121TE 121I EC DECAY 1990MA55 10NDS 201006
121TE H TYP=FUL$AUT=S. OHYA$CIT=NDS 111, 1619 (2010)$CUT=20-Jan-2009$
121TE c 1990Ma55: {+92}Mo({+32}S,xnyp) E=175 MeV, mass separated source
121TE2c measured |g, |g|g, |a(exp); deduced decay scheme
121TE c 1980Bo35: Ce(p,spallation) E=660 MeV, mass separated source
121TE2c |g, |g|g coincidence, deduced levels, log| {Ift}.
121TE c 1968Gf02: sources produced by {+122}Te(d,3n); measured |g, |g|g.
121TE c 1970Sp03: sources from La(p,spallation) E(p)=3 GeV; measured |g, |g|g
121TE cL E E(levels) are based on a least-squares fit to E(|g's)
121TE cL J,T$From adopted levels
121TE cG E,RI From 1990Ma55, unless noted otherwise
121TE cG ECC normalized to |a(K)(258|g)=0.0514 (1990Ma55)
121TE cG E(R),RI(R)$From peak fitting of coincidence spectra
121TE cG E(D) ce line was not resolved
121TE cG E(E) ce line was corrected for {+121}Xe parent
121TE cG RI(P) Corrected for {+121}Xe parent decay
121TE cG RI(F) Corrected for {+121}Te daughter decay
121TE cG RI(N) No I|g value is given
121TE cG RI(L)$No numerical value is given in 1990Ma55. Evaluators deduced I|g
121TE2cG from I(|g+ce) values (1980Bo35)
121TE cG M From |a(exp) (1990Ma55), unless noted otherwise
121TE cG M(Q) Assumed to deduce |a
121I P 0.0 5/2+ 2.12 H 1 2292 26
121TE N 0.843 3 1.0 1.0
121TE cN NR no |b-feeding to g.s. (second forbidden |b); and assumed
121TE2cN |SI(|g+ce to g.s. + 294 level)=100
121TE PN 3
121TE G 202.27 9 0.051 7
121TE G 423.8 1 0.030 4
121TE G 629.9 2 0.018 2
121TE G 663.9 1 0.018 2
121TE G 670.2 2 0.008 2
121TE G 678.38 6 0.113 6
121TE G 772.6 2 0.011 2
121TE G 825.5 1 0.032 4
121TE G 838.4 3 0.011 2
121TE G 879.07 8 0.044 3
121TE G 981.4 2 0.010 2
121TE G 1019.99 8 0.040 4
121TE G 1029.4 3 0.007 2
121TE G 1046.5 2 0.014 2
121TE G 1052.4 2 0.011 2
121TE G 1082.3 2 0.011 2
121TE G 1100.0 2 0.009 2
121TE G 1132.8 1 0.026 2
121TE G 1142.0 3 0.005 2
121TE G 1146.7 3 0.009 2
121TE G 1212.8 2 0.014 2
121TE G 1267.9 5 0.004 2
121TE G 1308.7 2 0.011 2
121TE G 1316.3 4 0.004 1
121TE G 1339.8 1 0.035 2
121TE G 1480.5 1 0.014 1
121TE G 1493.0 2 0.007 1
121TE G 1512.8 2 0.006 1
121TE G 1523.1 1 0.013 1
121TE G 1535.7 3 0.008 2
121TE G 1543.4 4 0.007 2
121TE G 1549.7 1 0.028 3
121TE G 1553.0 2 0.020 3
121TE G 1564.3 2 0.009 1
121TE G 1574.5 3 0.004 1
121TE G 1630.8 1 0.009 2 P
121TE G 1656.4 2 0.007 1
121TE G 1757.9 2 0.011 2
121TE G 1770.4 4 0.004 2
121TE G 1774.9 2 0.008 1
121TE G 1777.4 2 0.010 1
121TE G 1781.0 3 0.004 1
121TE G 1786.4 3 0.004 1
121TE G 1800.5 2 0.010 1
121TE G 1834.7 3 0.005 1
121TE G 1840.3 1 0.013 1
121TE G 1868.1 3 0.004 1
121TE G 1891.6 2 0.005 1
121TE L 0.0 1/2+ 19.17 D 4
121TE L 212.197193/2+
121TE E 10.3 8 76.2 8 5.154 16 86.54 18
121TES E EAV=475 12$CK=0.754 8$CL=0.0999 11$CM+=0.0264 3
121TE G 212.20 4 100 M1+E2 +0.226 8 0.0869
121TES G KC=0.0747 11$LC=0.00982 14$MC=0.00196 3$NC+=0.000429 7
121TES G NC=0.000387 6$OC=4.16E-5 6
121TE cG M,MR from adopted gammas
121TE cG |a(K)exp=0.076 {I11}, |a(L)exp=0.0099 {I4}
121TE L 293.89 711/2- 164.2 D 8 M1
121TE L 438.46 7(9/2)-
121TE G 144.58 5 0.107 6 M1+E2 -0.29 10 0.259 13
121TES G KC=0.220 9$LC=0.031 4$MC=0.0063 7$NC+=0.00137 14
121TES G NC=0.00124 13$OC=0.000130 11
121TE cG M,MR from adopted gammas
121TE L 443.11 3 7/2+
121TE G 230.95 5 0.33 2 E2 0.0918
121TES G KC=0.0749 11$LC=0.01353 19$MC=0.00276 4$NC+=0.000581 9
121TES G NC=0.000530 8$OC=5.07E-5 8
121TE cG |a(K)exp=0.086 {I8}
121TE L 475.24323 5/2+
121TE G 263.07 7 0.082 5 [M1,E2] 0.054 6 Q
121TES G KC=0.045 4$LC=0.0068 16$MC=0.0014 4$NC+=0.00029 7
121TES G NC=0.00027 6$OC=2.7E-5 5
121TE cG |a(K)exp=0.028 {I7}
121TE G 475.28 4 1.21 5 E2
121TES G CC=0.00942 14$KC=0.00801 12$LC=0.001134 16$MC=0.000228 4$NC+=4.91E-5 7
121TES G NC=4.45E-5 7$OC=4.60E-6 7
121TE cG |a(K)exp=0.0090 {I5}, |a(L)exp=0.0016 {I3}
121TE L 532.05424 3/2+
121TE E 0.26 4 6.8 7 6.05 5 7.1 7
121TES E EAV=334 12$CK=0.824 4$CL=0.1097 6$CM+=0.02899 16
121TE G 56.8 1 0.070 6 [M1,E2] 8 5 P
121TE3 G FLAG=Q
121TES G KC=4.6 16$LC=2.9 25$MC=0.6 6$NC+=0.12 11
121TES G NC=0.11 10$OC=0.009 8
121TE G 319.90 4 1.11 5 M1,E2 0.0302 13
121TES G KC=0.0256 7$LC=0.0036 5$MC=0.00073 11$NC+=0.000158 21
121TES G NC=0.000143 20$OC=1.49E-5 14
121TE cG |a(K)exp=0.023 {I1}
121TE G 532.08 4 7.2 3 E2
121TES G CC=0.00686 10$KC=0.00585 9$LC=0.000808 12$MC=0.0001621 23$NC+=3.50E-5 5
121TES G NC=3.17E-5 5$OC=3.31E-6 5
121TE cG |a(K)exp=0.0057 {I3}, |a(L)exp=0.00077 {I5},
121TExcG |a(M)exp=0.00021 {I5}
121TE L 538.65 6 7/2-
121TE E 0.0031 6 0.082 11 7.97 6 0.085 11
121TES E EAV=332 12$CK=0.825 4$CL=0.1098 6$CM+=0.02903 16
121TE G 244.75 6 0.19 1 [E2] 0.0755 Q
121TES G KC=0.0619 9$LC=0.01089 16$MC=0.00222 4$NC+=0.000468 7
121TES G NC=0.000427 6$OC=4.11E-5 6
121TE L 594.49 3 5/2+
121TE E 0.014 2 0.52 4 7.14 4 0.53 4
121TES E EAV=307 12$CK=0.833 4$CL=0.1109 5$CM+=0.02932 14
121TE G 62.7 2 0.003 1 [M1,E2] 6 4 Q
121TES G KC=3.5 13$LC=1.8 16$MC=0.4 4$NC+=0.08 7
121TES G NC=0.07 6$OC=0.006 5
121TE G 151.3 1 0.013 2 [M1,E2] 0.30 9 Q
121TES G KC=0.24 6$LC=0.048 24$MC=0.010 5$NC+=0.0020 10
121TES G NC=0.0019 10$OC=0.00018 8
121TE G 382.25 4 0.56 3 M1 0.0184
121TES G KC=0.01589 23$LC=0.00199 3$MC=0.000396 6$NC+=8.70E-5 13
121TES G NC=7.84E-5 11$OC=8.55E-6 12
121TE cG |a(K)exp=0.018 {I1}
121TE G 594.50 5 0.41 2 R
121TE cG |a(K)exp=0.0040 {I6};
121TE2cG not resolved from neighboring peaks in ce spectra,
121TE3cG |a(exp) value was derived from the ratio of |g and ce composite areas
121TE L 681.29 6 1/2+
121TE E 0.0013 2 0.075 4 7.94 3 0.076 4
121TES E EAV=269 12$CK=0.8415 24$CL=0.1123 4$CM+=0.02969 11
121TE cE LOGFT$An expected log| {Ift} for a second forbidden transition is
121TE2cE >12.8. There is missing |g feeding to this level from higher levels.
121TE G 469.18 7 0.071 4 &
121TE G 681.1 1 0.019 2 &
121TE L 683.06 3(7/2)+
121TE E 0.012 2 0.71 4 6.96 3 0.72 4
121TES E EAV=269 12$CK=0.8416 24$CL=0.1123 4$CM+=0.02970 10
121TE cE LOGFT$An expected log| {Ift} for a second forbidden transition is
121TE2cE >12.8. There is missing |g feeding to this level from higher levels.
121TE G 207.81 7 0.127 6 [M1,E2] 0.111 21 Q
121TES G KC=0.092 15$LC=0.015 6$MC=0.0031 11$NC+=0.00065 22
121TES G NC=0.00059 20$OC=5.9E-5 17
121TE G 239.9 1 0.021 5 [M1,E2] 0.071 10 R
121TE3 G FLAG=Q
121TES G KC=0.060 7$LC=0.009 3$MC=0.0019 6$NC+=0.00040 11
121TES G NC=0.00036 10$OC=3.7E-5 8
121TE G 470.83 4 0.72 4 E2 F
121TES G CC=0.00968 14$KC=0.00823 12$LC=0.001167 17$MC=0.000234 4$NC+=5.05E-5 7
121TES G NC=4.58E-5 7$OC=4.73E-6 7
121TE cG |a(K)exp=0.0102 {I8}, |a(L)exp=0.0020 {I4}
121TE G 683.10 7 0.062 4
121TE L 757.92 6 (7/2-)
121TE G 219.3 1 0.028 3 [M1,E2] 0.094 16 Q
121TES G KC=0.078 11$LC=0.013 4$MC=0.0025 9$NC+=0.00054 17
121TES G NC=0.00049 16$OC=4.9E-5 13
121TE G 319.6 1 N
121TE G 546.2 2 0.011 2 ?
121TE cG $Data given in |g table, but not shown in the decay scheme (1990Ma55)
121TE L 806.69 5 3/2+
121TE E 0.0014 3 0.204 11 7.43 3 0.205 11
121TES E EAV=215 12$CK=0.8495 13$CL=0.11372 24$CM+=0.03008 7
121TE G 594.5 1 0.024 6 R
121TE G 806.63 5 0.26 1 D
121TE cG |a(K)exp=0.0026 {I5};
121TE2cG not resolved from neighboring peaks in ce spectra,
121TE3cG |a(exp) value was derived from the ratio of |g and ce composite areas
121TE L 810.92 3 (5/2+,7/2+)
121TE E 0.012 3 1.78 6 6.486 22 1.79 6
121TES E EAV=213 12$CK=0.8497 13$CL=0.11375 24$CM+=0.03009 7
121TE G 127.9 1 0.003 1 [M1,E2] 0.52 18 R
121TE3 G FLAG=Q
121TE G 278.87 6 0.152 8 (M1) 0.0413 E
121TES G KC=0.0357 5$LC=0.00451 7$MC=0.000900 13$NC+=0.000197 3
121TES G NC=0.0001781 25$OC=1.94E-5 3
121TE cG |a(K)exp=0.031 {I2};
121TE2cG corrected for {+121}Xe parent ce lines
121TE G 335.7 2 0.013 4
121TE G 367.80 5 0.108 5 [M1,E2] 0.0202 Q
121TES G KC=0.0173 4$LC=0.00239 20$MC=0.00048 5$NC+=0.000104 8
121TES G NC=9.4E-5 8$OC=9.8E-6 4
121TE G 598.74 5 1.74 7
121TE cG |a(K)exp=0.0051 {I2}, |a(L)exp=0.00068 {I12}
121TE G 810.91 6 0.149 7
121TE L 830.5111 (9/2)+
121TE E 6.0E-5 18 0.0109 17 8.69 7 0.0110 17
121TES E EAV=205 12$CK=0.8505 11$CL=0.11392 22$CM+=0.03013 7
121TE G 387.4 1 0.013 2
121TE L 887.62 6 (7/2+)
121TE E 0.000227 0.070 4 7.85 3 0.070 4
121TES E EAV=180 12$CK=0.8523 8$CL=0.11433 18$CM+=0.03025 5
121TE G 293.27 6 0.074 4 [M1,E2] 0.039 3 Q
121TES G KC=0.0329 17$LC=0.0048 9$MC=0.00097 18$NC+=0.00021 4
121TES G NC=0.00019 4$OC=1.94E-5 24
121TE G 412.0 1 0.006 1 R
121TE cG RI$Authors' value of 0.06 {I1} in |g table is possibly a misprint.
121TE2cG 0.006 in level scheme.
121TE L 912.23 4 5/2+
121TE E 0.0009 3 0.361 19 7.12 3 0.362 19
121TES E EAV=169 12$CK=0.8528 6$CL=0.11448 17$CM+=0.03029 5
121TE G 154.2 1 0.010 2 [E1] 0.0581 Q
121TES G KC=0.0502 7$LC=0.00635 9$MC=0.001258 18$NC+=0.000271 4
121TES G NC=0.000246 4$OC=2.57E-5 4
121TE G 317.82 6 0.093 5 [M1,E2] 0.0307 14 Q
121TES G KC=0.0261 8$LC=0.0037 6$MC=0.00075 11$NC+=0.000162 22
121TES G NC=0.000146 21$OC=1.51E-5 14
121TE G 380.2 1 0.022 2
121TE G 437.0 1 0.023 2
121TE G 469.18 7 0.071 4 &
121TE G 699.96 5 0.26 2
121TE cG |a(K)exp=0.0039 {I6};
121TE2cG not resolved from neighboring peaks in ce spectra,
121TE3cG |a(exp) value was derived from the ratio of |g and ce composite areas
121TE L 994.02 4 3/2+,5/2+
121TE E 0.167 8 7.40 3 0.167 8
121TES E CK=0.8539 3$CL=0.11491 13$CM+=0.03041 4
121TE G 518.9 1 0.012 3
121TE G 550.8 1 0.018 3
121TE G 781.85 6 0.098 5 E
121TE cG |a(K)exp=0.0007 {I1};
121TE2cG corrected for {+121}Xe parent ce lines
121TE G 994.03 6 0.102 5 M1,E2 E
121TES G CC=0.00166 20$KC=0.00144 18$LC=0.000177 19$MC=3.5E-5 4$NC+=7.7E-6 9
121TES G NC=7.0E-6 8$OC=7.6E-7 9
121TE cG |a(K)exp=0.0016 {I4};
121TE2cG corrected for {+121}Xe parent ce lines
121TE L 1148.65 4 5/2+
121TE E 0.470 12 6.834 24 0.470 12
121TES E CK=0.8538 2$CL=0.1156 2$CM+=0.03061 4
121TE G 554.2 1 0.035 4
121TE G 673.34 6 0.111 6
121TE G 705.5 1 0.039 5 R
121TE G 936.44 5 0.32 1 M1
121TES G CC=0.00212 3$KC=0.00185 3$LC=0.000224 4$MC=4.46E-5 7$NC+=9.80E-6 14
121TES G NC=8.83E-6 13$OC=9.68E-7 14
121TE cG |a(K)exp=0.0024 {I3}
121TE G 1148.9 1 0.066 4
121TE L 1170.20 63/2+,5/2+
121TE E 0.100 5 7.49 3 0.100 5
121TES E CK=0.8537 2$CL=0.11566 12$CM+=0.03064 4
121TE G 487.1 1 0.015 2
121TE G 957.96 7 0.052 3
121TE G 1170.3 1 0.052 4 P
121TE L 1172.86 6(5/2-,7/2+)
121TE E 0.174 6 7.25 3 0.174 6
121TES E CK=0.8537 2$CL=0.11567 12$CM+=0.03065 4
121TE G 489.9 2 0.011 2
121TE G 634.0 2 0.018 2
121TE G 640.8 1 0.097 4
121TE G 697.68 7 0.062 3 D
121TE G 734.3 1 0.018 2
121TE L 1185.5910
121TE E 0.0326 24 7.96 4 0.0326 24
121TES E CK=0.8536 2$CL=0.11573 12$CM+=0.03066 4
121TE G 502.5 1 0.019 2
121TE G 1185.7 2 0.009 2
121TE L 1226.88 3 5/2+
121TE E 0.567 14 6.690 25 0.567 14
121TES E CK=0.8534 2$CL=0.11592 13$CM+=0.03072 4
121TE G 420.2 3 0.011 3
121TE G 543.5 1 0.013 2
121TE G 632.2 1 0.023 2
121TE G 688.1 1 0.035 3
121TE G 694.89 5 0.22 1
121TE G 751.65 7 0.050 3
121TE G 783.8 2 0.014 2
121TE G 1014.75 5 0.28 1
121TE cG |a(K)exp=0.0012 {I4}
121TE G 1226.9 1 0.037 3
121TE L 1306.34 4 3/2
121TE E 0.268 8 6.95 3 0.268 8
121TES E CK=0.8528 2$CL=0.11634 16$CM+=0.03085 5
121TE G 548.62 9 0.032 3
121TE G 711.69 7 0.044 3 (E1)
121TES G CC=0.001210 17$KC=0.001053 15$LC=0.0001266 18$MC=2.51E-5 4$NC+=5.49E-6
121TES G NC=4.96E-6 7$OC=5.38E-7 8
121TE cG |a(K)exp=0.0011 {I5}
121TE G 831.2 1 0.034 3
121TE G 1094.20 6 0.107 5
121TE cG |a(K)exp=0.0015 {I8}
121TE G 1306.25 6 0.101 5
121TE L 1324.6512 (3/2+,5/2+)
121TE E 0.024 3 7.98 6 0.024 3
121TES E CK=0.8527 2$CL=0.11644 16$CM+=0.03088 5
121TE G 849.7 2 0.009 2
121TE G 1112.4 2 0.011 2
121TE G 1324.4 2 0.009 1
121TE L 1340.62 5 5/2+
121TE E 0.147 6 7.18 3 0.147 6
121TES E CK=0.8525 3$CL=0.11654 17$CM+=0.03091 5
121TE G 802.1 1 0.023 3
121TE G 808.3 2 0.025 4
121TE G 865.35 7 0.050 3
121TE G 1128.42 7 0.076 4
121TE L 1363.96 5 3/2+,5/2+
121TE E 0.186 6 7.05 3 0.186 6
121TES E CK=0.8524 3$CL=0.11668 18$CM+=0.03096 6
121TE G 681.1 1 0.019 2 &
121TE G 888.91 7 0.064 4
121TE G 1151.57 7 0.077 4
121TE G 1363.81 8 0.060 3
121TE L 1437.19 6
121TE E 0.078 6 7.35 5 0.078 6
121TES E CK=0.8517 3$CL=0.11720 21$CM+=0.03112 7
121TE G 443.3 1 0.032 3
121TE G 626.3 1 0.026 4
121TE G 754.2 2 0.011 2 E
121TE cG |a(K)exp=0.0041 {I7}
121TE G 842.5 1 0.024 3
121TE L 1486.62 4(7/2)+
121TE E 0.216 7 6.86 4 0.216 7
121TES E CK=0.8512 3$CL=0.11760 24$CM+=0.03124 8
121TE G 892.4 2 0.013 2
121TE G 954.5 2 0.010 2
121TE G 1011.23 6 0.088 5
121TE G 1043.65 7 0.068 4
121TE G 1274.47 9 0.037 3
121TE G 1486.6 1 0.040 2
121TE L 1540.1913
121TE E 0.024 4 7.75 8 0.024 4
121TES E CK=0.8505 4$CL=0.1181 3$CM+=0.03140 9
121TE G 628.2 2 0.014 2
121TE G 857.0 3 0.005 2
121TE G 1540.0 2 0.009 3 P
121TE L 1626.37 6
121TE E 0.089 13 7.07 8 0.089 13
121TES E CK=0.8492 5$CL=0.1191 4$CM+=0.03170 11
121TE G 1094.2 1 0.034 10 L
121TE G 1151.6 1 0.04 1 L
121TE3 G FL=475.243
121TE G 1413.8 1 0.031 3
121TE L 1681.03 53/2,5/2+
121TE E 0.144 5 6.78 5 0.144 5
121TES E CK=0.8482 6$CL=0.1198 5$CM+=0.03194 13
121TE G 768.80 9 0.039 3
121TE G 870.1 1 0.019 2
121TE G 874.1 1 0.030 3
121TE G 1086.52 9 0.033 2
121TE G 1469.1 1 0.018 2
121TE G 1681.0 1 0.032 2
121TE L 1730.71 5 3/2,5/2+
121TE E 0.134 6 6.74 5 0.134 6
121TES E CK=0.8471 7$CL=0.1207 5$CM+=0.03220 16
121TE G 1136.0 1 0.024 2
121TE G 1198.78 7 0.081 5
121TE G 1255.4 1 0.033 3
121TE G 1518.5 1 0.021 2
121TE L 1913.2312
121TE E 0.033 3 6.98 8 0.033 3
121TES E CK=0.8403 16$CL=0.1259 13$CM+=0.0338 4
121TE G 686.2 2 0.011 2
121TE G 764.7 2 0.014 2
121TE G 1438.0 2 0.014 2