151TB 151DY EC DECAY (17.9 M) 1978AL15 09NDS 200901
151TB H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 110, 1 (2009)$CUT=20-Nov-2008$
151TB c Measured: |g|g, ce|g, ce, ce|g(t), cece(t)
151TB c Other: 1974To07
151TB cE IE,IB$Deduced from intensity balance by the evaluator
151TB cE LOGFT$In view of the large number of unplaced |g rays the log| {Ift}
151TB2cE values are only lower limits.
151TB cG E(S)$Poor fit. Level energy difference=1195.6
151TB cG E$To be able to achieve a satisfactory fit for level energies, the
151TB2cG evaluator assumed a minimum |DE of 0.1 and 0.3~keV for |g rays with
151TB3cG energies 400~keV~{I1000}00~keV and >1000~keV, respectively instead of
151TB4cG adopting very low uncertainties given by the authors
151TB cG RI$Intensities quoted in 1978Al15. They call them absolute intensities
151TB2cG per 100 decay, but do not give the method of deducing the absolute
151TB3cG intensities. The slight differences in the evaluator's normalization is
151TB4cG probably due to differences in |a values used. The quoted uncertainties
151TB5cG are statistical only.
151TB cG M,MR$From conversion coefficients
151TB cL J$From 'adopted levels'
151TB cL E$From least-squares fit to E|g's. Normalized |h{+2}=2.3 is somewhat
151TB2cL higher than the critical value of 1.4
151TB cL T$From ce|g(t) and cece(t) measured by 1978Al15, except for 99-keV
151TB2cL level where the value is from 'adopted levels'.
151DY P 0.0 7/2(-) 17.9 M 3 2871 5
151TB N 0.92 4 0.92 4 0.944 4 1.06
151TB cN NR$from intensity balance assuming zero ground state feeding and taking
151TB2cN into account the |e decay of the isomeric state (25~s, 11/2-) of
151TB3cN {+151}Tb.
151TB PN 3
151TB G 283.86 130.35 4
151TB G 323.1 4 0.15 5
151TB G 420.32 130.26 4
151TB G 489.5 6 0.16 7
151TB G 494.31 101.00 13
151TB G 500.16 260.44 8
151TB G 574.68 200.16 2
151TB G 593.5 5 0.38 5
151TB G 624.54 120.22 4
151TB G 630.37 130.05 1
151TB G 655.6 5 0.17 4
151TB G 671.2 3 0.16 4
151TB G 677.56 130.55 4
151TB G 721.3 3 0.14 7
151TB G 726.71 230.17 10
151TB G 732.8 5 0.77 4
151TB G 736.3 6 0.39 11
151TB G 749.7 4 0.18 3
151TB G 764.27 200.20 4
151TB G 771.51 100.55 4
151TB G 802.00 200.38 5
151TB G 806.2 3 0.20 5
151TB G 822.78 270.39 7
151TB G 859.21 160.66 6
151TB G 878.21 4 0.16 5
151TB G 910.3 5 0.48 4
151TB G 947.1 3 0.32 7
151TB G 952.33 220.45 7
151TB G 960.86 200.39 7
151TB G 970.77 100.44 5
151TB G 995.92 7 0.77 5
151TB G 1016.60 100.89 5
151TB G 1036.48 240.34 4
151TB G 1040.2 4 0.14 4
151TB G 1050.43 180.68 8
151TB G 1058.50 200.92 8
151TB G 1124.0 170.42 5
151TB G 1178.3 4 0.25 5
151TB G 1200.9 4 0.32 5
151TB G 1239.2 3 0.21 4
151TB G 1248.90 220.22 4
151TB G 1259.2 4 0.20 4
151TB G 1264.27 260.21 4
151TB G 1290.80 100.57 4
151TB G 1313.07 120.15 3
151TB G 1340.00 200.34 4
151TB G 1347.56 230.21 4
151TB G 1410.00 100.43 4
151TB G 1422.06 130.31 4
151TB G 1430.80 260.25 3
151TB G 1438.5 5 0.10 3
151TB G 1442.0 4 0.12 3
151TB G 1460.37 210.16 4
151TB G 1479.5 5 0.16 4
151TB G 1510.61 160.44 6
151TB G 1542.16 170.45 4
151TB G 1546.47 200.21 3
151TB G 1602.68 170.40 4
151TB G 1659.53 160.25 4
151TB G 1678.00 200.32 4
151TB G 1696.33 200.43 3
151TB G 1721.66 8 0.77 4
151TB G 1728.1 3 0.26 4
151TB G 1740.80 110.45 5
151TB G 1753.12 190.05 1
151TB G 1779.91 230.13 1
151TB G 1798.6 3 0.15 2
151TB G 1808.7 5 0.10 2
151TB G 1835.10 100.53 6
151TB G 1903.8 5 0.17 5
151TB G 1908.90 200.09 2
151TB G 1999.3 3 0.09 2
151TB G 2088.70 100.28 4
151TB L 0.0 1/2(+)
151TB L 22.922 20 3/2(+) 4.05 NS 7
151TB E 0.4 3 7 5 7.5 7 5 1U?
151TBS E EAV= 773 10$CK= 0.7858 22$CL= 0.1218 4$CM+= 0.03580 13
151TB G 22.92 2 3.45 4 M1+E2 0.031 4 27.8 7 C
151TBS G LC=21.8 5$MC=4.78 11$NC+=1.28 3
151TBS G NC=1.10 3$OC=0.167 4$PC=0.01034 15
151TB cG $|a(L1)exp=18.3~{I14}, |a(L2)exp=2.3~{I3}, |a(L3)exp=0.87~{I12},
151TB2cG |a(M)exp=4.5~{I3} |a(N)exp=1.13~{I9}
151TB DG $ ICE(L1)=63 5, ICE(L2)=7.8 9, ICE(L3)=3.0 4, ICE(M)=15.5 11,
151TB2DG ICE(N)=3.9 3 PER 100 DECAYS OF PARENT NUCLEI
151TB cG MR$from L1/L2 ratio
151TB L 72.39 3 (5/2+) 0.92 NS 3
151TB G 49.46 2 20.7 3 M1+E2 0.06 2 2.82 12 C
151TBS G LC=2.21 9$MC=0.485 21$NC+=0.130 6
151TBS G NC=0.112 5$OC=0.0170 6$PC=0.001065 16
151TB cG $|a(L1)exp+|a(L2)exp=2.14~{I20}, |a(L3)exp=0.09~{I3},
151TB2cG |a(M)exp=0.48~{I3}, |a(N)exp=0.117~{I7}
151TB DG $ ICE(L1+L2)=44 3, ICE(L3)=1.9 7, ICE(M)=9.9 7,
151TB2DG ICE(N)=2.42 15 PER 100 DECAYS OF PARENT NUCLEI
151TB cG MR$from (L1+L2)/L3 ratio
151TB G 72.50 100.11 2 (E2) 8.89
151TBS G KC=2.31 4$LC=5.06 8$MC=1.207 19$NC+=0.305 5
151TBS G NC=0.270 5$OC=0.0345 6$PC=0.0001185 17
151TB L 99.53 6 (11/2-) 25 S 3 M
151TB E 0.4 LT 2.1 LT 6.5GT 2.5 LT ?
151TBS E EAV= 728 11$CK= 0.713 5$CL= 0.1068 8$CM+= 0.03122 23
151TB G 27.1 1 E3 8.74E4 2344.7 6
151TBS G L/T=0.737 15$M/T=0.209 7$N+/T=0.0534 20
151TBS G N/T=0.0477 18$O/T=0.00563 21$P/T=2.98E-6 11
151TB cG $ce(L1)|?0.18, ce(L2)=13.9~{I12}, ce(L3)=17.7~{I16}, ce(M)=8.4~{I6}
151TB2cG ce(N)=1.83~{I15}
151TB DG $ ICE(L1) |? 0.18, ICE(L2)=13.9 12, ICE(L3)=17.7 16, ICE(M)=8.4 6,
151TB2DG ICE(N)=1.83 15 PER 100 DECAYS OF PARENT NUCLEI
151TB cG E$only seen in ce spectra
151TB cG TI$from I(|g+ce) to 99-keV level. Ice gives 42~{I2}
151TB L 248.79 3 (5/2+,7/2+) 0.26 NS LT
151TB E 0.06 5 0.4 4 7.1 0.5 4 ?
151TBS E EAV= 662 11$CK= 0.743 5$CL= 0.1115 7$CM+= 0.03260 21
151TB G 176.40 1 12.20 16M1+E2 0.51 17 0.422 12 C
151TBS G KC=0.343 17$LC=0.062 5$MC=0.0139 12$NC+=0.0037 3
151TBS G NC=0.00318 25$OC=0.00047 3$PC=2.46E-5 17
151TB cG $|a(K)exp=0.344~{I20}; |a(L)exp=0.062~{I4}
151TB cG MR$from K/L ratio
151TB G 226.3 3 0.28 6 M1+E2 0.19 4
151TBS G KC=0.15 4$LC=0.031 4$MC=0.0069 11$NC+=0.00181 23
151TBS G NC=0.00158 22$OC=0.000227 18$PC=1.0E-5 4
151TB cG $|a(K)exp=0.22~{I10}
151TB L 276.42 4
151TB G 204.03 2 0.81 9 [D,E2] 0.1713 C
151TB L 485.63 5 (7/2-)
151TB E 0.58 6 8.2 6 5.8 8.8 6
151TBS E EAV= 557 11$CK= 0.782 4$CL= 0.1177 6$CM+= 0.03445 16
151TB G 386.10 2 22.3 4 E2 0.0295 C
151TBS G KC=0.0232 4$LC=0.00489 7$MC=0.001105 16$NC+=0.000290 4
151TBS G NC=0.000252 4$OC=3.61E-5 5$PC=1.508E-6 22
151TB cG $|a(K)exp=0.018~{I2}; |a(L)exp=0.0062~{I6}
151TB G 413.27 130.46 5 C
151TB L 548.85 5 (3/2+,5/2+,7/2+)
151TB E 0.04517 0.8 3 6.8 0.8 3
151TBS E EAV= 529 11$CK= 0.790 3$CL= 0.1192 5$CM+= 0.03487 15
151TB G 272.43 230.37 9 [D,E2] 0.08 6
151TB G 300.00 160.27 4 [D,E2] 0.06 4
151TB G 476.56 109.21 16M1 0.0310 C
151TBS G KC=0.0263 4$LC=0.00369 6$MC=0.000804 12$NC+=0.000216 3
151TBS G NC=0.000186 3$OC=2.87E-5 4$PC=1.92E-6 3
151TB cG $|a(K)exp=0.026~{I3}
151TB L 583.98 6 (5/2+)
151TB E 0.037 7 0.6813 6.8 0.72 13
151TBS E EAV= 513 11$CK= 0.794 3$CL= 0.1199 5$CM+= 0.03509 15
151TB G 307.48 8 0.43 4
151TB G 561.00 100.94 7 C
151TB G 583.9 1 1.20 6
151TB L 646.00 6 (9/2-)
151TB E 0.25 3 5.7 5 5.9 6.0 5
151TBS E EAV= 486 11$CK= 0.801 3$CL= 0.1211 5$CM+= 0.03545 13
151TB G 160.40 2 0.45 4 C
151TB G 546.31 1016.5 4 M1 0.0219 C
151TBS G KC=0.0186 3$LC=0.00260 4$MC=0.000565 8$NC+=0.0001522 22
151TBS G NC=0.0001307 19$OC=2.02E-5 3$PC=1.355E-6 19
151TB cG $|a(K)exp=0.019~{I2}
151TB L 686.70 7 (5/2,7/2+)
151TB E 0.031 5 0.82 9 6.7 0.85 9
151TBS E EAV= 468 11$CK= 0.8055 24$CL= 0.1218 4$CM+= 0.03567 13
151TB G 614.30 100.60 4 C
151TB G 663.67 100.98 5 C
151TB L 711.93 5 (5/2+)
151TB E 0.19 5 5.414 5.9 5.6 14
151TBS E EAV= 457 11$CK= 0.8079 22$CL= 0.1223 4$CM+= 0.03580 12
151TB G 163.04 4 0.21 5 C
151TB G 463.20 102.76 6 M1(+E2) 0.82 LT 0.030 4 C
151TBS G KC=0.025 3$LC=0.0037 3$MC=0.00081 6$NC+=0.000219 15
151TBS G NC=0.000188 13$OC=2.88E-5 22$PC=1.84E-6 23
151TB cG $|a(K)exp=0.026~{I3}
151TB G 639.50 101.57 11 C
151TB G 689.17 102.91 7 C
151TB G 712.00 201.38 8 &
151TB L 841.11 9 (5/2,7/2+)
151TB E 0.022 4 1.0212 6.5 1.04 12
151TBS E EAV= 400 10$CK= 0.8183 17$CL= 0.1242 4$CM+= 0.03639 10
151TB G 292.16 100.39 4 C
151TB G 768.90 200.93 5 C
151TB G 818.6 3 0.37 7
151TB L 856.80 6 (5/2,7/2+)
151TB E 0.030 5 1.5 2 6.4 1.53 20
151TBS E EAV= 393 10$CK= 0.8193 16$CL= 0.1244 3$CM+= 0.03645 10
151TB G 371.07 5 0.89 5 C
151TB G 580.4 3 0.24 6
151TB G 784.5 6 0.12 4
151TB G 833.9 2 2.54 13 C
151TB L 886.57 8 (5/2,7/2,9/2+)
151TB E 0.023 4 1.2914 6.4 1.31 14
151TBS E EAV= 380 10$CK= 0.8212 15$CL= 0.1248 3$CM+= 0.03656 9
151TB G 337.80 100.57 5 C
151TB G 814.10 101.17 10 C
151TB L 917.78 7 (5/2-,7/2-)
151TB E 0.05913 3.8 7 5.9 3.9 7
151TBS E EAV= 367 10$CK= 0.8230 13$CL= 0.1252 3$CM+= 0.03668 9
151TB G 230.90 130.60 7
151TB G 333.17 260.22 5
151TB G 432.16 104.64 12M1 0.0399 C
151TBS G KC=0.0338 5$LC=0.00476 7$MC=0.001037 15$NC+=0.000279 4
151TBS G NC=0.000240 4$OC=3.70E-5 6$PC=2.47E-6 4
151TB cG $|a(K)exp=0.036~{I4}
151TB G 642.2 6 0.22 7
151TB G 845.46 102.31 11 C
151TB L 949.05 6 (5/2-,7/2+)
151TB E 0.023 4 1.7115 6.3 1.73 15
151TBS E EAV= 353 10$CK= 0.8246 12$CL= 0.1255 3$CM+= 0.03678 8
151TB G 303.00 5 1.56 5
151TB G 400.67 160.34 5 C
151TB G 700.32 102.07 8 C
151TB G 926.0 5 0.53 7
151TB L 1082.61 8 (7/2-)
151TB E 0.035 6 5.5 3 5.7 5.5 3
151TBS E EAV= 294 11$CK= 0.8296$CL= 0.12681 20$CM+= 0.03718 7
151TB G 436.86 100.88 5 M1 0.0388 C
151TBS G KC=0.0329 5$LC=0.00463 7$MC=0.001008 15$NC+=0.000271 4
151TBS G NC=0.000233 4$OC=3.60E-5 5$PC=2.41E-6 4
151TB cG $|a(K)exp=0.040~{I5}
151TB G 533.66 180.33 5
151TB G 596.77 101.81 7 C
151TB G 1010.4 3 3.52 11 C
151TB L 1119.38 8 (7/2-,9/2)
151TB E 0.017 3 3.3618 5.9 3.38 18
151TBS E EAV= 278 11$CK= 0.8305$CL= 0.12711 19$CM+= 0.03728 6
151TB G 570.70 101.29 4 C
151TB G 870.36 101.62 10 C
151TB G 1020.4 3 0.98 5
151TB L 1202.09 11 (5/2-,7/2,9/2+)
151TB E 0.006 4 2.312 6.0 2.3 12
151TBS E EAV= 242 11$CK= 0.8320$CL= 0.12772 17$CM+= 0.03747 6
151TB G 345.13 160.27 5
151TB G 556.40 230.35 6
151TB G 653.20 200.71 6 C
151TB G 1129.8 3 2.63 10 &C
151TB L 1241.2 1 (7/2-,9/2-)
151TB E 0.008821 4.3 3 5.7 4.3 3
151TBS E EAV= 224 11$CK= 0.8324$CL= 0.12799 16$CM+= 0.03756 5
151TB G 755.57 102.34 10 C
151TB G 992.37 220.25 4
151TB G 1141.8 3 2.32 16 C
151TB L 1319.4 3 (5/2,7/2,9/2)
151TB E 1.23 13 6.2 1.23 13
151TBS E CK= 0.8328$CL= 0.12848 15$CM+= 0.03772 5
151TB G 1070.6 3 1.42 13 C
151TB L 1433.85 8 (7/2-)
151TB E 2.78 18 5.8 2.78 18
151TBS E CK= 0.8326$CL= 0.12918 15$CM+= 0.03796 5
151TB G 515.9 5 0.13 8
151TB G 788.07 100.99 6 ?
151TB G 849.60 101.04 7
151TB G 1185.6 3 0.53 7 C
151TB G 1334.3 3 0.51 4
151TB L 1582.27 12 (5/2-,7/2,9/2)
151TB E 1.07 9 6.1 1.07 9
151TBS E CK= 0.8315$CL= 0.13018 18$CM+= 0.03831 6
151TB G 936.27 101.23 8 C
151TB L 1610.95 12 (5/2-)
151TB E 3.63 22 5.5 3.63 22
151TBS E CK= 0.8312$CL= 0.13040 19$CM+= 0.03838 7
151TB G 528.40 160.28 6
151TB G 1062.5 3 1.16 11 C
151TB G 1361.9 3 0.28 4
151TB G 1538.1 3 2.28 7 C
151TB G 1611.0 3 0.18 6
151TB L 1629.64 8 (7/2-,9/2-)
151TB E 5.2 7 5.3 5.2 7
151TBS E CK= 0.8310$CL= 0.13055 20$CM+= 0.03844 7
151TB G 680.41 101.11 5
151TB G 712.00 201.38 8 &C
151TB G 983.73 102.37 7 C
151TB G 1144.1 3 0.47 12 C
151TB G 1381.2 3 0.43 5
151TB G 1530.2 3 0.95 4
151TB L 1663.18 11 (5/2-,7/2-,9/2-)
151TB E 3.88 21 5.4 3.88 21
151TBS E CK= 0.8306$CL= 0.13083 21$CM+= 0.03853 8
151TB G 745.40 101.40 7 C
151TB G 1114.3 3 3.07 11 C
151TB L 1724.47 15(5/2-)
151TB E 9.3 5 5.0 9.3 5
151TBS E CK= 0.8299$CL= 0.13140 24$CM+= 0.03873 8
151TB G 837.9 5 0.23 8
151TB G 1175.5 3 1.15 8 C
151TB G 1475.7 3 2.46 10 C
151TB G 1652.1 3 1.65 5 C
151TB G 1701.6 3 5.26 14 C
151TB L 1741.78 8 (5/2-)
151TB E 4.8 3 5.3 4.8 3
151TBS E CK= 0.8296$CL= 0.13157 24$CM+= 0.03879 9
151TB G 793.08 100.59 5
151TB G 884.62 100.76 6
151TB G 1029.4 3 0.43 5
151TB G 1096.1 3 2.03 7 C
151TB G 1256.1 3 1.25 7 C
151TB G 1493.3 3 0.32 5 C
151TB G 1718.4 5 0.14 7
151TB L 1773.77 8 (5/2-,7/2-,9/2-)
151TB E 5.2 3 5.2 5.2 3
151TBS E CK= 0.8292$CL= 0.1319 3$CM+= 0.03891 9
151TB G 855.84 101.50 8 C
151TB G 917.00 101.00 11 C
151TB G 932.5 100.32 7
151TB G 1190.6 3 0.48 6
151TB G 1288.2 3 0.92 5 C
151TB G 1525.1 3 1.72 6 C
151TB L 1841.62 11 (5/2-,7/2-)
151TB E 6.2 12 5.1 6.2 12
151TBS E CK= 0.8281$CL= 0.1327 3$CM+= 0.03919 11
151TB G 891.92 200.81 7
151TB G 1000.4 3 0.17 5
151TB G 1129.8 3 1.3 13 &
151TB G 1196.8 3 1.09 7 S
151TBF G FL=646.00
151TB G 1355.5 3 0.38 4
151TB G 1593.1 3 3.00 10 C
151TB G 1769.7 3 0.36 2