$NC+=0.00328 8
131CSS G NC=0.00289 7$OC=0.000377 9$PC=1.356E-5 19
131CS cG $Possible B(E0)/B(E2)=0.015 {I5} (1978Vo11)
131CS L 216.080 53/2+ 0.2 NS LE
131CS cL T from 1969Fe02, 1969Kh09
131CS E 21.7 5 7.404 11 21.7 5
131CSS E CK=0.8488$CL=0.11837 3$CM+=0.032815 8
131CS G 82.442 150.040 4 M1,E2 2.6 11 C
131CS2 G EKC=2.4 8
131CS cG $K:L1:L2=33.9 7:4.26 17:0.67 14 (1975Mo12)
131CSS G KC=1.7 4$LC=0.7 6$MC=0.15 12$NC+=0.03 3
131CSS G NC=0.031 24$OC=0.004 3$PC=5.5E-5 3
131CS cG MR$from 1975Mo12
131CS G 92.288 9 1.25 2 M1+E2 0.19 5 1.18 4 C
131CSS G KC=0.990 18$LC=0.151 13$MC=0.031 3$NC+=0.0075 6
131CSS G NC=0.0065 6$OC=0.00088 6$PC=3.83E-5 6
131CS G 137.323 22 0.080 3 E2 0.610 C
131CS2 G EKC=0.42 7
131CSS G KC=0.443 7$LC=0.1320 19$MC=0.0283 4$NC+=0.00648 9
131CSS G NC=0.00577 8$OC=0.000698 10$PC=1.311E-5 19
131CS G 216.088 14 42.4 8 M1+E2 +0.07 3 0.1062 C
131CS2 G EKC=0.087 4
131CS cG $K:L1:L2:L3=99.0 15:12.2 4:0.72 15:0.11 6 (1975Mo12)
131CSS G KC=0.0912 13$LC=0.01198 18$MC=0.00245 4$NC+=0.000594 9
131CSS G NC=0.000518 8$OC=7.22E-5 11$PC=3.57E-6 5
131CS L 373.246 53/2+ 0.25 NS LE
131CS cL T from 1969Kh09
131CS E 20.2 3 7.305 9 20.2 3
131CSS E CK=0.8477$CL=0.11922 4$CM+=0.03309 1
131CS G 157.160 10 0.372 15 M1,E2 0.32 7 C
131CS2 G EL1C=0.036 4
131CSS G KC=0.25 4$LC=0.052 24$MC=0.011 5$NC+=0.0026 12$
131CSS G NC=0.0023 11$OC=0.00029 12$PC=8.61E-6 15$
131CSS G L1C=0.0272 8$
131CS G 239.621 5 5.20 11M1+E2 -0.25 10 0.0810 13 C
131CS2 G EKC=0.0688 15
131CS cG $K:L1:L2:L3=9.3 14:1.12 17:0.09 2:0.04 1 (1964Ho17)
131CSS G KC=0.0693 10$LC=0.0093 3$MC=0.00191 7$NC+=0.000462 15
131CSS G NC=0.000404 13$OC=5.59E-5 15$PC=2.68E-6 4
131CS G 249.435 11 6.17 21M1+E2 +0.63 6 0.0743 C
131CS2 G EKC=0.0345 13
131CS cG $K:L1:L2:L3=9.5 14:1.13 17:0.12 2:0.04 1 (1964Ho17)
131CSS G KC=0.0626 9$LC=0.00929 21$MC=0.00192 5$NC+=0.000459 11
131CSS G NC=0.000402 9$OC=5.43E-5 11$PC=2.34E-6 4
131CS G 294.503 12 0.361 10E2 0.0461 C
131CS2 G EKC=0.045 3
131CSS G KC=0.0377 6$LC=0.00670 10$MC=0.001400 20$NC+=0.000329 5
131CSS G NC=0.000290 4$OC=3.76E-5 6$PC=1.278E-6 18
131CS G 373.256 12 30.0 3 M1+E2 -0.9 3 0.0238 7 C
131CS2 G EKC=0.0198 8
131CS cG $K:L1:L2=14.8 22:1.9 3:0.25 4 (1964Ho17)
131CSS G KC=0.0202 7$LC=0.00287 5$MC=0.000591 12$NC+=0.0001418 24
131CSS G NC=0.0001241 22$OC=1.689E-5 24$PC=7.5E-7 4
131CS L 496.08 6 9/2+ A
131CS G 417.3 3 0.006 3M1+E2 0.0174 17 B
131CS2 G EKC=0.015 10 (2003Sa62)
131CSS G KC=0.0148 17$LC=0.00208 4$MC=0.000428 7$NC+=0.0001026 22
131CSS G NC=8.98E-5 17$OC=1.23E-5 5$PC=5.5E-7 9
131CS L 585.039 8 3/2+
131CS E 1.24 2 8.156 19 1.24 2
131CSS E CK=0.8454$CL=0.12094 6$CM+=0.03365 2
131CS G 89.04 13 0.008 1 [M3] 130.0 21 B
131CSS G KC=77.6 12$LC=40.7 7$MC=9.40 16$NC+=2.23 4
131CSS G NC=1.97 4$OC=0.249 4$PC=0.00743 12
131CS cG M$assumed by evaluators from decay pattern
131CS G 368.964 28 0.035 7 C
131CS G 451.415 16 0.087 2 M1,E2 0.0141 16 C
131CS2 G EKC=0.016 3
131CSS G KC=0.0120 15$LC=0.00166 7$MC=0.000341 11$NC+=8.2E-5 4
131CSS G NC=7.2E-5 3$OC=9.8E-6 6$PC=4.5E-7 8
131CS G 461.250 16 0.12 2 M1,E2 0.0133 16 C
131CS2 G EKC=0.013 2
131CSS G KC=0.0113 15$LC=0.00157 7$MC=0.000321 13$NC+=7.7E-5 4
131CSS G NC=6.8E-5 3$OC=9.3E-6 6$PC=4.2E-7 7
131CS G 506.1 4 0.004 1 C
131CS G 585.031 11 2.55 2 M1,E2 0.0072 11 C
131CS2 G EKC=0.0064 7
131CSS G KC=0.0062 10$LC=0.00082 8$MC=0.000168 16$NC+=4.1E-5 4
131CSS G NC=3.5E-5 4$OC=4.9E-6 6$PC=2.3E-7 5
131CS L 596.37 5 5/2+
131CS G 517.64 7 0.005 2 C
131CS cG RI$average of 0.003 {I1} (1990Su07) and 0.007 {I2} (2003Sa62)
131CS G 596.48 13 0.0037 4
131CS L 620.120 51/2+ 0.15 NS LT
131CS cL T from |g|g(t) (1963Va35)
131CS E 52.7 5 6.633 8 52.7 5
131CSS E CK=0.8449$CL=0.12132 6$CM+=0.03377 2
131CS G 246.858 13 1.35 1 M1,E2 0.078 4 C
131CS2 G EKC=0.0646 22
131CSS G KC=0.0649 14$LC=0.0106 23$MC=0.0022 5$NC+=0.00052 11
131CSS G NC=0.00046 10$OC=6.1E-5 11$PC=2.34E-6 17
131CS G 404.039 7 2.80 2 M1+E2 +0.8 3 0.0194 7 C
131CS2 G EKC=0.0155 18
131CSS G KC=0.0165 7$LC=0.00228 4$MC=0.000469 7$NC+=0.0001128 16
131CSS G NC=9.86E-5 14$OC=1.351E-5 24$PC=6.2E-7 4
131CS G 486.507 12 4.47 3 E2 0.01016 C
131CS2 G EKC=0.0094 7
131CSS G KC=0.00856 12$LC=0.001274 18$MC=0.000263 4$NC+=6.27E-5 9
131CSS G NC=5.50E-5 8$OC=7.38E-6 11$PC=3.07E-7 5
131CS cG $A{-2}=-0.52 {I2}, A{-4}=-0.62 {I9},|g(lin pol) P{-1}(90|')=+0.47
131CS2cG {I11} (1969Fe02)
131CS G 496.321 5 100 M1 0.01234 C
131CS2 G EKC=0.0100 8 (2003Sa62)$
131CS cG E$weighted average of 496.321 {I12} (1980VyZZ), 496.326 {I13},
131CS2cG (1982KhZW), 496.30 {I1} (1990Su07), 496.326 {I5} (2003Sa62). Other:
131CS3cG 496.280 {I16} (1995Ku32)
131CSS G KC=0.01064 15$LC=0.001356 19$MC=0.000277 4$NC+=6.71E-5 10
131CSS G NC=5.85E-5 9$OC=8.18E-6 12$PC=4.11E-7 6
131CS cG $A{-2}=-0.001 {I2}, A{-4}=+0.001 {I3}, |g(lin pol)
131CS2cG P{-1}(90|')=+0.012 {I16} (1969Fe02)
131CS G 620.094 7 3.07 2 E2 0.00530 ?
131CS2 G EKC=0.0041 5
131CSS G KC=0.00450 7$LC=0.000632 9$MC=0.0001299 19$NC+=3.11E-5 5
131CSS G NC=2.73E-5 4$OC=3.71E-6 6$PC=1.642E-7 23
131CS cG E$poor fit, the level energy difference is equal to 620.119 {I5}
131CS L 657.61 4 7/2+
131CS E 0.047 23 9.64 22 0.047 23
131CSS E CK=0.84430 9$CL=0.12177 7$CM+=0.03392 2
131CS G 72.43 10 0.020 3 [E2] 5.94 9 B
131CS cG M$transition between levels with J|p=7/2+ and J|p=3/2+
131CS G 533.68 17 0.0030 7 M3 0.0895 C
131CS2 G EKC=0.06 2 (2003Sa62)$
131CSS G KC=0.0743 11$LC=0.01206 17$MC=0.00253 4$NC+=0.000611 9
131CSS G NC=0.000535 8$OC=7.32E-5 11$PC=3.35E-6 5
131CS G 657.64 10 0.0074 6[E2] 0.00456 C
131CSS G KC=0.00389 6$LC=0.000539 8$MC=0.0001106 16$NC+=2.65E-5 4
131CSS G NC=2.32E-5 4$OC=3.17E-6 5$PC=1.421E-7 20
131CS L 696.471 83/2+
131CS E 0.567 11 8.505 11 0.567 11
131CSS E CK=0.8436 1$CL=0.12230 8$CM+=0.03409 3
131CS G 323.200 24 0.0133 10
131CS cG E,RI$from 1995Ku32
131CS G 480.399 11 0.704 9 M1+E2 +0.21 3 0.01326 C
131CS2 G EKC=0.0096 12
131CSS G KC=0.01142 17$LC=0.001466 21$MC=0.000299 5$NC+=7.25E-5 11
131CSS G NC=6.33E-5 9$OC=8.83E-6 13$PC=4.40E-7 7
131CS G 562.824 23 0.0079 15 C
131CS G 572.697 25 0.336 6 M1,E2 0.0076 11 C
131CS2 G EKC=0.0058 9
131CSS G KC=0.0065 10$LC=0.00087 8$MC=0.000178 16$NC+=4.3E-5 4
131CSS G NC=3.8E-5 4$OC=5.2E-6 6$PC=2.4E-7 5
131CS G 696.467 14 0.317 9 M1,E2 0.0047 8 C
131CS2 G EKC=0.0043 10
131CSS G KC=0.0040 7$LC=0.00053 7$MC=0.000107 13$NC+=2.6E-5 4
131CSS G NC=2.3E-5 3$OC=3.1E-6 5$PC=1.5E-7 3
131CS L 764.12 14 (3/2+,5/2+) A
131CS G 630.23 17 0.0078 9 B
131CS L 775.25 6 (11/2-) A
131CS E 0.022 10 9.80 20
131CSS E CK=0.8419 2$CL=0.1236 1$CM+=0.03451 3
131CS G 117.69 13 0.045 16 B
131CS cG E$questionable placement on the base of energy relations only; |g from
131CS2cG J|p=11/2- to J|p=7/2+ have to be of mult.=M2 that is unlikely
131CS G 279.17 2 0.025 12 B
131CS L 919.59 4 (3/2+,5/2+)
131CS E 0.013 2 9.78 7 0.013 2
131CSS E CK=0.8371 3$CL=0.12721 18$CM+=0.03569 6
131CS G 423.69 25 0.0042 5 B
131CS G 546.30 8 0.0075 7 C
131CS G 703.47 7 0.015 1 C
131CS G 785.92 9 0.0050 15
131CS cG E,RI$from 1990Su07
131CS G 795.85 8 0.0015 2 C
131CS G 840.9 4 0.004 2 C
131CS G 919.65 9 0.019 1
131CS L 1043.97 6 7/2+ A
131CS E 0.017 4 9.36 11 0.017 4
131CSS E CK=0.8291 5$CL=0.1332 4$CM+=0.03766 12
131CS G 268.71 2 0.019 5 M2 0.277 B
131CS2 G EKC=0.22 7 (2003Sa62)
131CSS G KC=0.231 4$LC=0.0365 6$MC=0.00763 11$NC+=0.00185 3
131CSS G NC=0.001613 23$OC=0.000222 4$PC=1.038E-5 15
131CS G 458.96 10 0.012 1E2 0.01197 B
131CS2 G EKC=0.010 5 (2003Sa62)$
131CSS G KC=0.01006 14$LC=0.001523 22$MC=0.000315 5$NC+=7.49E-5 11
131CSS G NC=6.58E-5 10$OC=8.80E-6 13$PC=3.59E-7 5
131CS G 827.79 12 0.0077 8 B
131CS L 1047.670 73/2+
131CS E 1.47 2 7.414 16 1.47 2
131CSS E CK=0.8288 5$CL=0.1335 4$CM+=0.03774 12
131CS G 128.09 14 0.030 2
131CS G 351.202 16 0.199 12M1,E2 0.0280 16 C
131CS2 G EKC=0.024 3
131CSS G KC=0.0237 18$LC=0.00345 18$MC=0.00071 5$NC+=0.000170 9
131CSS G NC=0.000149 8$OC=2.02E-5 5$PC=8.7E-7 12
131CS G 390.06 4 0.0041 4
131CS G 427.564 13 0.204 2 M1,E2 0.0163 17 C
131CS2 G EKC=0.0153 16
131CSS G KC=0.0139 16$LC=0.00194 5$MC=0.000399 8$NC+=9.6E-5 3
131CSS G NC=8.38E-5 20$OC=1.14E-5 6$PC=5.2E-7 9
131CS G 462.68 5 0.10 2 M1,E2 0.0132 15 C
131CS2 G EKC=0.013 2
131CSS G KC=0.0112 15$LC=0.00155 7$MC=0.000319 13$NC+=7.7E-5 4
131CSS G NC=6.7E-5 3$OC=9.2E-6 6$PC=4.2E-7 7
131CS G 674.418 16 0.283 2 M1,E2 0.0051 8 C
131CS2 G EKC=0.0040 9
131CSS G KC=0.0043 7$LC=0.00057 7$MC=0.000116 14$NC+=2.8E-5 4
131CSS G NC=2.5E-5 3$OC=3.4E-6 5$PC=1.6E-7 3
131CS G 831.583 14 0.488 4 M1+E2 -0.31 +21-460.0035 3 C
131CS2 G EKC=0.0031 4
131CSS G KC=0.00299 25$LC=0.00038 3$MC=7.7E-5 6$NC+=1.86E-5 13
131CSS G NC=1.62E-5 12$OC=2.27E-6 17$PC=1.14E-7 11
131CS G 914.035 25 0.099 1 M1,E2 0.0025 4 C
131CS2 G EKC=0.0026 4
131CSS G KC=0.0021 4$LC=0.00027 4$MC=5.5E-5 8$NC+=1.34E-5 19
131CSS G NC=1.17E-5 16$OC=1.63E-6 23$PC=8.0E-8 14
131CS G 923.866 19 1.55 2 M1,E2 0.0024 4 C
131CS2 G EKC=0.00193 22
131CSS G KC=0.0021 4$LC=0.00026 4$MC=5.4E-5 8$NC+=1.31E-5 18
131CSS G NC=1.14E-5 16$OC=1.59E-6 23$PC=7.8E-8 14
131CS G 968.887 21 0.078 3 E2 0.00184 C
131CS2 G EKC=0.0018 3
131CSS G KC=0.001578 22$LC=0.000205 3$MC=4.19E-5 6$NC+=1.012E-5 15
131CSS G NC=8.84E-6 13$OC=1.222E-6 18$PC=5.84E-8 9
131CS G 1047.601 11 2.80 7 M1,E2 0.0018 3 ?
131CS2 G EKC=0.0019 3
131CSS G KC=0.00157 24$LC=0.00020 3$MC=4.0E-5 6$NC+=9.8E-6 13
131CSS G NC=8.5E-6 12$OC=1.19E-6 17$PC=5.9E-8 10
131CS cG E$poor fit, the level energy difference is equal to 1047.665 {I7}
131CS L 1170.637 24 3/2+
131CS E 0.190 13 7.84 4 0.190 13
131CSS E CK=0.8087 15$CL=0.1486 11$CM+=0.0427 4
131CS G 406.11 21 0.044 20M1+E2 0.0187 17 B
131CS2 G EKC=0.017 14 (2003Sa62)
131CSS G KC=0.0159 17$LC=0.00225 4$MC=0.000463 7$NC+=0.0001110 18
131CSS G NC=9.72E-5 14$OC=1.32E-5 5$PC=5.9E-7 9
131CS G 474.2 2 0.0050 13 C
131CS G 550.46 14 0.0046 11
131CS G 797.38 6 0.075 3 M1,E2 0.0034 6 C
131CS2 G EKC=0.0038 5
131CSS G KC=0.0029 5$LC=0.00038 5$MC=7.7E-5 10$NC+=1.86E-5 25
131CSS G NC=1.62E-5 22$OC=2.3E-6 4$PC=1.10E-7 20
131CS G 954.61 3 0.069 1 M1,E2 0.0022 4 C
131CS2 G EKC=0.0013 4 (1990Su07)
131CSS G KC=0.0019 3$LC=0.00025 4$MC=5.0E-5 7$NC+=1.21E-5 17
131CSS G NC=1.06E-5 15$OC=1.47E-6 21$PC=7.3E-8 13
131CS G 1037.0 4 0.0010 3 CC
131CS G 1046.4 3 0.193 15 CC
131CS G 1170.52 5 0.0034 5
131CS cG RI$from 1990Su07, other: I|g=0.060 {I2} (1995Ku32)
131CS L 1257.83 7 7/2+ A
131CS E 0.0107 11 8.49 7 0.0107 11
131CSS E CK=0.757 7$CL=0.187 5$CM+=0.0557 17
131CS G 599.94 11 0.0034 4 B
131CS G 661.60 8 0.014 2 E2 B
131CS2 G EKC=0.0041 12 (2003Sa62)
131CSS G CC=0.00454$KC=0.00384 12$LC=0.00053 2
131CS G 884.58 20 0.0048 5 B
131CS L 1341.99 4 1/2,3/2
131CS E 0.0117 8 6.66 17 0.0117 8
131CSS E CL=0.730 25$CM+=0.270 20
131CS G 297.83 15 0.008 1 B
131CS G 745.57 6 0.0027 3
131CS G 757.0 2 0.0010 3
131CS cG E,RI$from 1990Su07
131CS G 1125.97 9 0.0057 10 C
131CS G 1208.47 11 0.0037 4 C
131CS G 1218.30 15 0.0010 3 CC
131CS cG E,RI$from 1990Su07
131CS G 1341.98 8 0.0023 3