132LA 132CE EC DECAY (3.51 H) 1985AB01 05NDS 200504
132LA H TYP=FUL$AUT=YU. KHAZOV, A.A. RODIONOV AND S. SAKHAROV, BALRAJ SINGH$
132LA2 H CIT=NDS 104, 497 (2005)$CUT=10-Feb-2005$
132LA c 1985Ab01: Measured E|g, I|g, x-ray, ce. Deduced level scheme.
132LA c Others: 1973Mo08, 1968Ab02 (also 1969AbZX,1966Ab05), 1967Ge11 (also
132LA2c 1969Ge11,1965Ge03)
132LA cG |a(exp), Ice: normalized to |a(K)(182.11)=0.0387 (E1,
132LAxcG 1968Ha53)
132LA cG M,MR,TI$ From ce data
132CE P 0.0 0+ 3.51 H 11 1270 40
132LA N 0.774 5 0.774 5 1.0 1.0
132LA cN NR$ |SI(|g+ce)(to g.s.)=100
132LA PN 3
132LA G 76.2 1 0.02 LE
132LA cG ce(K)=0.16 {I4}
132LA G 112.35 9 0.030 9 M1,E2
132LA cG |a(K)exp=1.0 {I2}, |a(L1)exp=0.17 {I4}
132LA G 134.1 1
132LA cG ce(K)=0.016 {I4}
132LA G 137.66 10 0.10 1 M1+E2 0.6 AP 0.5 AP
132LAS G KC= 0.399 $LC= 0.0778 $MC=0.01648 $NC+=0.00445
132LA cG |a(K)exp=0.50 {I8}, |a(L1)exp=0.060 {I12}, |a(L2)exp|?0.02
132LA G 147.4 1
132LA cG ce(K)=0.008 {I3}
132LA G 168.9 1
132LA cG ce(K)=0.008 {I3}
132LA G 217.6 1
132LA cG ce(K)=0.004 {I1}
132LA G 384.7 1
132LA cG ce(K)=0.003 {I1}
132LA G 498.7 1
132LA cG ce(K)=0.010 {I3}
132LA L 0.0 2-
132LA L 135.34 4 3-
132LA G 135.26 9 0.046 6 M1+E2 0.21 3 0.476 3
132LAS G KC= 0.4018 11$LC= 0.0583 14$MC= 0.0121 3$NC+=0.00333 8
132LA cG |a(K)exp=0.41 {I10}; |d from IT decay
132LA L 155.368 21 2+
132LA G 20.00 5 0.011 3 [E1] 3.42 0.048 14
132LAS G LC= 2.68 $MC= 0.556
132LA cG TI from intensity balance at 135.4 level
132LA cG RI from I(|g+ce) and |a; I|g|<0.06 (1985Ab01)
132LA G 155.37 4 13.6 6 E1 0.0698
132LAS G KC= 0.0598 $LC=0.00795 $MC=0.00163 $NC+=0.00044
132LA cG |a(K)exp=0.055 {I6}, |a(L1)exp=0.0060 {I7},
132LAxcG |a(L2)exp=0.00066 {I15}, |a(L3)exp=0.00088 {I8}
132LA L 182.071 211+ 0.83 NS 11
132LA cL T from ce|g(t) (1973Mo08)
132LA E 77.1 6 4.97 4
132LAS E CK=0.8451 4$CL=0.12081 25$CM+=0.03412 8
132LA G 26.65 5 0.28 3 M1+E2 0.024 3 8.04 7
132LAS G LC= 6.31 5$MC= 1.304 12
132LA cG |a(L1)exp=3.2 {I6}, |a(L2)exp=0.35 {I5}, |a(L3)exp=0.125
132LAxcG {I20}
132LA G 182.11 3 100 E1 0.0451
132LAS G KC= 0.0387 $LC=0.00510 $MC=0.00105 $NC+=0.00028
132LA cG |a(L1)exp=0.0043 {I6}, |a(L2)exp=0.00043 {I6},
132LAxcG |a(L3)exp=0.00054 {I6}
132LA L 216.855 23 2+
132LA G 34.71 5 0.46 5 M1+E2 0.028 11 3.65 9
132LAS G LC= 2.86 7$MC= 0.592 15
132LA cG |a(L1)exp=1.0 {I2}, |a(L2)exp=0.10 {I2}, |a(L3)exp|?0.035
132LA G 61.49 5 0.24 2 M1+E2 0.06 3 4.49 4
132LAS G KC= 3.815 4$LC= 0.537 24$MC= 0.112 6$NC+= 0.0307 14
132LA cG |a(K)exp=4.2 {I6}, |a(L1)exp=0.50 {I9}, |a(L2)exp=0.050
132LAxcG {I9}, |a(L3)exp|?0.013
132LA G 81.53 7 0.015 LEE1 0.415 0.02 1
132LAS G KC= 0.353 $LC= 0.0496 $MC=0.01017 $NC+=0.00266
132LA cG |a(K)exp|>0.4
132LA G 216.83 4 6.4 3 E1 0.0281
132LAS G KC=0.02417 $LC=0.00315 $MC=0.00065 $NC+=0.00017
132LA cG |a(K)exp=0.025 {I5}, |a(L1)exp=0.0027 {I5},
132LAxcG |a(L2)exp=0.00025 {I6}, |a(L3)exp=0.00030 {I7}
132LA L 279.14 4 1+
132LA E 2.1 3 6.45 8
132LAS E CK=0.8442 4$CL=0.1214 3$CM+=0.03433 10
132LA G 62.27 6 0.13 1 M1+E2 0.05 3 4.32 3
132LAS G KC= 3.677 3$LC= 0.512 19$MC= 0.106 5$NC+= 0.0293 11
132LA cG |a(K)exp=4.0 {I7}, |a(L1)exp=0.51 {I7}, |a(L2)exp=0.045
132LAxcG {I7}, |a(L3)exp|?0.015
132LA G 123.66 9 0.10 1 M1+E2 0.4 3 0.65 7
132LAS G KC= 0.530 25$LC= 0.09 4$MC= 0.020 8$NC+= 0.0053 19
132LA cG |a(K)exp=0.66 {I10}, |a(L1)exp=0.080 {I22}, |a(L2)exp|<0.02
132LA G 279.12 7 2.5 3 E1 0.01440
132LAS G KC=0.01239 $LC=0.00160 $MC=0.00033
132LA cG M |a(K)exp=0.012 {I4}
132LA L 359.05 4 1+,2+
132LA E 0.1 LT 7.7 GT
132LAS E CK=0.8434 5$CL=0.1221 4$CM+=0.03454 12
132LA G 142.18 8 0.64 5 M1+E2 0.23 5 0.414 4
132LAS G KC= 0.3496 15$LC= 0.0509 20$MC= 0.0106 5$NC+=0.00291 11
132LA cG |a(K)exp=0.36 {I7}, |a(L1)exp=0.044 {I10}, |a(L2)exp=0.006
132LAxcG {I2}, |a(L3)exp|<0.003
132LA G 176.84 7 0.250 13M1+E2 0.8 4 0.24113
132LAS G KC= 0.195 4$LC= 0.036 8$MC= 0.0077 16$NC+= 0.0021 4
132LA cG |a(K)exp=0.22 {I5}, |a(L1)exp=0.032 {I8}, |a(L2)exp|?0.008
132LA L 406.87 31+
132LA E 6.4 3 5.84 5
132LAS E CK=0.8428 6$CL=0.1225 4$CM+=0.03468 14
132LA G 47.73 6 0.10 1 [M1] 9.37
132LAS G KC= 7.99 $LC= 1.086 $MC= 0.2257
132LA G 127.72 9 0.12 1 M1+E2 0.4 3 0.59 6
132LAS G KC= 0.483 21$LC= 0.08 3$MC= 0.018 7$NC+= 0.0048 16
132LA cG |a(K)exp=0.52 {I8}, |a(L1)exp=0.067 {I18}, |a(L2)exp<0.017
132LA G 190.04 5 3.45 15 M1+E2 0.28 4 0.1844 7
132LAS G KC=0.15635 12$LC= 0.0222 4$MC=0.00461 9$NC+=0.00127
132LA cG |a(K)exp=0.174 {I19}, |a(L1)exp=0.026 {I3}, |a(L2)exp=0.0023
132LAxcG {I3}, |a(L3)exp|<0.0012
132LA G 224.68 10 0.23 3 M1,E2 0.119 3
132LA cG |a(K)exp=0.083 {I17}
132LA G 251.46 4 2.9 2 M1+E2 0.50 5 0.08495 6
132LAS G KC=0.07169 23$LC=0.01048 13$MC=0.00218 3$NC+=0.00060
132LA cG |a(K)exp=0.086 {I12}, |a(L1)exp=0.0107 {I16},
132LAxcG |a(L2)exp=0.0017 {I3}, |a(L3)exp=0.00079 {I15}
132LA L 485.04 31+
132LA E 5.1 3 5.85 6
132LAS E CK=0.8417 7$CL=0.1233 5$CM+=0.03495 17
132LA G 78.2 1 0.015 LEM1,E2 0.032 7
132LA cG |a(K)exp|>1.3, |a(L1)exp|>0.2
132LA G 205.80 8 0.180 18 M1,E2 0.155 8
132LA cG |a(K)exp<0.11
132LA G 268.13 5 0.61 6 M1,E2 0.070 2
132LA cG |a(K)exp=0.044 {I7}
132LA G 303.12 4 2.7 2 M1,E2 0.049 3
132LA cG |a(K)exp=0.048 {I12}
132LA G 329.64 4 3.0 2 M1+E2 0.038 3
132LAS G KC= 0.0322 $LC=0.00492 $MC=0.00103 $NC+=0.00028
132LA cG |a(K)exp=0.032 {I5}, |a(L1)exp=0.0040 {I10}, |a(L2)exp<0.0007
132LA cG |d: <1.0
132LA L 523.83 41+
132LA E 1.48 10 6.35 6
132LAS E CK=0.8411 8$CL=0.1238 6$CM+=0.03511 19
132LA G 368.51 5 1.46 10M1,E2 0.028 3
132LA cG |a(K)exp=0.024 {I5}, |a(L1)exp=0.0041 {I7}
132LA G 523.78 4 0.54 6 E1 0.00309
132LAS G KC=0.00265 $LC=0.00033
132LA cG |a(K)exp|<0.0035
132LA L 606.744 241+
132LA E 4.0 2 5.81 7
132LAS E CK=0.8395 10$CL=0.1250 8$CM+=0.03551 24
132LA G 199.78 5 0.172 17M1,E2 0.17 1
132LA cG |a(K)exp=0.14 {I3}
132LA G 327.69 8 0.09 3
132LA cG ce(K)=0.003 {I1}
132LA G 389.83 5 0.25 3 M1,E2 0.024 3
132LA cG |a(K)exp=0.025 {I5}
132LA G 424.67 3 1.5 1 M1+E2 0.019 3
132LA cG |a(K)exp=0.018 {I5}, |a(L1)exp=0.0027 {I7}, |a(L2)exp<0.0007
132LA G 451.44 3 2.9 2 M1,E2 0.017 2
132LA cG |a(K)exp=0.0100 {I25}
132LA G 606.73 7 0.20 3
132LA L 648.33 41+
132LA E 1.61 14 6.14 8
132LAS E CK=0.8385 11$CL=0.1257 9$CM+=0.0358 3
132LA G 369.15 5 0.18 4
132LA cG ce(K)=0.005 {I1}
132LA G 431.49 4 1.25 9 M1,E2 0.018 3
132LA cG |a(K)exp=0.015 {I3}
132LA G 466.26 8 0.3 1
132LA cG ce(K)=0.004 {I1}
132LA G 492.95 9 0.4 1
132LA cG ce(K)=0.005 {I1}
132LA L 731.77 31+
132LA E 1.74 12 5.98 8
132LAS E CK=0.8360 16$CL=0.1276 12$CM+=0.0364 4
132LA G 83.43 6 0.015 LE M1,E2 0.07 2
132LA cG |a(K)exp|>2.6, |a(L1)exp|>0.3
132LA G 125.19 9 0.04 1
132LA cG ce(K)=0.012 {I3}
132LA G 246.90 7 0.24 3 M1,E2 0.089 1
132LA cG |a(K)exp=0.067 {I19}
132LA G 324.82 7 0.16 2 M1,E2 0.040 3
132LA cG |a(K)exp=0.050 {I14}
132LA G 514.8 1 0.35 9
132LA cG ce(K)=0.004 {I1}
132LA G 576.38 3 1.3 1 M1,E2 0.009 2
132LA cG |a(K)exp=0.0062 {I9}
132LA G 731.68 8 0.090 14
132LA L 820.02 5 1(+)
132LA E 0.44 8 6.41 12
132LAS E CK=0.8323 23$CL=0.1304 18$CM+=0.0373 6
132LA G 88.20 7 0.015 LE(M1,E2) 0.04 AP
132LA cG |a(K)exp>1.0
132LA G 296.00 12 0.13 4
132LA cG ce(K)=0.006 {I2}
132LA G 460.94 6 0.25 9
132LA cG ce(K)=0.003 {I1}
132LA G 820.34 10 0.15 2