120I 120XE EC DECAY 1974MU10 02NDS 200209
120I H TYP=FUL$AUT=K. KITAO, Y. TENDOW AND A. HASHIZUME$
120I 2 H CIT=NDS 96, 241 (2002)$CUT=1-DEC-2001$
120I c 1974Mu10: Ce(p,5pxn|g) E=600 MeV, on-line mass separation; semi |g, ce,
120I 2c |g|g, |g|g(t), (ce)(|g)(t).
120I c The decay scheme, E|g and I|g values are the same as given in the
120I 2c previous evaluation (1987Ha32); however, mult and |d values for
120I 3c some |g's have changed
120I 3c and recalculated values based on revised spin-parity assignments
120I 4c are given.
120I cL E From a least-squares fit to E(|g's) by the evaluators
120I cL J From adopted levels
120I cL T From |g|g(t) (1974Mu10), unless otherwise noted
120I cE IB %I|b=3 {I1} (1975Ho03)
120I cG E From 1974Mu10
120I cG CC All |a(L)exp and |a(K)exp are renormalized to |a(L)(E1)=1.21
120I xcG for 25.1|g
120I cG M,MR From |a(K)exp and/or |a(L)exp
120I N 0.088 81.0 1.0
120I cN NR based on assumption of no decay to {+120}I g.s., since
120I 2cN I(|e+|b{++})(g.s.)<0.1% for log| {If{+1u}t}>8.5.
120I PN 3
120XE P 0.0 0+ 40 M 1 1960 40
120I G 105.0 30.3 1
120I G 208.8 31.2 3
120I G 236.3 30.6 1
120I G 365.7 31.2 1
120I G 390.6 30.8 1
120I G 412.4 30.5 1
120I G 472.4 30.5 1
120I G 481.4 31.7 2
120I G 576.9 41.0 3
120I G 656.7 32.7 3
120I G 707.0 30.4 1
120I G 803.4 40.9 1
120I G 884.0 41.2 2
120I G 900.1 40.5 1
120I L 0.0 2- 81.6 M 2
120I cL T from adopted levels
120I L 25.07 81+ 13.6 NS 7
120I E 2.6 7 35 8 4.96 11 38 9
120I S E EAV=412 18$CK=0.796 9$CL=0.1066 13$CM+=0.0285 4
120I cE Authors deduced I(|b{++})/I(|e)=7% {I1} for decay to 25.1
120I xcE level.
120I G 25.1 2330 35E1 1.54 4 C
120I S G LC=1.21$MC=0.242
120I 3 G ELC=1.23 10$ L1/(L2+L3)=0.90 15
120I cG $L1:L2:L3=1:0.42:0.69
120I cG M from L-subshell ratios.
120I L 72.61 91+,2+,3+ 228 NS 15
120I G 47.3 30.6 1 [M1,E2] 17 11 &
120I S G KC=7.4 18$LC=7 7$MC=1.6 15
120I G 72.6 2100 E1 0.500 C
120I 3 G EKC=0.54 10$ ELC=0.089 20
120I S G KC=0.428 13$LC=0.0579 18$MC=0.0115 4$NC+=0.00266 8
120I L 89.81100-,1- 2.0 NS 2
120I E 0.17 5 2.9 8 6.01 12 3.1 8
120I S E EAV=383 18$CK=0.808 8$CL=0.1084 11$CM+=0.0290 3
120I G 64.8 30.8 1[E1] 0.686
120I S G KC=0.586 18$LC=0.0803 24$MC=0.0159 5$NC+=0.00367 11
120I G 89.8 219.9 20E2(+M1) 2.0 GT 2.44 16 C
120I 3 G EKC=1.57 25$ ELC=0.69 10
120I S G KC=1.61 8$LC=0.66 6$MC=0.139 13$NC+=0.032 3
120I L 102.25101+ 1.35 NS 5
120I E 0.09 7 1.7 12 6.2 4 1.8 13
120I S E EAV=378 18$CK=0.810 8$CL=0.1087 11$CM+=0.0291 3
120I G 77.2 244.0 30M1+E2 0.41 11 2.00 20 C
120I 3 G EKC=1.77 25$ ELC=0.34 8
120I S G KC=1.55 9$LC=0.36 9$MC=0.074 19$NC+=0.017 5
120I L 113.52 91+,2+,3+
120I G 40.9 27.4 22M1 10.1 @C
120I cG |a(L)exp=1.18 {I20} given for a doubly placed |g
120I S G KC=8.7 3$LC=1.15 4$MC=0.230 7
120I G 88.7 32.0 3[M1,E2] 1.9 9 C
120I S G KC=1.3 5$LC=0.4 4$MC=0.09 7$NC+=0.021 16
120I G 113.7 30.4 1 [E1] 0.143 &
120I S G KC=0.123 4$LC=0.0160 5$MC=0.00316 10$NC+=0.00074 2
120I L 153.77 91+
120I E 0.07 3 1.6 6 6.23 16 1.7 6
120I S E EAV=355 18$CK=0.819 7$CL=0.1100 10$CM+=0.0294 3
120I G 51.5 24.8 5M1 5.14 C
120I 3 G EKC=4.1 6
120I S G KC=4.42 14$LC=0.581 18$MC=0.117 4$NC+=0.0286 9
120I G 81.1 25.8 5M1+E2 1.8 5 3.2 4 C
120I 3 G EKC=1.90 20$ ELC=1.00 20
120I cG MR deduced from >1.3 from |a(L)exp and <2.3 from |a(K)exp
120I S G KC=2.04 16$LC=0.91 14$MC=0.19 3$NC+=0.044 7
120I G 128.8 217.5 15M1+E2 0.7 GT 0.60 12 C
120I 3 G EKC=0.49 10
120I S G KC=0.46 8$LC=0.11 4$MC=0.024 8$NC+=0.0055 18
120I G 153.8 30.5 1[E1] 0.0612
120I S G KC=0.0528 16$LC=0.00673 21$MC=0.00134 4$NC+=0.00032 1
120I L 158.63111+
120I E 0.041 18 1.0 4 6.46 18 1.0 4
120I S E EAV=353 18$CK=0.820 7$CL=0.1101 10$CM+=0.0295 3
120I G 56.7 41.0 2[M1] 3.89 C
120I S G KC=3.34 10$LC=0.439 14$MC=0.088 3$NC+=0.0216 7
120I G 86.1 26.5 5M1+E2 1.1 +9-4 2.2 5 C
120I 3 G EKC=1.48 25
120I S G KC=1.50 24$LC=0.54 19$MC=0.11 4$NC+=0.026 9
120I G 133.5 22.8 3[M1+E2] 0.49 16 C
120I S G KC=0.38 10$LC=0.08 5$MC=0.017 10$NC+=0.0041 23
120I G 159.0 30.3 1[E1] 0.0558
120I S G KC=0.0482 15$LC=0.00612 19$MC=0.00122 4$NC+=0.00029 1
120I L 171.86 91+,2+
120I G 69.6 210.5 15M1+E2 0.31 8 2.52 20 C
120I 3 G EKC=2.1 3$ ELC=0.42 8
120I S G KC=1.99 8$LC=0.42 10$MC=0.087 20$NC+=0.021 5
120I G 99.0 26.0 12[M1+E2] 1.3 6 @C
120I S G KC=1.0 3$LC=0.28 19$MC=0.06 4$NC+=0.013 10
120I G 146.9 23.1 3[M1+E2] 0.36 10 C
120I S G KC=0.28 7$LC=0.06 3$MC=0.012 7$NC+=0.0028 14
120I G 172.2 24.0 8[E1] 0.0447 @C
120I S G KC=0.0386 12$LC=0.00488 15$MC=0.00098 3$NC+=0.00023 1
120I L 200.95121+
120I E 0.15 5 4.3 12 5.78 12 4.5 12
120I S E EAV=335 18$CK=0.826 6$CL=0.1110 9$CM+=0.02972 23
120I G 47.3 30.6 1 & ?
120I G 111.3 31.1 2[E1] 0.151 C
120I S G KC=0.130 4$LC=0.0170 5$MC=0.00336 10$NC+=0.00079 2
120I G 176.0 350 10M1,E2 0.20 5 @C
120I cG |a(K)exp=0.15 {I4} given for a doubly placed |g
120I S G KC=0.16 3$LC=0.030 13$MC=0.006 3$NC+=0.0014 6
120I G 200.8 23.4 4[E1] 0.0292
120I S G KC=0.0253 8$LC=0.00317 10$MC=0.00063 2$NC+=0.00015 1
120I L 203.11111+
120I E 0.06 3 1.6 9 6.20 24 1.7 9
120I S E EAV=334 18$CK=0.826 6$CL=0.1110 9$CM+=0.02973 23
120I G 49.4 30.9 2[M1] 5.82
120I S G KC=4.99 15$LC=0.657 20$MC=0.132 4
120I G 101.3 31.3 2[M1+E2] 1.2 5
120I S G KC=0.9 3$LC=0.25 17$MC=0.05 4$NC+=0.012 9
120I G 113.7 30.4 1 & ?
120I G 178.1 275 6M1,E2 0.19 4 C
120I 3 G EKC=0.16 4
120I S G KC=0.16 3$LC=0.028 12$MC=0.0058 25$NC+=0.0014 6
120I G 203.5 32.5 3 & ?
120I L 212.37101+
120I E 0.11 4 3.5 11 5.87 14 3.6 11
120I S E EAV=330 18$CK=0.827 6$CL=0.1112 9$CM+=0.02978 23
120I G 40.9 21.6 5[M1] 10.1 @C
120I S G KC=8.7 3$LC=1.15 4$MC=0.230 7
120I G 53.4 30.8 2[M1] 4.63
120I S G KC=3.97 12$LC=0.523 16$MC=0.105 4$NC+=0.0257 8
120I G 58.3 41.1 2[M1] 3.58
120I S G KC=3.08 10$LC=0.405 13$MC=0.0811 25$NC+=0.0199 6
120I G 99.0 217.5 35(M1+E2) 0.8 +6-4 1.2 3 @C
120I cG |a(K)exp=0.89 {I15}, |a(L)exp=0.25 {I7} given for a doubly
120I xcG placed |g
120I S G KC=0.89 16$LC=0.24 11$MC=0.049 22$NC+=0.011 5
120I G 139.9 27.3 6[M1+E2] 0.42 13 C
120I S G KC=0.33 8$LC=0.07 4$MC=0.014 8$NC+=0.0034 18
120I L 278.42101,2
120I G 66.4 30.7 1
120I G 106.5 30.5 1
120I G 124.8 31.6 2 C
120I G 164.9 23.3 3
120I G 188.7 30.7 1 C
120I G 205.8 33.8 4 C
120I G 253.2 31.1 1
120I L 334.6312
120I G 176.0 310.5 21 @C
120I G 232.5 30.9 1 C
120I G 262.0 30.7 1 C
120I G 309.6 36.5 10 C
120I L 369.33160-,1
120I E 0.0040 14 0.30 6 6.86 9 0.30 6
120I S E EAV=261 18$CK=0.843 4$CL=0.1136 6$CM+=0.03045 15
120I G 157.0 30.9 1 C
120I G 197.3 30.3 1
120I G 210.8 30.8 2 C
120I G 279.6 34.2 4 C
120I L 375.35111+
120I E 0.019 8 1.5 4 6.16 12 1.5 4
120I S E EAV=259 18$CK=0.843 3$CL=0.1137 5$CM+=0.03047 14
120I G 97.0 32.1 3 C
120I G 172.2 211.0 22M1,E2 0.21 5 @C
120I cG |a(K)exp=0.17 {I4} given for a doubly placed |g
120I S G KC=0.17 4$LC=0.032 14$MC=0.007 3$NC+=0.0016 7
120I G 174.5 44.5 15[M1+E2] 0.20 5 C
120I S G KC=0.17 3$LC=0.030 13$MC=0.006 3$NC+=0.0015 6
120I G 203.5 32.5 3[M1+E2] 0.126 21 &C
120I S G KC=0.104 14$LC=0.018 6$MC=0.0036 13$NC+=0.0009 3
120I G 221.6 25.6 6[M1+E2] 0.097 14 C
120I S G KC=0.080 9$LC=0.013 4$MC=0.0027 9$NC+=0.00064 19
120I G 285.5 31.2 1 C
120I G 350.2 34.8 5 C
120I G 375.5 40.4 1 @C
120I L 396.30130-,1
120I E 0.0047 16 0.43 6 6.69 7 0.43 6
120I S E EAV=250 18$CK=0.844 3$CL=0.1140 5$CM+=0.03054 14
120I G 184.2 30.6 1
120I G 195.3 31.4 1
120I G 224.7 30.6 1
120I G 242.4 30.4 1
120I G 282.9 31.5 2
120I G 323.7 41.7 3
120I G 396.3 30.7 2
120I L 424.98190,1,2-
120I E 0.0009 6 0.10 6 7.3 3 0.10 6
120I S E EAV=237 18$CK=0.8462 24$CL=0.1143 5$CM+=0.03062 12
120I G 271.8 31.6 2 C
120I G 311.1 30.9 1
120I G 322.5 41.4 2 C
120I L 449.32101+
120I E 0.046 17 6.2 7 5.50 6 6.2 7
120I S E EAV=227 18$CK=0.8474 21$CL=0.1145 4$CM+=0.03069 11
120I G 246.3 22.6 3 C
120I G 295.6 212.5 15 C
120I G 335.9 211.6 16 C
120I G 346.9 36.0 10 C
120I G 359.5 210.5 15 C
120I G 376.5 51.4 4
120I G 424.2 313.5 15 C
120I G 449.2 218.4 20
120I L 476.46170,1
120I E 0.0026 11 0.43 7 6.64 8 0.43 7
120I S E EAV=215 18$CK=0.8486 18$CL=0.1147 4$CM+=0.03076 10
120I G 142.1 30.8 1[M1+E2] 0.40 12
120I S G KC=0.31 8$LC=0.07 4$MC=0.014 8$NC+=0.0032 17
120I G 404.0 31.5 2
120I G 451.1 33.0 5 C
120I L 489.79140,1
120I E 0.0009 6 0.17 9 7.03 24 0.17 9
120I S E EAV=209 18$CK=0.8491 17$CL=0.1148 4$CM+=0.03079 10
120I G 277.5 34.1 4 C
120I G 331.4 41.8 2
120I G 399.9 31.0 2
120I G 489.7 32.5 3 C
120I L 529.52140-,1
120I E 0.008 4 2.2 3 5.90 7 2.2 3
120I S E EAV=192 18$CK=0.8503 13$CL=0.1151 3$CM+=0.03087 9
120I G 317.2 32.3 2
120I G 375.5 42.6 8 @C
120I G 439.7 32.1 2 C
120I G 504.5 54.5 14 @C
120I G 529.4 315.3 16
120I L 580.66130-,1
120I E 0.006 3 2.6 4 5.79 8 2.6 4
120I S E EAV=169 18$CK=0.8514 9$CL=0.11546 25$CM+=0.03096 8
120I G 302.3 31.2 1
120I G 426.9 33.9 5 C
120I G 467.2 45.9 6 C
120I G 478.4 33.7 5 C
120I G 555.6 316.5 20 C
120I G 580.6 38.6 9 C
120I L 658.75180,1
120I E 0.64 8 6.35 7 0.64 8
120I S E CK=0.8523 4$CL=0.11587 20$CM+=0.03108 6
120I G 182.4 30.6 1[M1+E2] 0.18 4
120I S G KC=0.145 24$LC=0.026 11$MC=0.0053 22$NC+=0.0013 5
120I G 446.4 41.2 2
120I G 457.6 31.2 1
120I G 569.0 34.2 5 C
120I L 664.91150-,1
120I E 0.97 11 6.16 6 0.97 11
120I S E CK=0.8523 3$CL=0.11590 20$CM+=0.03109 6
120I G 462.1 30.9 1
120I G 464.1 41.5 2 C
120I G 551.4 31.5 2
120I G 562.5 32.7 3
120I G 664.7 44.9 6
120I L 677.29160,1
120I E 0.43 8 6.51 9 0.43 8
120I S E CK=0.8524 3$CL=0.11595 19$CM+=0.03111 6
120I G 342.1 32.8 4
120I G 519.0 30.8 1
120I G 604.8 33.6 4 C
120I G 652.4 31.2 2
120I L 707.73140-,1
120I E 1.80 21 5.87 6 1.80 21
120I S E CK=0.8524 1$CL=0.11609 18$CM+=0.03115 6
120I G 429.4 32.5 3
120I G 495.3 40.6 2
120I G 504.5 53.0 9 @C
120I G 506.9 52.0 5 C
120I G 535.9 32.1 2 C
120I G 594.2 36.0 7 C
120I G 682.6 36.2 7
120I L 850.77121+
120I E 5.0 5 5.31 6 5.0 5
120I S E CK=0.8519 3$CL=0.11671 20$CM+=0.03135 6
120I G 401.4 32.4 3
120I G 516.2 43.3 5 C
120I G 572.4 43.7 6
120I G 638.5 33.3 4 C
120I G 647.8 34.3 6 C
120I G 678.9 218.2 17 C
120I G 697.0 41.9 2 C
120I G 737.3 30.8 1
120I G 748.4 411.8 12 C
120I G 778.1 50.7 1
120I G 825.4 43.9 5 C
120I G 850.7 42.2 2
120I L 897.83140-,1
120I E 1.36 14 5.84 6 1.36 14
120I S E CK=0.8516 3$CL=0.11694 22$CM+=0.03142 7
120I G 407.9 31.1 1
120I G 619.5 31.0 1
120I G 685.5 32.7 3 C
120I G 694.7 41.4 3 C
120I G 726.0 35.5 5 C
120I G 744.1 51.6 3
120I G 872.6 31.7 2
120I G 898.0 40.4 1
120I L 965.62101+
120I E 15.9 16 4.71 6 15.9 16
120I S E CK=0.8512 4$CL=0.11731 25$CM+=0.03153 8
120I G 300.8 30.5 1
120I G 385.0 310.5 12 C
120I G 436.1 30.9 1
120I G 476.0 36.4 7 C
120I G 540.8 42.8 5
120I G 590.4 317.5 20 C
120I G 596.4 42.8 4
120I G 631.1 311.6 14 C
120I G 753.3 316.1 13 C
120I G 762.5 350.4 45 C
120I G 793.4 314.5 17 C
120I G 811.7 38.1 9 C
120I G 852.1 44.9 6 C
120I G 863.4 36.8 7 C
120I G 875.7 39.4 10 C
120I G 893.0 40.5 1
120I G 940.5 33.8 5
120I G 965.5 313.3 13
120I L 1023.52111+
120I E 2.39 24 5.48 6 2.39 24
120I S E CK=0.8507 4$CL=0.1177 3$CM+=0.03165 9
120I G 315.8 31.9 2
120I G 493.8 31.0 1
120I G 574.2 42.5 5
120I G 627.7 32.0 2
120I G 689.0 31.5 2 C
120I G 745.4 51.8 3
120I G 820.4 42.4 4 C
120I G 822.6 42.7 4 C
120I G 869.7 41.2 2 C
120I G 910.1 40.9 1
120I G 921.1 33.2 4 C
120I G 933.4 40.5 1
120I G 998.4 31.9 2
120I G 1023.3 33.7 5
120I L 1039.20170-,1
120I E 0.85 11 5.92 7 0.85 11
120I S E CK=0.8505 4$CL=0.1178 3$CM+=0.03168 9
120I G 663.6 51.3 3
120I G 704.7 31.1 2
120I G 867.1 42.6 4
120I G 880.9 30.6 2
120I G 885.2 43.6 5 C
120I G 925.5 40.5 1
120I L 1058.09180-,1
120I E 0.75 9 5.95 7 0.75 9
120I S E CK=0.8504 4$CL=0.1179 3$CM+=0.03172 10
120I G 779.8 50.9 1
120I G 855.2 41.1 2 C
120I G 904.1 40.4 1
120I G 944.6 40.7 1
120I G 1033.2 45.2 5
120I G 1057.8 40.2 1
120I L 1086.24170-,1
120I E 0.26 4 6.38 8 0.26 4
120I S E CK=0.8501 5$CL=0.1181 4$CM+=0.03179 11
120I G 807.7 30.9 1
120I G 984.1 40.5 1
120I G 1013.4 40.3 1
120I G 1061.3 31.0 1
120I G 1086.3 40.3 1
120I L 1142.86151+
120I E 1.85 19 5.47 7 1.85 19
120I S E CK=0.8495 5$CL=0.1186 4$CM+=0.03193 12
120I G 465.7 43.5 4
120I G 693.5 40.7 2
120I G 930.4 42.4 3 C
120I G 971.0 33.4 4 C
120I G 989.1 36.5 6 C
120I G 1029.4 43.0 4
120I G 1117.8 40.6 1
120I G 1142.7 40.9 2