133BA 133LA EC DECAY (3.912 H) 1976HE11,1980VYZZ 11NDS 201104
133BA H TYP=FUL$AUT=YU. KHAZOV AND A. RODIONOV, F.G. KONDEV$
133BA2 H CIT=NDS 112, 855 (2011)$CUT=31-Oct-2010$
133BA c 1976He11: {+133}La |e decay [from {+133}Ce |e decay, produced in
133BA2c {+132}Ba(|a,3n)]; measured |g, |g(t), |g|g coin.; deduced
133BA3c levels, J|p, |a(exp), log| {Ift}, T{-1/2}({+133}La). Cyclotron,
133BA4c chemical and mass separations, Ge(Li) detectors
133BA c 1980VyZZ, 1983JoZX: {+133}La |e decay [from Gd(p,X) E=660 MeV];
133BA2c measured |g, ce; deduced levels, J|p. Synchrocyclotron,
133BA3c chemical and mass separations, particle-vibrational coupling model.
133BA4c Others: 1966Ha23, 1973Re05.
133BA cE TI$From intensity balances
133BA DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
133BA cG E,RI$From 1980VyZZ, except as noted. Since some of the quoted
133BA2cG uncertainties are unrealistically small, the evaluators added 3% in
133BA3cG quadrature to the uncertainties of 1980VyZZ. There are systematic
133BA4cG discrepancies between I|g values measured by 1976He11 and 1980VyZZ
133BA cG M$From |a(K)exp, |a(L)exp and |a(M)exp. Ice are from 1983JoZX, except
133BA2cG as noted; |a(exp)=Ice/I|g for 302.35|g (mult.=M1 in 1983JoZX,
133BA3cG 1976He11) is normalized to |a(K)=0.0408 by evaluators
133BA cG E(A),RI(A)$From 1976He11
133BA cL E$From a least-squares fit to E|g's.
133BA cL J,T$From 'adopted levels'
133LA P 0.0 5/2+ 3.912 H 8 2059 28
133BA N 0.0244 10 1 1
133BA cN NR$from |S(I(|g+ce) to g.s.)=100 and by assuming that there is no
133BA2cN direct |e-decay feeding to the {+133}Ba g.s. (J{+|p}=1/2{++});
133BA3cN I(|g{+|+})/I|g(278|g)=4.58 {I11} (1976He11)
133BA PN 5
133BA G 113.43 6 0.21 4 M1,E2 1.0 3
133BA3 G CEK=38 6$ CEL2+CEL3=9 2$ CEM=2.3 4$ EKC=0.8 2 (1966Ha23)
133BAS G KC=0.71 12$LC=0.20 13$MC=0.04 3$NC+=0.010 7
133BAS G NC=0.009 6$OC=0.0012 7$PC=3.89E-5 6
133BA G 281.8 2 0.5 2 A
133BA G 355.97 3 1.19 6 E1
133BA3 G CEK=1.3 3 $ EKC=0.0041 12
133BAS G CC=0.00738 11$KC=0.00636 9$LC=0.000810 12$MC=0.0001659 24$NC+=4.14E-5 6
133BAS G NC=3.56E-5 5$OC=5.39E-6 8$PC=3.75E-7 6
133BA G 432.3 3 0.09 5 A ?
133BA G 519.1 4 0.9 3 A
133BA G 540.45 3 0.553 28
133BA3 G CEK=0.7 3 $ EKC=0.006 3
133BA G 604.37 220.12 5
133BA G 682.0 5 0.09 5 A
133BA G 684.3 5 0.08 5 A
133BA G 689.5 3 0.10 5 A
133BA G 892.29 220.14 6
133BA G 899.38 5 0.30 2
133BA G 981.06 8 0.23 2
133BA G 992.99 9 0.25 2
133BA G 1175.98 7 0.19 2
133BA G 1181.99 13 0.046 13
133BA G 1192.3 3 0.006 3 A
133BA G 1219.2 3 0.09 2
133BA G 1540.01 200.06 1
133BA G 1581.66 12 0.12 2
133BA G 1592.33 13 0.030 8
133BA G 1595.6 5 0.3 2 A ?
133BA G 1659.6 5 0.05 2 A
133BA G 1720.2 2 0.03 2 A
133BA G 1782.9 5 0.05 3 A
133BA G 1805.83 10 0.055 6
133BA G 1851.7 6 0.02 1 A ?
133BA G 1886.7 4 0.03 1 A ?
133BA L 0.0 1/2+ 10.551 Y 11
133BA L 12.326 63/2+ 7.0 NS 3
133BA E 7.1 8 84 6 5.51 4 91 7
133BAS E EAV=463 13$CK=0.784 6$CL=0.1079 9$CM+=0.03008 24
133BA G 12.327 6 56.4 28M1+E2 0.013 LE 69.5 19
133BAS G LC=55.2 15$MC=11.4 3$NC+=2.86 8
133BAS G NC=2.46 7$OC=0.373 9$PC=0.0261 4
133BA cG M,MR$from 'adopted levels and gammas'
133BA cG RI$from I(|g+ce)=3976 {I164} deduced using I|g({+|+})=458 {I11}
133BA2cG (1976He11), |e/|b{++}=15.2 (theory 1972Dz09 with assumed uncertainty
133BA3cG of 3%) and |SI(|g+ce)=266 {I4}, the total intensity feeding this state
133BA L 288.251 911/2- 38.93 H 10 M
133BA cL $0.3% of all {+133}La decays populate the {+133}Ba isomer (1966Ha23)
133BA G 275.925 7 M4 4.65
133BAS G KC=3.34 5$LC=1.018 15$MC=0.229 4$NC+=0.0565 8
133BAS G NC=0.0491 7$OC=0.00705 10$PC=0.000352 5
133BA cG E,M$from 'adopted levels and gammas'
133BA L 291.186 95/2+
133BA E 0.030 5 1.10 11 7.26 5 1.13 11
133BAS E EAV=341 13$CK=0.827 3$CL=0.1143 5$CM+=0.03190 14
133BA G 278.835 17 100.0 32M1+E2 0.9 16 0.0580 11 C
133BA3 G CEK=100E+1 15$ CEL=145 25 $ CEM=35 6 (1966Ha23)
133BA3 G EKC=0.044 7 $ ELC=0.0064 11 $ EMC=0.0016 3
133BAS G KC=0.0485 21$LC=0.0075 10$MC=0.00157 22$NC+=0.00039 5
133BAS G NC=0.00034 5$OC=5.0E-5 5$PC=3.0E-6 4
133BA cG MR$calculated by evaluators from I(ce) data (1966Ha23) using the
133BA2cG BrIccMixing program
133BA G 291.17 5 17.4 3 (E2) 0.0497 AC
133BA4 G CEK AP 120 $ CEL AP 25 (1966Ha23)
133BA3 G EKC AP 0.030 $ ELC AP 0.0065
133BAS G KC=0.0403 6$LC=0.00743 11$MC=0.001568 22$NC+=0.000382 6
133BAS G NC=0.000332 5$OC=4.76E-5 7$PC=2.28E-6 4
133BA L 302.395 113/2+
133BA E 0.054 8 2.10 11 6.97 3 2.15 11
133BAS E EAV=336 13$CK=0.828 3$CL=0.1145 5$CM+=0.03195 14
133BA G 290.06 5 56.5 5M1+E2 1.0 12 0.0521 13 AC
133BA3 G CEK=520 80 $ CEL=70 10 $ CEM=18 3 (1966Ha23)
133BA3 G EKC=0.041 6 $ ELC=0.0056 8 $ EMC=0.0014 2
133BAS G KC=0.0439 21$LC=0.0065 7$MC=0.00135 16$NC+=0.00033 4
133BAS G NC=0.00029 3$OC=4.3E-5 4$PC=2.8E-6 3
133BA cG MR$Calculated by evaluators with BrIccMixing program from
133BA2cG ce(K)=520 {I80}, ce(L1)=70 {I10} and ce(M)=18 {I3} (1966Ha23)
133BA cG E$level energy difference is 290.044 {I8}; 290.275 {I22} in 1980VyZZ
133BA G 302.38 4 65.9 21M1 0.0475 AC
133BA3 G CEK=604 21 $ CEL=69 8 $ CEM=15 4
133BA4 G ELC=0.0047 6 $ EMC=0.0010 3
133BAS G KC=0.0408 6$LC=0.00534 8$MC=0.001098 16$NC+=0.000276 4
133BAS G NC=0.000237 4$OC=3.63E-5 5$PC=2.66E-6 4
133BA L 539.800 13 1/2+
133BA G 527.464 15 3.22 11M1,E2 0.0100 16 C
133BA3 G CEK=6.0 5 $ EKC=0.0083 8
133BAS G KC=0.0085 14$LC=0.00117 11$MC=0.000242 21$NC+=6.0E-5 6
133BAS G NC=5.2E-5 5$OC=7.9E-6 9$PC=5.4E-7 11
133BA L 577.553 13 7/2+
133BA E 0.0019 5 0.43 3 7.51 4 0.43 3
133BAS E EAV=216 13$CK=0.8451 9$CL=0.11764 22$CM+=0.03286 7
133BA G 286.4 4 1.22 4 M1,E2 0.0536 14 A
133BA3 G CEK=11 2 (1966Ha23)$ EKC=0.041 8
133BAS G KC=0.0447 24$LC=0.0070 9$MC=0.00147 20$NC+=0.00036 5
133BAS G NC=0.00031 4$OC=4.6E-5 5$PC=2.7E-6 4
133BA G 565.231 2021.6 8 E2 C
133BA3 G CEK=34.8 13 $ EKC= 0.0072 4
133BAS G CC=0.00708 10$KC=0.00598 9$LC=0.000872 13$MC=0.000181 3$NC+=4.49E-5 7
133BAS G NC=3.87E-5 6$OC=5.78E-6 8$PC=3.63E-7 5
133BA cG M$E2,M1 from conversion data. M1 ruled out from placement
133BA2cG in the level scheme
133BA L 630.567 10 5/2+
133BA E 0.0025 8 0.95 5 7.13 3 0.95 5
133BAS E EAV=192 13$CK=0.8464 6$CL=0.11800 19$CM+=0.03297 6
133BA G 328.18 3 1.19 7 M1+E2 0.0362 23
133BA3 G CEL=1.2 3 $ ELC=0.0046 12
133BAS G KC=0.030 3$LC=0.0046 3$MC=0.00095 8$NC+=0.000236 15
133BAS G NC=0.000204 14$OC=3.04E-5 12$PC=1.9E-6 3
133BA G 339.35 4 1.63 16M1+E2 0.0329 23
133BA3 G CEK=11 3 $ CEL=1.4 4 $ EKC=0.030 8 $ ELC=0.0039 11
133BAS G KC=0.028 3$LC=0.00414 21$MC=0.00086 6$NC+=0.000213 11
133BAS G NC=0.000184 10$OC=2.74E-5 8$PC=1.7E-6 3
133BA G 618.241 11 32.9 12M1 C
133BA3 G CEK=52.7 20 $ CEL=6.5 3 $ EKC=0.0074 4 $ ELC=0.00089 5
133BAS G CC=0.00781 11$KC=0.00673 10$LC=0.000859 12$MC=0.0001764 25$NC+=4.44E-5
133BAS G NC=3.81E-5 6$OC=5.85E-6 9$PC=4.34E-7 6
133BA G 630.578 255.6 2 E2
133BA3 G CEK=5.6 4 $ EKC=0.0045 4
133BAS G CC=0.00533 8$KC=0.00452 7$LC=0.000643 9$MC=0.0001332 19$NC+=3.31E-5 5
133BAS G NC=2.85E-5 4$OC=4.27E-6 6$PC=2.76E-7 4
133BA L 676.486 12 3/2+,5/2+
133BA E 0.0003112 0.192 17 7.80 5 0.192 17
133BAS E EAV=172 13$CK=0.8470 4$CL=0.11828 17$CM+=0.03306 5
133BA G 136.7 2 0.8 3 M1,E2 0.52 12 A
133BA3 G CEK=7 1 (1966Ha23)
133BA3 G EKC=0.4 2
133BAS G KC=0.40 6$LC=0.10 5$MC=0.020 11$NC+=0.005 3
133BAS G NC=0.0043 23$OC=0.0006 3$PC=2.27E-5 5
133BA G 374.13 9 0.33 5
133BA G 385.295 14 3.10 11M1+E2 0.0231 23
133BA3 G CEK=16 5 $ CEL=2.5 7 $ CEM=0.7 3
133BA3 G EKC=0.023 8 $ ELC=0.0036 3 $ EMC=0.0010 4
133BAS G KC=0.0196 23$LC=0.00283 4$MC=0.000588 10$NC+=0.0001461 21
133BAS G NC=0.0001260 18$OC=1.89E-5 5$PC=1.22E-6 21
133BA G 664.21 13 3.77 10M1+E2 AC
133BA3 G CEK=4.0 9 $ EKC=0.0047 11
133BAS G CC=0.0056 10$KC=0.0048 9$LC=0.00064 9$MC=0.000132 17$NC+=3.3E-5 5
133BAS G NC=2.8E-5 4$OC=4.3E-6 6$PC=3.0E-7 6
133BA cG E$level energy difference is 664.155 {I12}; 664.009 {I23} in 1980VyZZ
133BA G 676.47 2 1.1 3 M1,E2
133BA3 G CEK=1.1 3 $ EKC=0.0044 17
133BAS G CC=0.0054 9$KC=0.0046 8$LC=0.00061 8$MC=0.000126 16$NC+=3.1E-5 5
133BAS G NC=2.7E-5 4$OC=4.1E-6 6$PC=2.9E-7 6
133BA L 858.499 11 3/2+
133BA E 1.16 6 6.89 3 1.16 6
133BAS E CK=0.8474 2$CL=0.11918 14$CM+=0.03334 5
133BA G 227.82 6 0.31 5 M1,E2 0.106 6
133BA3 G CEK=8 2 (1966Ha23)
133BA3 G EKC=0.15 4
133BAS G KC=0.0870 15$LC=0.015 4$MC=0.0031 8$NC+=0.00077 18
133BAS G NC=0.00067 16$OC=9.7E-5 20$PC=5.2E-6 5
133BA G 556.03 225.7 12M1,E2
133BA3 G CEK=8.3 8 $ CEL=0.7 3 $ EKC=0.0065 14 $ ELC=0.0006 3
133BAS G CC=0.0088 14$KC=0.0075 13$LC=0.00102 11$MC=0.000210 20$NC+=5.2E-5 6
133BAS G NC=4.5E-5 5$OC=6.8E-6 8$PC=4.7E-7 10
133BA G 567.26 4 8.4 4 M1,E2
133BA3 G CEK=9.7 6 $ EKC=0.0051 4
133BAS G CC=0.0083 14$KC=0.0071 12$LC=0.00096 10$MC=0.000199 20$NC+=5.0E-5 6
133BAS G NC=4.3E-5 5$OC=6.5E-6 8$PC=4.5E-7 9
133BA G 846.183 15 18.9 6 M1,E2
133BA3 G CEK=10 3 $ CEL=1.0 3 $ CEM=0.17 8
133BA3 G EKC=0.0024 8 $ ELC=0.00024 8 $ EMC=0.00004 2
133BAS G CC=0.0032 6$KC=0.0027 5$LC=0.00035 5$MC=7.2E-5 11$NC+=1.8E-5 3
133BAS G NC=1.56E-5 23$OC=2.4E-6 4$PC=1.7E-7 4
133BA G 858.496 15 15.4 5 M1,E2
133BA3 G CEK=9.0 4 $ CEL=0.87 15 $ CEM=0.32 11
133BA3 G EKC=0.0026 2 $ ELC=0.00026 5 $ EMC=0.00009 3
133BAS G CC=0.0031 6$KC=0.0026 5$LC=0.00034 5$MC=7.0E-5 10$NC+=1.8E-5 3
133BAS G NC=1.51E-5 22$OC=2.3E-6 4$PC=1.7E-7 4
133BA L 862.80 9 (7/2)+
133BA E 0.066 7 8.13 5 0.066 7
133BAS E CK=0.8474 2$CL=0.11920 14$CM+=0.03335 5
133BA G 560.28 21 0.73 21
133BA G 571.9 3 1.08 10M1,E2
133BA3 G CEK=1.2 3 $ EKC=0.0050 13
133BAS G CC=0.0082 13$KC=0.0070 12$LC=0.00094 10$MC=0.000195 20$NC+=4.9E-5 6
133BAS G NC=4.2E-5 5$OC=6.3E-6 8$PC=4.4E-7 9
133BA G 850.43 10 0.97 11 E2
133BA3 G CEK=1.0 3 $ EKC=0.005 2 (1966Ha23)
133BAS G CC=0.0031 6$KC=0.0027 5$LC=0.00035 5$MC=7.1E-5 10$NC+=1.8E-5 3
133BAS G NC=1.54E-5 22$OC=2.4E-6 4$PC=1.7E-7 4
133BA L 883.39 5 9/2+
133BA G 592.22 5 1.30 8 E2 C
133BA3 G CEK=2.0 5 $ EKC=0.0068 18
133BAS G CC=0.00626 9$KC=0.00530 8$LC=0.000764 11$MC=0.0001586 23$NC+=3.93E-5 6
133BAS G NC=3.39E-5 5$OC=5.07E-6 8$PC=3.23E-7 5
133BA cG M E2,M1 from conversion data. M1 ruled out from placement
133BA2cG in level scheme
133BA L 887.134 12 5/2+
133BA E 0.64 3 7.13 3 0.64 3
133BAS E CK=0.8473 2$CL=0.11932 14$CM+=0.03339 5
133BA G 210.54 6 0.20 5 M1,E2 0.135 11
133BA3 G CEK=10 2 (1966Ha23)
133BA3 G EKC=0.23 8
133BAS G KC=0.110 4$LC=0.020 6$MC=0.0041 13$NC+=0.0010 3
133BAS G NC=0.00087 25$OC=0.00013 3$PC=6.5E-6 5
133BA G 256.57 6 0.91 6 M1,E2 0.0741 14 A
133BA3 G CEK=16.5 25 (1966Ha23)
133BA3 G EKC=0.076 12
133BAS G KC=0.0614 17$LC=0.0100 18$MC=0.0021 4$NC+=0.00052 9
133BAS G NC=0.00045 8$OC=6.6E-5 10$PC=3.7E-6 4
133BA cG E$level energy difference is 256.547 {I14}; 256.340 {I26} in 1980VyZZ
133BA G 309.56 5 0.55 5 M1,E2 0.0428 20
133BA3 G CEK=5.8 18 $ EKC=0.047 15
133BAS G KC=0.036 3$LC=0.0055 5$MC=0.00115 12$NC+=0.000283 25
133BAS G NC=0.000245 23$OC=3.63E-5 22$PC=2.2E-6 3
133BA G 347.1 3 0.13 6 A
133BA G 584.734 10 7.01 23M1+E2
133BA3 G CEK=9.8 3 $ EKC=0.0063 3
133BAS G CC=0.0077 13$KC=0.0066 12$LC=0.00089 10$MC=0.000183 20$NC+=4.6E-5 6
133BAS G NC=3.9E-5 5$OC=6.0E-6 8$PC=4.2E-7 9
133BA G 595.94 9 15.9 5 M1(+E2)
133BA3 G CEK=28.4 11 $ CEL=5.0 10 $ EKC=0.0079 5 $ ELC=0.0014 3
133BAS G CC=0.0074 12$KC=0.0063 11$LC=0.00085 10$MC=0.000174 19$NC+=4.4E-5 5
133BAS G NC=3.8E-5 5$OC=5.7E-6 8$PC=4.0E-7 8
133BA G 874.83 3 1.66 8 M1,E2
133BA3 G CEK=0.69 10 $ CEL=0.14 4 $ EKC=0.0019 3 $ ELC=0.00038 11
133BAS G CC=0.0029 5$KC=0.0025 5$LC=0.00032 5$MC=6.7E-5 10$NC+=1.67E-5 25
133BAS G NC=1.44E-5 21$OC=2.2E-6 4$PC=1.6E-7 3
133BA G 887.164 240.88 4
133BA L 923.955 10 5/2+
133BA E 1.59 8 6.71 4 1.59 8
133BAS E CK=0.8470 2$CL=0.11950 15$CM+=0.03345 5
133BA G 293.17 11 1.0 2 M1,E2 0.0501 16 A ?
133BA3 G CEK AP 11 $ CEL AP 2 (1966Ha23)
133BA3 G EKC AP 0.050 $ ELC AP 0.009
133BAS G KC=0.0419 25$LC=0.0065 8$MC=0.00136 17$NC+=0.00034 4
133BAS G NC=0.00029 4$OC=4.3E-5 4$PC=2.6E-6 4
133BA cG E$this transition questionably populates the 630.567-keV level
133BA2cG (1976He11), poor fit, the level energy difference = 293.388 {I12}
133BA G 621.542 14 21.5 3 M1,E2
133BA3 G CEK=24 5 $ CEL=4.1 4 $ EKC=0.0049 11 $ ELC=0.00085 9
133BAS G CC=0.0066 11$KC=0.0057 10$LC=0.00076 9$MC=0.000156 18$NC+=3.9E-5 5
133BAS G NC=3.4E-5 4$OC=5.1E-6 7$PC=3.6E-7 8
133BA G 632.765 8 39.0 12M1
133BA3 G CEK=59 3 $ CEL=8.3 5 $ CEM=1.3 4
133BA3 G EKC=0.0067 4 $ ELC=0.00095 6 $ EMC=0.00015 5
133BAS G CC=0.00738 11$KC=0.00636 9$LC=0.000812 12$MC=0.0001666 24$NC+=4.19E-5 6
133BAS G NC=3.60E-5 5$OC=5.53E-6 8$PC=4.10E-7 6
133BA G 911.647 13 3.88 16M1,E2
133BA3 G CEK=1.9 4 $ EKC=0.0022 5
133BAS G CC=0.0027 5$KC=0.0023 4$LC=0.00029 5$MC=6.1E-5 9$NC+=1.52E-5 22
133BAS G NC=1.30E-5 19$OC=2.0E-6 3$PC=1.4E-7 3
133BA G 923.9 2 0.90 5 A
133BA L 1021.584 233/2+
133BA E 0.115 7 7.77 4 0.115 7
133BAS E CK=0.8463 3$CL=0.12005 18$CM+=0.03363 6
133BA G 158.4 3 0.07 3 E2 0.33 6 A
133BA3 G CEK=4 1 $ EKC=0.26 12 (1966Ha23)
133BAS G KC=0.26 3$LC=0.055 24$MC=0.012 6$NC+=0.0028 12
133BAS G NC=0.0024 11$OC=0.00035 14$PC=1.48E-5 5
133BA cG E$this transition questionably populates the 862.80-keV level in
133BA2cG 1976He11, however, the level energy difference (158.78 {I9}) fits
133BA G 345.1 4 0.06 5 A
133BA cG E$this transition questionably populates the 676.486-keV level in
133BA2cG 1976He11, however, the level energy difference (345.098 {I25}) fits
133BA G 481.73 3 1.39 8 M1,E2 0.0127 18
133BA3 G CEK=3.0 4 $ EKC=0.0096 13
133BAS G KC=0.0108 17$LC=0.00150 11$MC=0.000310 20$NC+=7.7E-5 6
133BAS G NC=6.7E-5 5$OC=1.00E-5 9$PC=6.8E-7 13
133BA G 719.44 14 0.14 3
133BA G 1009.31 4 2.80 13M1
133BA3 G CEK=1.28 13 $ CEL=0.16 4 $ EKC=0.0021 2 $ ELC=0.00026 7
133BAS G CC=0.00244 4$KC=0.00211 3$LC=0.000265 4$MC=5.44E-5 8$NC+=1.369E-5 20
133BAS G NC=1.175E-5 17$OC=1.81E-6 3$PC=1.352E-7 19
133BA G 1021.62 5 0.215 15
133BA L 1112.344 12 3/2+,5/2+,7/2+
133BA E 0.318 17 7.24 4 0.318 17
133BAS E CK=0.8455 3$CL=0.12067 22$CM+=0.03383 7
133BA G 435.82 3 1.02 6 E2 0.01452
133BA3 G CEK=2.6 5 $ EKC=0.012 3
133BAS G KC=0.01212 17$LC=0.00190 3$MC=0.000398 6$NC+=9.79E-5 14
133BAS G NC=8.47E-5 12$OC=1.247E-5 18$PC=7.20E-7 10
133BA G 534.796 10 2.00 7 M1,E2
133BA3 G CEK=3.7 4 $ EKC=0.0082 9
133BAS G CC=0.0097 15$KC=0.0083 14$LC=0.00113 11$MC=0.000233 21$NC+=5.8E-5 6
133BAS G NC=5.0E-5 5$OC=7.6E-6 9$PC=5.2E-7 11
133BA G 809.976 191.69 6 M1,E2
133BA3 G CEK=1.0 2 $ CEL=0.16 4 $ EKC=0.0026 6 $ ELC=0.00043 11
133BAS G CC=0.0035 6$KC=0.0030 6$LC=0.00039 6$MC=8.0E-5 12$NC+=2.0E-5 3
133BAS G NC=1.73E-5 25$OC=2.6E-6 4$PC=1.9E-7 4
133BA G 821.13 3 0.50 3 M1
133BA3 G CEK=0.40 5 $ EKC=0.0036 5
133BAS G CC=0.00395 6$KC=0.00341 5$LC=0.000432 6$MC=8.86E-5 13$NC+=2.23E-5 4
133BAS G NC=1.91E-5 3$OC=2.94E-6 5$PC=2.19E-7 3
133BA G 1099.99 2 7.7 4 E2
133BA3 G CEK=2.4 2 $ CEL=0.26 3 $ CEM=0.11 3
133BA3 G EKC=0.0014 2 $ ELC=0.00015 2 $ EMC=0.00006 2
133BAS G CC=0.001477 21$KC=0.001270 18$LC=0.0001646 23$MC=3.38E-5 5$NC+=8.5E-6 4
133BAS G NC=7.28E-6 11$OC=1.109E-6 16$PC=7.89E-8 11
133BA G 1111.9 4 0.09 4 A
133BA cG E$this transition questionably populates the g.s. in 1976He11,
133BA2cG the level energy difference = 1112.344 {I12}
133BA L 1211.792 12 3/2+,5/2+
133BA E 0.168 11 7.42 5 0.168 11
133BAS E CK=0.8444 4$CL=0.1215 3$CM+=0.03410 9
133BA G 324.76 10 0.32 5
133BA G 353.28 4 0.94 7 E2 0.0271
133BA3 G CEK=3.8 7 $ EKC=0.018 4
133BAS G KC=0.0223 4$LC=0.00378 6$MC=0.000794 12$NC+=0.000195 3
133BAS G NC=0.0001687 24$OC=2.45E-5 4$PC=1.296E-6 19
133BA G 581.39 8 0.48 5 M1,E2
133BA cG E$ poor fit, the level energy difference = 581.224 {I14}
133BA cG M$ M1,(E2) in 1983JoZX
133BA3 G CEK=0.98 30 $ EKC=0.0083 30
133BAS G CC=0.0078 13$KC=0.0067 12$LC=0.00090 10$MC=0.000186 20$NC+=4.7E-5 6
133BAS G NC=4.0E-5 5$OC=6.1E-6 8$PC=4.2E-7 9
133BA G 671.997 17 1.4 3 M1,E2
133BA3 G CEK=1.3 3 $ EKC=0.0041 13
133BAS G CC=0.0055 10$KC=0.0047 9$LC=0.00062 8$MC=0.000128 16$NC+=3.2E-5 5
133BAS G NC=2.8E-5 4$OC=4.2E-6 6$PC=3.0E-7 6
133BA G 909.27 8 0.38 2 M1
133BA3 G CEK=0.21 4 $ EKC=0.0025 5
133BAS G CC=0.00311 5$KC=0.00269 4$LC=0.000339 5$MC=6.95E-5 10$NC+=1.749E-5 25
133BAS G NC=1.501E-5 21$OC=2.31E-6 4$PC=1.724E-7 25
133BA G 920.623 240.77 4 M1
133BA3 G CEK=0.51 10 $ EKC=0.0029 6
133BAS G CC=0.00302 5$KC=0.00261 4$LC=0.000329 5$MC=6.75E-5 10$NC+=1.699E-5 24
133BAS G NC=1.458E-5 21$OC=2.24E-6 4$PC=1.675E-7 24
133BA G 1199.447 220.83 6 M1
133BA3 G CEK=0.28 3 $ EKC=0.0015 2
133BAS G CC=0.001653 24$KC=0.001423 20$LC=0.0001780 25$MC=3.65E-5 6$NC+=1.517E-5
133BAS G NC=7.88E-6 11$OC=1.213E-6 17$PC=9.09E-8 13$IPC=5.99E-6 9
133BA G 1211.760 251.76 12M1,E2
133BA3 G CEK=0.9 3 $ EKC=0.0022 7 (1966Ha23)
133BAS G CC=0.00142 21$KC=0.00122 18$LC=0.000154 21$MC=3.2E-5 5$NC+=1.55E-5 10
133BAS G NC=6.8E-6 9$OC=1.04E-6 15$PC=7.7E-8 13$IPC=7.58E-6 19
133BA L 1283.959 24 3/2-
133BA E 0.062 5 7.77 5 0.062 5
133BAS E CK=0.8434 5$CL=0.1222 4$CM+=0.03435 11
133BA G 1283.952 242.55 17(E1)
133BAS G CC=0.000555 8$KC=0.000419 6$LC=5.10E-5 8$MC=1.041E-5 15$NC+=7.49E-5 11
133BAS G NC=2.24E-6 4$OC=3.44E-7 5$PC=2.56E-8 4$IPC=7.22E-5 11
133BA cG M$this transition populates the 1/2+, g.s.; in {+132}Ba(pol d,p) L=1
133BA2cG for the 1283.9-keV state. Comparison of I|g and ce for 1283.9- and
133BA3cG 1199.5-keV (M1) transitions point at mult.=(E1) for the former
133BA L 1329.316 18 5/2+
133BA E 0.079 5 7.61 5 0.079 5
133BAS E CK=0.8427 5$CL=0.1228 4$CM+=0.03453 13
133BA G 441.9 4 0.07 5 M1,E2 0.0159 20 A
133BA3 G CEK=0.35 12 $ EKC=0.023 10
133BAS G KC=0.0135 19$LC=0.00191 9$MC=0.000395 16$NC+=9.8E-5 5
133BAS G NC=8.5E-5 4$OC=1.28E-5 9$PC=8.5E-7 16
133BA cG E$this transition questionably populates the 887.134-keV level
133BA2cG in 1976He11, the level energy difference = 442.182 {I19}
133BA G 445.3 3 0.17 10(E2) 0.01365 A
133BA3 G CEK=0.7 3 $ EKC=0.019 12
133BAS G KC=0.01141 17$LC=0.00178 3$MC=0.000371 6$NC+=9.15E-5 13
133BAS G NC=7.92E-5 12$OC=1.166E-5 17$PC=6.79E-7 10
133BA cG E$ poor fit, the level energy difference = 445.93 {I5}
133BA cG M M1,E2 from conversion data. M1 ruled out from placement
133BA2cG in level scheme
133BA G 653.04 11 0.41 7
133BA G 751.753 15 1.96 7 M1
133BA3 G CEK=1.9 4 $ EKC=0.0044 8
133BAS G CC=0.00488 7$KC=0.00421 6$LC=0.000534 8$MC=0.0001095 16$NC+=2.76E-5 4
133BAS G NC=2.36E-5 4$OC=3.64E-6 5$PC=2.71E-7 4
133BA G 1038.18 5 0.27 2 M1
133BA3 G CEK=0.15 4 $ EKC=0.0025 7
133BAS G CC=0.00229 4$KC=0.00198 3$LC=0.000248 4$MC=5.09E-5 8$NC+=1.282E-5 18
133BAS G NC=1.100E-5 16$OC=1.693E-6 24$PC=1.266E-7 18
133BA G 1317.24 5 0.92 7 ?
133BA cG E$poor fit: the level energy difference is equal to 1316.973 {I17}
133BA G 1329.33 5 0.34 3 *
133BA cG E$other transition questionably populates the 291.186-keV level from
133BA2cG the 1620.56-keV level (1976He11)
133BA L 1352.76 5 7/2+
133BA E 0.131 9 7.36 5 0.131 9
133BAS E CK=0.8423 6$CL=0.1231 4$CM+=0.03463 14
133BA G 428.7 2 0.17 6 M1 0.0194 A
133BA3 G CEK=1.0 3 $ EKC=0.021 6
133BAS G KC=0.01665 24$LC=0.00215 3$MC=0.000443 7$NC+=0.0001113 16
133BAS G NC=9.56E-5 14$OC=1.467E-5 21$PC=1.081E-6 16
133BA cG E$428.53 {I9} is placed from the 1351-keV (3/2+,5/2+) level
133BA2cG (1980VyZZ), but this level is not supported by others, the level
133BA3cG energy difference is equal to 428.74 {I5}
133BA G 465.53 11 0.42 6 A
133BA G 469.41 5 0.85 6 M1 0.01541
133BA3 G CEK=2.5 3 $ EKC=0.013 2
133BAS G KC=0.01326 19$LC=0.001709 24$MC=0.000351 5$NC+=8.84E-5 13
133BAS G NC=7.58E-5 11$OC=1.164E-5 17$PC=8.60E-7 12
133BA G 494.5 3 0.12 6 A
133BA cG E$this transition populates the 858.499-keV level questionably
133BA2cG (1976He11), the level energy difference = 494.20 {I5}
133BA G 722.01 15 0.127 23
133BA G 775.31 18 0.109 25M1
133BA3 G CEK=0.15 5 $ EKC=0.006 3
133BAS G CC=0.00453 7$KC=0.00391 6$LC=0.000495 7$MC=0.0001017 15$NC+=2.56E-5 4
133BAS G NC=2.20E-5 3$OC=3.38E-6 5$PC=2.51E-7 4
133BA G 1061.56 223.38 23M1+E2
133BA3 G CEK=1.09 10 $ CEL=0.22 4 $ EKC=0.0015 2 $ ELC=0.00029 6
133BAS G CC=0.0019 3$KC=0.0016 3$LC=0.00021 3$MC=4.2E-5 6$NC+=1.07E-5 16
133BAS G NC=9.2E-6 13$OC=1.40E-6 21$PC=1.03E-7 18
133BA G 1340.2 3 0.18 3 A
133BA L 1528.64 9 3/2,5/2+
133BA E 0.0054 8 8.48 9 0.0054 8
133BAS E CK=0.8379 11$CL=0.1264 8$CM+=0.0357 3
133BA G 1516.34 20 0.07 2
133BA G 1528.62 10 0.15 2
133BA L 1532.40 8 3/2,5/2,7/2+
133BA E 0.0061 7 8.42 8 0.0061 7
133BAS E CK=0.8377 11$CL=0.1265 8$CM+=0.0358 3
133BA G 1230.06 9 0.16 2
133BA G 1241.04 15 0.092 16
133BA L 1563.399 24 5/2+
133BA E 0.055 4 7.41 7 0.055 4
133BAS E CK=0.8366 12$CL=0.1274 9$CM+=0.0360 3
133BA G 932.98 7 0.51 4 M1
133BA3 G CEK=0.34 9 $ EKC=0.0030 8
133BAS G CC=0.00293 5$KC=0.00253 4$LC=0.000319 5$MC=6.54E-5 10$NC+=1.646E-5 23
133BAS G NC=1.413E-5 20$OC=2.17E-6 3$PC=1.623E-7 23
133BA cG E$poor fit: the level energy difference is equal to 932.831 {I25}
133BA G 1261.01 3 0.98 7
133BA G 1550.97 5 0.41 3
133BA G 1563.36 6 0.36 3
133BA L 1620.56 4 5/2+
133BA E 0.061 4 7.25 7 0.061 4
133BAS E CK=0.8340 16$CL=0.1293 12$CM+=0.0367 4
133BA G 733.63 10 0.094 15 ?
133BA3 G CEK=0.26 8 $ EKC=0.012 4
133BA cG E$poor fit: the level energy difference is equal to 733.36 {I3}
133BA cG M$|a(K)exp value does not correspond to mult.=D or E2
133BA G 1043.02 4 0.33 3 M1
133BA3 G CEK=0.16 4 $ EKC=0.0022 6
133BAS G CC=0.00227 4$KC=0.00196 3$LC=0.000246 4$MC=5.04E-5 7$NC+=1.268E-5 18
133BAS G NC=1.088E-5 16$OC=1.674E-6 24$PC=1.253E-7 18
133BA G 1080.9 4 0.13 2 A
133BA cG E$1081.04 {I11} in 1980VyZZ
133BA G 1329.33 5 0.34 3 *
133BA cG E$questionable population in 1976He11, the level energy difference =
133BA2cG 1329.38 {I4}; other transition populates the g.s. from the 1329.3-keV
133BA3cG level
133BA G 1608.35 13 1.67 11 A
133BA cG E$the level energy difference is equal to 1608.24 {I4}; 1608.09 {I3}
133BA2cG in 1980VyZZ
133BA G 1620.9 7 0.05 2 A
133BA L 1689.74 6 3/2+,5/2,7/2+
133BA E 0.0177 22 7.63 10 0.0177 22
133BAS E CK=0.8297 24$CL=0.1326 18$CM+=0.0378 6
133BA G 802.3 4 0.12 6 A
133BA G 1111.9 4 0.09 4 A
133BA cG E$this transition questionably populates the 577.553-keV level
133BA2cG (1976He11), the level energy difference = 1112.19 {I6}
133BA G 1387.41 7 0.136 15
133BA G 1398.49 8 0.19 2
133BA G 1677.3 3 0.19 3 A
133BA cG E$1677.01 {I9} in 1980VyZZ
133BA L 1706.94 19 3/2,5/2+
133BA E 0.0120 9 7.75 9 0.0120 9
133BAS E CK=0.828 3$CL=0.1336 20$CM+=0.0381 7
133BA G 848.4 3 0.34 7 A ?
133BA G 1404.7 4 0.117 17 A
133BA G 1415.9 3 0.158 18 A
133BA G 1694.4 4 0.178 16 A
133BA G 1706.7 4 0.038 10 A
133BA L 1769.70 5 3/2,5/2+
133BA E 0.0111 6 7.60 11 0.0111 6
133BAS E CK=0.822 5$CL=0.139 4$CM+=0.0398 11
133BA G 1467.28 13 0.074 10
133BA G 1478.72 9 0.069 7
133BA cG E$poor fit: the level energy difference is equal to 1478.51 {I5}
133BA G 1757.06 200.063 10
133BA G 1769.60 7 0.25 2
133BA L 1830.22 3 3/2,5/2+
133BA E 0.0027 6 7.98 17 0.0027 6
133BAS E CK=0.811 8$CL=0.147 6$CM+=0.0424 20
133BA G 1818.1 4 0.05 1 A
133BA G 1830.21 3 0.06 2 A