206BI 206PO EC DECAY 1975KA13,1975KA14,1976JA0225NDS 202503
206BI H TYP=FUL$AUT=F.G. KONDEV$CIT=NDS 201, 346 (2025)$CUT=21-Jan-2025$
206BI c Others: 1981El07, 1981Fu06, 1973Li26, 1973Fu05, 1958Ar61, 1957Ar61,
206BI2c 1956St60
206BI c 1975Ka13,1975Ka14: {+206}Po was produced in {+209}Bi(p,4n) reaction
206BI2c using a 39-MeV proton beam. The source was chemically purified.
206BI3c Measured: ce using |p|6 2 |b-spectrometer, |g rays using 30- and
206BI4c 50-cm{+3} Ge(Li) detectors, |g-|g coin, and ce-|g coin.
206BI c The decay scheme of 1975Ka13,1975Ka14 is adopted
206BI cE TI$Calculated from |g-ray intensity balances.
206BI cL E$From a least-squares fit to E|g
206BI cL J,T$From adopted levels, unless otherwise stated
206BI cL E(a)$Dominant configuration=|p(h{-9/2}{++1})~#|n(f{-5/2}{+-1})
206BI cL E(b)$Dominant configuration=|p(h{-9/2}{++1})~#|n(p{-1/2}{+-1})
206BI cL E(c)$Dominant configuration=|p(h{-9/2}{++1})~#|n(p{-3/2}{+-1})
206BI cL E(d)$Dominant configuration=|p(f{-7/2}{++1})~#|n(f{-5/2}{+-1})
206BI cG E,RI$From 1975Ka13, unless otherwise stated. E|g were determined in
206BI2cG 1975Ka13 from the ce data, except as noted
206BI cG E(A)$From |g-ray data in 1975Ka13
206BI cG E(B)$Placement in the level scheme is not certain
206BI cG M,MR$Determined from measured sub-shell ce ratios and |a(K)exp values
206BI2cG in 1975Ka13, unless otherwise stated. |d were obtained using the
206BI3cG briccmixing code
206BI DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
206BI DE LOGFT$FROM BetaShape v2.4 (Jun-2024) 2019MO35.
206PO P 0.0 0+ 8.8 D 1 1840 9
206PO cP QP$From 2021Wa16
206BI N 0.251 28 0.9455 5
206BI PN 5
206BI cN NR$From I(|g+ce)[59.908|g] + I(|g+ce)[82.802|g]=100 and by assuming
206BI2cN no direct |g feeding to the ground state (J|p=6+)
206BI G 109.484 33
206BI G 177.035 24
206BI G 664.077 77 0.10 4 M1(+E2) 0.036 20
206BI2 G %IG=0.024 10
206BIS G KC=0.029 17$LC=0.0054 23$MC=0.0013 5
206BIS G NC=3.3E-4 13$OC=6.6E-5 28$PC=8.E-6 4
206BI cG M$|a(K)exp=0.042 {I+37-17 } (1975Ka13)
206BI G 719.699 77 0.21 6 M1(+E2) 0.029 16
206BI2 G %IG=0.050 15
206BIS G KC=0.024 13$LC=0.0043 19$MC=1.0E-3 4
206BIS G NC=2.6E-4 11$OC=5.3E-5 23$PC=6.2E-6 29
206BI cG M$|a(K)exp=0.039 {I+25-14} (1975Ka13)
206BI G 727.343 78 0.417 22M1(+E2) 0.029 15
206BI2 G %IG=0.099 12
206BIS G KC=0.023 13$LC=0.0042 18$MC=1.0E-3 4
206BIS G NC=2.6E-4 11$OC=5.2E-5 22$PC=6.0E-6 29
206BI cG M$|a(K)exp=0.036 {I+11-9} (1975Ka13)
206BI G 741.5 0.046 14 A
206BI2 G %IG=0.0109 35
206BI G 944.1 0.032 9 A
206BI2 G %IG=0.0076 23
206BI G 947.241 96 0.186 15M1(+E2) 0.015 7
206BI2 G %IG=0.044 6
206BIS G KC=0.012 6$LC=0.0021 9$MC=5.0E-4 21
206BIS G NC=1.3E-4 5$OC=2.6E-5 11$PC=3.1E-6 14
206BI cG M$|a(K)exp=0.016 {I+9-8} (1975Ka13)
206BI G 969.4 0.033 9 A
206BI2 G %IG=0.0078 23
206BI G 1008.87 10 0.39 27M1(+E2) 0.013 6
206BI2 G %IG=0.09 6
206BIS G KC=0.010 5$LC=0.0018 7$MC=4.3E-4 17
206BIS G NC=1.1E-4 4$OC=2.2E-5 9$PC=2.6E-6 11
206BI cG M$|a(K)exp=0.028 {I+70-13} (1975Ka13)
206BI G 1012.23 12 0.86 3 M1(+E2) 0.013 6
206BI2 G %IG=0.204 24
206BIS G KC=0.010 5$LC=0.0018 7$MC=4.3E-4 17
206BIS G NC=1.1E-4 4$OC=2.2E-5 9$PC=2.6E-6 11
206BI cG M$|a(K)exp=0.0207 {I21} (1975Ka13)
206BI G 1566.40 18
206BI G 1571.02 16
206BI L 0.0 6+ 6.243 D 3 a
206BI L 59.897 17 4+ 7.7 US 2 a
206BI cL T$Weighted average of 7.6 |ms {I2} (1975Ka13) and 7.8 |ms {I3}
206BIxcL (1957Ar61)
206BI G 59.908 18 5.4 6 E2 72.4 10
206BI2 G %IG=1.283 17
206BIS G LC=53.8 8$MC=14.25 20
206BIS G NC=3.62 5$OC=0.663 9$PC=0.0500 7
206BI cG M$L1:L2:L3:M1:M2:M3:M4:M5:N:O=120 {I5}:5290 {I16}: 4870 {I14}: 40.4
206BI2cG {I36}: 1320 {I40}: 1330 {I30}: 19.9 {I17}: 18.6 {I14}:756 {I31}:208
206BIxcG {I8} (1975Ka13)
206BI L 70.744 22 3+ a
206BI G 10.836 22 1.269 25M1(+E2) 0.0031 LT 319 5
206BI2 G %IG=0.301 34
206BIS G MC=242 4
206BIS G NC=62.1 10$OC=12.67 19$PC=1.506 23
206BI cG RI$From intensity balance by the evaluator
206BI cG M$M1:M2:M3:M4:M5:N1:N2:N3:O1:O2:P1=9400 {I80}: 1050 {I20}: 98
206BI2cG {I8}:|<2.7: |<1.9: 2300 {I30}: 245 {I9}:27.6 {I31}:476 {I16}: 32
206BI3cG {I10}: 83 {I29} (1975Ka13). Other: M1:N2:N3:O1:O23:O45P=1.00:0.0285
206BI4cG {I11}:0.00277 {I63}:0.0584 {I17}: 0.00645 {I47}: 0.00933 {I34}
206BI5cG (1975Ka13); N1:N2:N3:O1:O23:O45P=1.00:0.116 {I4}:0.0113 {I30}:0.239
206BI6cG {I4}:0.0264 {I18}:0.0381 {I11} (1981Fu06) and O1:O23:O45P=1.00:0.110
206BI7cG {I8}:0.160 {I5} (1981Fu06)
206BI cG MR$From M2/M1=0.112 {I3}, M3/M1=0.0105 {I9}, N1/M1=0.245 {I12}
206BI2cG (1975Ka13) and N2/N1=0.116 {I4}, N3/N1=0.0113 {I30} (1981Fu06)
206BI L 82.818 19 5+ a
206BI G 82.802 22 0.40 5 M1(+E2) 0.05 LT 3.32 5
206BI2 G %IG=0.095 16
206BIS G LC=2.54 4$MC=0.598 9
206BIS G NC=0.1529 23$OC=0.0312 5$PC=0.00371 5
206BI cG M$L1:L2:M:N:O=54.4 {I25}: 5.5 {I5}: 18.9 {I17}: 2.3 {I8}: 1.9 {I13}
206BI cG MR$From L2/L1=0.101 {I10} (1975Ka13)
206BI L 200.381 21 4+ b
206BI G 117.536 28 0.58 9M1(+E2) 0.11 11 6.39 14
206BI2 G %IG=0.138 26
206BIS G KC=5.16 18$LC=0.93 5$MC=0.220 13
206BIS G NC=0.0564 33$OC=0.0115 6$PC=0.001352 33
206BI cG M$K:L1:L2:M:N:O=101 {I29}: 18.2 {I7}: 2.04 {I17}: 3.91 {I22}: 11.1
206BI2cG {I3}: 0.43 {I16}; |a(K)exp=5.0 {I+9-7} (1975Ka13)
206BI cG MR$From L1/K=0.18 {I5}, L2/K=0.020 {I6} and M/K=0.039 {I11} (1975Ka13)
206BI G 129.644 22 0.160 26M1+E2 0.26 +4-5 4.69 9
206BI2 G %IG=0.038 7
206BIS G KC=3.72 9$LC=0.738 18$MC=0.176 5
206BIS G NC=0.0451 13$OC=0.00909 23$PC=0.001036 16
206BI cG M$K:L1:L2:L3:M:N=26 {I3}: 6.0 {I3}: 0.77 {I7}: 0.16 {I7}: 0.79 {I11}:
206BI2cG 0.37 {I12}; |a(K)exp=4.7 {I+15-11} (1975Ka13)
206BI cG MR$From L1/K=0.231 {I29} and L2/K=0.0296 {I24} (1975Ka13)
206BI G 140.486 28 0.63 14M1(+E2) 0.07 LT 3.86 5
206BI2 G %IG=0.15 4
206BIS G KC=3.14 4$LC=0.551 8$MC=0.1297 18
206BIS G NC=0.0332 5$OC=0.00678 10$PC=0.000806 11
206BI cG M$K:L1:L2:L3:M=78 {I5}: 10.5 {I5}: 1.19 {I12}: 0.21 {I7}: 2.81 {I18};
206BIxcG |a(K)exp=3.6 {I+12-7} (1975Ka13)
206BI cG MR$From L1/K=0.135 {I11} and L2/K=0.0153 {I18} (1975Ka13)
206BI L 352.690 23 (3,4)+ c
206BI G 152.308 50 0.19 3M1(+E2) 0.17 LT 3.05 5
206BI2 G %IG=0.045 9
206BIS G KC=2.47 5$LC=0.440 7$MC=0.1039 18
206BIS G NC=0.0266 5$OC=0.00542 9$PC=0.000640 9
206BI cG M,MR$K:L1:L2=18 {I3}: 3.1 {I3}: 0.29 {I9} (1975Ka13)
206BI cG RI$Determined by the evaluator from the measured Ice(K) in 1975Ka13
206BI2cG and the theoretical |a(K) for the indicated multipolarity. The
206BI3cG normalization was done relative to data for 677.7|g, E2 from 1975Ka13
206BI G 281.923 23 3.68 12M1(+E2) 0.10 LT 0.548 8
206BI2 G %IG=0.87 10
206BIS G KC=0.447 7$LC=0.0775 11$MC=0.01821 26
206BIS G NC=0.00466 7$OC=0.000951 13$PC=0.0001132 16
206BI cG M$K:L1:L2:M:N=62.9 {I18}: 11.5 {I6}: 1.2 {I4}: 1.29 {I12}: 0.26 {I10};
206BI2cG |a(K)exp=0.49 {I3} (1975Ka13)
206BI cG MR$From L1/K=0.183{I11}, L2/K=0.0205 {I20} and |a(K)exp=0.49 {I3}
206BI2cG (1975Ka13)
206BI G 292.799 30 0.188 12M1(+E2) 0.4 LT 0.471 26
206BI2 G %IG=0.045 6
206BIS G KC=0.381 24$LC=0.0682 20$MC=0.0161 4
206BIS G NC=0.00411 10$OC=0.000838 24$PC=9.9E-5 4
206BI cG M,MR$K:L1:M=3.46 {I24}: 0.70 {I8}: 0.12 {I5}; |a(K)exp=0.53 {I+8-7}
206BI2cG (1975Ka13)
206BI L 409.17 3 (2)+
206BI G 338.441 34 84.5 17M1(+E2) -0.01 8 0.334 5
206BI2 G %IG=20.1 23
206BIS G KC=0.273 4$LC=0.0470 7$MC=0.01103 16
206BIS G NC=0.00282 4$OC=0.000576 8$PC=6.87E-5 10
206BI cG M$K:L1:L2:L3:M:N:O=819 {I21}: 135 {I5}: 15.0 {I22}: 0.78 {I9}: 34.2
206BI2cG {I13}: 10.3 {I5}: 4.15 {I21}; |a(K)exp=0.280 {I+13-12} (1975Ka13)
206BI cG MR$From |g|g(|q) in 1981El07. Other: 0.13 {I18} from L1/K=0.165 {I7},
206BI2cG L2/K=0.0183 {I27}, M/K=0.0418 {I19} and |a(K)exp=0.53 {I8} (1975Ka13)
206BI L 523.209 24 3+
206BI G 170.501 21 1.40 13M1(+E2) 0.14 LT 2.219 34
206BI2 G %IG=0.33 5
206BIS G KC=1.803 29$LC=0.318 5$MC=0.0749 11
206BIS G NC=0.01916 28$OC=0.00391 6$PC=0.000464 7
206BI cG M$K:L1:L2:M:N:O=74.5 {I23}: 11.6 {I5}: 1.20 {I19}: 2.46 {I20}: 0.39
206BI2cG {I10}: 0.20 {I9}; |a(K)exp=1.5 {I+3-2} (1975Ka13)
206BI cG MR$From L1/K=0.156 {I8}, L2/K=0.0161 {I26}, M/K=0.0330 {I29}
206BI2cG and |a(K)exp=1.5 {I+3-2} (1975Ka13)
206BI G 322.809 33 0.54 3 M1(+E2) 0.5 LT 0.352 29
206BI2 G %IG=0.128 16
206BIS G KC=0.285 26$LC=0.0512 24$MC=0.0121 5
206BIS G NC=0.00309 13$OC=0.000629 28$PC=7.4E-5 4
206BI cG M,MR$K:L1:M=6.0 {I3}: 0.95 {I9}: 0.21 {I8}; |a(K)exp=0.32 {I+4-3}
206BI2cG (1975Ka13)
206BI G 452.472 48 1.42 6M1(+E2) 0.26 LT 0.149 4
206BI2 G %IG=0.34 4
206BIS G KC=0.122 4$LC=0.0210 5$MC=0.00493 11
206BIS G NC=0.001261 28$OC=0.000257 6$PC=3.06E-5 8
206BI cG M,MR$K:L1=6.5 {I3}: 1.34 {I9}; |a(K)exp=0.133 {I12} (1975Ka13)
206BI G 463.381 48 7.9 3 M1(+E2) 0.27 LT 0.140 4
206BI2 G %IG=1.88 22
206BIS G KC=0.1142 35$LC=0.0197 5$MC=0.00462 11
206BIS G NC=0.001181 27$OC=0.000241 6$PC=2.87E-5 7
206BI cG M$K:L1:M:N=33.4 {I12}: 6.4 {I3} :1.81 {I10}: 0.42 {I6}; |a(K)exp=0.122
206BI2cG {I10} (1975Ka13)
206BI cG MR$From L1/K=0.192 {I11} and |a(K)exp=0.122 {I10} (1975Ka13)
206BI L 733.91 3 (3)+
206BI G 210.672 51 0.18 6 M1(+E2) 0.4 LT 1.17 6
206BI2 G %IG=0.043 15
206BIS G KC=0.95 6$LC=0.1742 25$MC=0.0413 6
206BIS G NC=0.01055 16$OC=0.002143 30$PC=0.000250 7
206BI cG M,MR$|a(K)exp=1.0 {I+8-4} (1975Ka13)
206BI G 324.728 40 0.430 28M1+E2 0.53 20 0.31 4
206BI2 G %IG=0.102 13
206BIS G KC=0.250 32$LC=0.0477 29$MC=0.0114 6
206BIS G NC=0.00290 16$OC=0.000587 35$PC=6.7E-5 6
206BI cG M,MR$From |a(K)exp=0.25 {I3} (1975Ka13)
206BI G 381.220 41 0.78 5 M1(+E2) 0.4 LT 0.230 13
206BI2 G %IG=0.185 24
206BIS G KC=0.187 11$LC=0.0328 13$MC=0.00772 27
206BIS G NC=0.00197 7$OC=0.000402 15$PC=4.76E-5 22
206BI cG M$K:L1:N=5.7 {I3}: 1.09 {I9}: 0.08 {I3}; |a(K)exp=0.21 {I3} (1975Ka13)
206BI cG MR$From L1/K=0.191 {I19} and |a(K)exp=0.21 {I3} (1975Ka13)
206BI G 533.557 63 0.374 29M1(+E2) 0.29 LT 0.0959 31
206BI2 G %IG=0.089 12
206BIS G KC=0.0783 26$LC=0.0134 4$MC=0.00315 8
206BIS G NC=0.000806 21$OC=0.000165 4$PC=1.96E-5 6
206BI cG M,MR$From |a(K)exp=0.105 {I+16-13} (1975Ka13)
206BI L 878.09 3 2+
206BI G 144.166 28 0.24 4 M1(+E2) 0.44 LT 3.42 18
206BI2 G %IG=0.057 11
206BIS G KC=2.71 21$LC=0.540 30$MC=0.129 9
206BIS G NC=0.0330 23$OC=0.0067 4$PC=0.000757 14
206BI cG M$K:L1=24 {I12}: 2.36 {I17}; |a(K)exp=2.9 {I+4-3} (1975Ka13)
206BI cG MR$From |a(K)exp=2.9 {I+4-3} (1975Ka13)
206BI G 354.866 37 1.74 7M1(+E2) 0.25 LT 0.287 8
206BI2 G %IG=0.41 5
206BIS G KC=0.234 7$LC=0.0407 8$MC=0.00957 18
206BIS G NC=0.00245 5$OC=0.000500 10$PC=5.93E-5 13
206BI cG M$K:M=15.3 {I6}: 0.47 {I6}; |a(K)exp=0.254 {I+21-19} (1975Ka13)
206BI cG MR$From |a(K)exp=0.254 {I+21-19} (1975Ka13)
206BI G 468.983 52 1.14 5M1(+E2) 0.28 LT 0.135 4
206BI2 G %IG=0.271 32
206BIS G KC=0.110 4$LC=0.0190 5$MC=0.00446 11
206BIS G NC=0.001141 28$OC=0.000233 6$PC=2.77E-5 8
206BI cG M$K:L1:M:N=5.0 {I3}: 1.07 {I8}: 0.28 {I4}: 0.063 {I23}; |a(K)exp=0.127
206BI2cG {I+13-9} (1975Ka13)
206BI cG MR$From M/K=0.056 {I9} and |a(K)exp=0.127 {I+13-9} (1975Ka13)
206BI G 677.709 73 6.49 26E2 0.0154322
206BI2 G %IG=1.54 18
206BIS G KC=0.01161 16$LC=0.00289 4$MC=0.000707 10
206BIS G NC=0.0001804 25$OC=3.56E-5 5$PC=3.74E-6 5
206BI cG M$K:L1:L2:M=2.82 {I13}: 0.69 {I5}: 0.31 {I3}: 0.193 {I25};
206BIxcG |a(K)exp=0.0126 {I11} (1975Ka13)
206BI G 807.385 82 100 2M1(+E2) 0.23 LT 0.0328 7
206BI2 G %IG=23.8 27
206BIS G KC=0.0269 6$LC=0.00453 9$MC=0.001061 22
206BIS G NC=0.000271 6$OC=5.55E-5 12$PC=6.62E-6 14
206BI cG M$K:L:M=100 {I3}: 19.9 {I7}: 5.06 {I19}; |a(K)exp=0.0289 {I+15-14}
206BI2cG (1975Ka13)
206BI cG MR$From L/K=0.199 {I9} and |a(K)exp=0.0289 {I+15-14} (1975Ka13);
206BI2cG Other: -0.056<|d<0.210 from |g|g(|q) in 1981El07
206BI G 818.231 84 4.60 18E2 0.0104215
206BI2 G %IG=1.09 13
206BIS G KC=0.00808 11$LC=0.001777 25$MC=0.000430 6
206BIS G NC=0.0001096 15$OC=2.181E-5 31$PC=2.364E-6 33
206BI cG M$K:M=1.38 {I7}: 0.085 {I9}; |a(K)exp=0.0086 {I+8-7} (1975Ka13)
206BI L 897.08 3 (3,4)+
206BI G 544.393 70 0.16 6 M1(+E2) 1.1 LT 0.075 19
206BI2 G %IG=0.038 15
206BIS G KC=0.061 16$LC=0.0109 21$MC=0.0026 5
206BIS G NC=0.00066 12$OC=0.000134 26$PC=1.57E-5 34
206BI cG M$|a(K)exp=0.14 {I+7-5} (1975Ka13)
206BI cG MR$From |a(K)exp=0.14 {I+7-5} (1975Ka13)
206BI G 826.442 94 0.67 LT [M1,E2] 0.021 11
206BI2 G %IG LT 0.159
206BI2 G %IG LT 0.168
206BIS G KC=0.017 9$LC=0.0030 13$MC=7.2E-4 30
206BIS G NC=1.8E-4 8$OC=3.7E-5 16$PC=4.3E-6 20
206BI cG M$|a(K)exp|>0.0019
206BI G 837.235 87 0.44 3 M1(+E2) 0.4 LT 0.0290 15
206BI2 G %IG=0.105 14
206BIS G KC=0.0237 12$LC=0.00401 18$MC=0.00094 4
206BIS G NC=0.000240 11$OC=4.91E-5 22$PC=5.85E-6 28
206BI cG M$K:L:M=0.50 {I3}:0.073 {I9}: 0.020 {I5}; |a(K)exp=0.033 {I5}
206BI2cG (1975Ka13)
206BI cG MR$From L/K=0.146 {I20}, M/K=0.04 {I1} and |a(K)exp=0.0289 {I+15-14}
206BI2cG (1975Ka13)
206BI L 931.66 3 1+
206BI E 19.8 278.09 6 19.8 27
206BIS E CK=0.7840 5$CL=0.16171 25$CM+=0.05430 17
206BI G 53.610 43 0.069 9 [M1] 11.78 17
206BI2 G %IG=0.0164 28
206BIS G LC=9.00 13$MC=2.119 30
206BIS G NC=0.542 8$OC=0.1107 16$PC=0.01318 19
206BI cG RI$Determined by the evaluator from Ice(L1) in 1975Ka13 and the
206BI2cG theoretical |a(L1) for a pure M1 transition. The
206BI3cG normalization was done relative to data for 677.7|g, E2 from 1975Ka13
206BI G 522.469 52 69.3 14M1+E2 -0.16 +8-11 0.1024 27
206BI2 G %IG=16.5 19
206BIS G KC=0.0837 23$LC=0.01432 32$MC=0.00336 7
206BIS G NC=0.000859 19$OC=0.000176 4$PC=2.09E-5 5
206BI cG M$K:L1:L2:L3:M:N=214 {I6}: 37.1 {I13}: 3.87 {I24}: 0.26 {I3}: 10.2
206BI2cG {I4}: 2.72 {I20}; |a(K)exp=0.089 {I4} (1975Ka13)
206BI cG MR$From |d=-0.16 {I6} using |g|g(|q) in 1981El07 and L1/K=0.173 {I8},
206BI2cG L2/K=0.0181 {I12}, L3/K=0.00121 {I14}, M/K=0.0477 {I23},
206BI3cG N/K=0.0127 {I10} and |a(K)exp=0.089 {I4} (1975Ka13). Sign is from
206BI4cG 1981El07
206BI G 860.933 89 15.6 6E2 0.0094013
206BI2 G %IG=3.7 4
206BIS G KC=0.00734 10$LC=0.001569 22$MC=0.000378 5
206BIS G NC=9.65E-5 14$OC=1.923E-5 27$PC=2.101E-6 29
206BI cG M$K:L1:L2:M:N=4.36 {I17}: 0.91 {I4}: 0.049 {I7}: 0.329 {I22}: 0.077
206BI2cG {I10}; |a(K)exp=0.0081 {I+7-6} (1975Ka13)
206BI L 1077.87 3 2+
206BI G 146.180 26 0.48 13M1(+E2) 0.11 LT 3.44 5
206BI2 G %IG=0.114 33
206BIS G KC=2.79 4$LC=0.493 7$MC=0.1161 17
206BIS G NC=0.0297 4$OC=0.00606 9$PC=0.000719 10
206BI cG M,MR$K:L1:L2=41 {I3}: 5.7 {I3}: 0.65 {I9}: |a(K)exp=2.5 {I+9-6}
206BI2cG (1975Ka13)
206BI G 180.791 19 0.44 5 M1+E2 0.33 29 1.77 23
206BI2 G %IG=0.105 17
206BIS G KC=1.41 24$LC=0.274 10$MC=0.065 4
206BIS G NC=0.0167 10$OC=0.00337 14$PC=0.000386 13
206BI cG M$K:L1:L2=21.5 {I11}: 3.33 {I23}: 0.35 {I12}; |a(K)exp=1.41 {I+24-13}
206BI2cG (1975Ka13)
206BI cG MR$From L1/K=0.155 {I13} and |a(K)exp=1.41 {I+24-13} (1975Ka13)
206BI G 343.968 41 0.26 8M1 0.320 4
206BI2 G %IG=0.062 20
206BIS G KC=0.261 4$LC=0.0449 6$MC=0.01055 15
206BIS G NC=0.00270 4$OC=0.000551 8$PC=6.57E-5 9
206BI cG M$|a(K)exp=0.21 {I+12-6} (1975Ka13)
206BI G 554.636 56 6.86 27M1(+E2) 0.25 LT 0.0872 23
206BI2 G %IG=1.63 19
206BIS G KC=0.0713 19$LC=0.01217 27$MC=0.00286 6
206BIS G NC=0.000730 16$OC=0.0001492 33$PC=1.78E-5 4
206BI cG M$K:L1:M:N=19.4 {I7}: 3.27 {I15}: 0.75 {I5}: 0.083 {I22};
206BI2cG |a(K)exp=0.0817 {I+64-59} (1975Ka13)
206BI cG MR$From L1/K=0.169 {I10}, M/K=0.0387 {I29} and
206BI2cG |a(K)exp=0.0817 {I+64-59} (1975Ka13)
206BI G 668.750 71 3.78 15M1+E2 0.271 22 0.0519 8
206BI2 G %IG=0.90 11
206BIS G KC=0.0424 7$LC=0.00724 11$MC=0.001697 26
206BIS G NC=0.000434 7$OC=8.86E-5 14$PC=1.055E-5 17
206BI cG M,MR$K:L=5.80 {I24}: 1.16 {I7}; |a(K)exp=0.0443 {I+38-34} (1975Ka13)
206BI G 877.9 0.091 13 [E2] 0.0090413 A
206BI2 G %IG=0.022 4
206BI3 G FL=200.381
206BIS G KC=0.00707 10$LC=0.001496 21$MC=0.000360 5
206BIS G NC=9.19E-5 13$OC=1.834E-5 26$PC=2.009E-6 28
206BI G 1007.146 97 13.5 5M1(+E2) 0.19 LT 0.0186633
206BI2 G %IG=3.2 4
206BIS G KC=0.01532 28$LC=0.00256 4$MC=0.000599 10
206BIS G NC=0.0001531 26$OC=3.13E-5 5$PC=3.74E-6 7
206BI cG M$K:L=8.5 {I3}: 1.5 {I7}; |a(K)exp=0.0181 {I14} (1975Ka13)
206BI cG MR$From |a(K)exp=0.0181 {I14} (1975Ka13);
206BI2cG Other: 0.105|<|d<0.447 from |g|g(|q) in 1981El07
206BI G 1017.93 13 1.6 5 E2 0.00676 9
206BI2 G %IG=0.38 13
206BIS G KC=0.00537 8$LC=0.001058 15$MC=0.0002528 35
206BIS G NC=6.45E-5 9$OC=1.294E-5 18$PC=1.445E-6 20
206BI cG M$|a(K)exp=0.0054 {I+28-15} (1975Ka13)
206BI L 1102.96 3 2+
206BI G 171.340 24 0.44 4 M1+E2 0.36 +16-272.04 15
206BI2 G %IG=0.105 15
206BIS G KC=1.61 17$LC=0.324 11$MC=0.077 4
206BIS G NC=0.0198 9$OC=0.00399 14$PC=0.000452 8
206BI cG M$K:L1:L2:M:O=22.3 {I9}: 4.8 {I3}: 0.50 {I21}: 1.02 {I12}: 0.10 {I7};
206BI2cG |a(K)exp=1.52 {I+19-15} (1975Ka13)
206BI cG MR$From L1/K=0.215 {I16}, M/K=0.046 {I6} and |a(K)exp=1.52 {I+19-15}
206BI2cG (1975Ka13)
206BI G 205.936 50
206BI G 224.853 42 0.12 7 M1+E2 1.92 +28-220.456 32
206BI2 G %IG=0.029 17
206BIS G KC=0.280 31$LC=0.1319 20$MC=0.0337 5
206BIS G NC=0.00859 12$OC=0.001640 24$PC=0.000150 4
206BI cG M,MR$|a(K)exp=0.28 (1975Ka13)
206BI G 369.077 37 0.76 5 M1(+E2) 0.20 LT 0.260 5
206BI2 G %IG=0.181 23
206BIS G KC=0.212 4$LC=0.0367 6$MC=0.00863 14
206BIS G NC=0.00221 4$OC=0.000451 8$PC=5.36E-5 10
206BI cG M,MR$K:L1=7.4 {I4}:0.94 {I8}; |a(K)exp=0.278 {I+32-28} (1975Ka13)
206BI G 579.778 60 4.66 19M1(+E2) 0.4 LT 0.075 4
206BI2 G %IG=1.11 13
206BIS G KC=0.0615 35$LC=0.0106 5$MC=0.00248 11
206BIS G NC=0.000634 28$OC=0.000129 6$PC=1.54E-5 8
206BI cG M,MR$K:L:M=11.3 {I4}: 1.93 {I10}: 0.61 {I5}; |a(K)exp=0.0701 {I+55-51}
206BI2cG (1975Ka13)
206BI G 693.812 75 0.90 5 M1(+E2) 0.48 LT 0.0463 33
206BI2 G %IG=0.214 27
206BIS G KC=0.0378 28$LC=0.0065 4$MC=0.00152 9
206BIS G NC=0.000388 23$OC=7.9E-5 5$PC=9.4E-6 6
206BI cG M,MR$K:L=1.24 {I7}: 0.23 {I3}; |a(K)exp=0.0397 {I+48-42} (1975Ka13)
206BI G 902.531 91 1.09 4E2 0.0085612
206BI2 G %IG=0.259 30
206BIS G KC=0.00672 9$LC=0.001400 20$MC=0.000337 5
206BIS G NC=8.59E-5 12$OC=1.716E-5 24$PC=1.887E-6 26
206BI cG M$K:L:M=0.24 {I4}: 0.09 {I3}: 0.026 {I7} (1975Ka13)
206BI G 1032.26 10 145 3M1(+E2) 0.35 LT 0.0171 7
206BI2 G %IG=34 4
206BIS G KC=0.0140 5$LC=0.00235 8$MC=0.000550 19
206BIS G NC=0.000141 5$OC=2.87E-5 10$PC=3.43E-6 13
206BI cG M,MR$K:L:M:N=80.4 {I24}: 15.4 {I6}: 3.82 {I14}: 1.15 {I15};
206BI2cG |a(K)exp=0.016 {I9} (1975Ka13); Other: -0.076<|d<-0.027 from |g|g(|q)
206BI3cG in 1981El07
206BI G 1043.17 13 1.27 5E2 0.00645 9
206BI2 G %IG=0.30 4
206BIS G KC=0.00513 7$LC=0.001001 14$MC=0.0002389 33
206BIS G NC=6.10E-5 9$OC=1.224E-5 17$PC=1.371E-6 19
206BI cG M$K:L=0.231 {I17}: 0.021 {I3}; |a(K)exp=0.00526 {I+61-57} (1975Ka13)
206BI L 1265.31 4(2)+
206BI G 162.31 5 0.48 7 (E2) 0.950 13 B
206BI2 G %IG=0.114 21
206BI2 G FL=1102.96
206BIS G KC=0.262 4$LC=0.512 7$MC=0.1352 19
206BIS G NC=0.0344 5$OC=0.00639 9$PC=0.000510 7
206BI cG E$From adopted gammas
206BI cG RI$Determined by the evaluator from the measured Ice(K) in 1975Ka13
206BI2cG and the theoretical |a(K) for the indicated multipolarity. The
206BI3cG normalization was done relative to data for 677.7|g, E2 from 1975Ka13
206BI cG M$K:L1=4.8 {I6}:0.69 {I29} (1975Ka13)
206BI G 1194.57 5 0.18 4 M1(+E2) 0.009 4 B
206BI2 G %IG=0.043 11
206BI2 G FL=70.744
206BIS G KC=0.0070 30$LC=0.0012 5$MC=2.8E-4 11
206BIS G NC=7.2E-5 27$OC=1.5E-5 6$PC=1.7E-6 7$IPC=4.7E-6 14
206BI cG E$From adopted gammas
206BI cG M$|a(K)exp=0.017 {I+8-5} (1975Ka13)
206BI L 1389.48 3 1+ d
206BI E 77 106.81 6 77 10
206BIS E CK=0.7469 19$CL=0.1880 12$CM+=0.0651 5
206BI G 124.17 5 0.16 4 (E2) 2.69 4 B
206BI2 G %IG=0.038 10
206BI cG E$From a level energy difference. E|g=124.669 keV {I43} in 1975Ka13
206BIS G KC=0.415 6$LC=1.688 24$MC=0.448 6
206BIS G NC=0.1139 16$OC=0.02103 30$PC=0.001638 23
206BI cG RI$Determined by the evaluator from the measured Ice(K) in 1975Ka13
206BI2cG and the theoretical |a(K) for the indicated multipolarity. The
206BI3cG normalization was done relative to data for 677.7|g, E2 from 1975Ka13
206BI cG M$K:L1:L2=2.52 {I58}:0.44 {I9}:0.35 {I19} (1975Ka13)
206BI G 286.410 26 105 2M1(+E2) 0.06 LT 0.526 7
206BI2 G %IG=24.9 28
206BIS G KC=0.429 6$LC=0.0742 10$MC=0.01744 24
206BIS G NC=0.00446 6$OC=0.000912 13$PC=0.0001085 15
206BI cG M,MR$K:L1:L2:L3:M:N:O=1630 {I40}: 286 {I14}: 32 {I4}: 1.64 {I12}: 64.5
206BI2cG {I23}: 17.3 {I7}: 3.01 {I17}; |a(K)exp=0.464 {I+22-18} (1975Ka13)
206BI cG MR$Other: -0.077<|d<0.077 from |g|g(|q) in 1981El07
206BI G 311.558 30 18.7 4M1(+E2) 0.16 LT 0.415 7
206BI2 G %IG=4.4 5
206BIS G KC=0.338 6$LC=0.0586 9$MC=0.01378 20
206BIS G NC=0.00352 5$OC=0.000720 11$PC=8.56E-5 13
206BI cG M$K:L1:L2:L3:M:N:O=224 {I7}: 39.4 {I15}: 4.2 {I3}: 0.25 {I5}: 9.5
206BI2cG {I4}: 2.6 {I3}: 0.51 {I6}; |a(K)exp=0.346 {I+19-18} (1975Ka13)
206BI cG MR$From L2/K=0.0188 {I15}, L3/K=0.00112 {I23}, M/K=0.0424 {I22},
206BI2cG N/K=0.0116 {I14}, O/K=0.00228 {I28} and |a(K)exp=0.346 {I+19-18}
206BI2cG (1975Ka13); Other: -0.070<|d<0.170 from |g|g(|q) in 1981El07
206BI G 457.765 49 0.68 4 M1(+E2) 0.4 LT 0.141 8
206BI2 G %IG=0.162 20
206BIS G KC=0.115 7$LC=0.0199 8$MC=0.00468 19
206BIS G NC=0.00120 5$OC=0.000244 10$PC=2.89E-5 14
206BI cG M$K:L1:M=2.95 {I17}: 0.66 {I6}: 0.20 {I6}; |a(K)exp=0.125 {I15}
206BI2cG (1975Ka13)
206BI cG MR$From |a(K)exp=0.125 {I15} (1975Ka13)
206BI G 511.359 52 106 2M1(+E2) 0.20 LT 0.1089 22
206BI2 G %IG=25.2 28
206BIS G KC=0.0890 18$LC=0.01522 27$MC=0.00357 6
206BIS G NC=0.000913 16$OC=0.0001866 33$PC=2.22E-5 4
206BI cG M$K:L1:L2:L3:M:N=336 {I9}: 60.1 {I19}: 6.07 {I24}: 0.36 {I5}: 15.7
206BIxcG {I6}: 4.99 {I21}; |a(K)exp=0.0916 {I+43-41} (1975Ka13)
206BI cG MR$From L1/K=0.179 {I7}, L3/K=0.00107 {I15}, M/K=0.0467 {I22},
206BI2cG N/K=0.0149 {I8}, and |a(K)exp=0.346 {I+19-18} (1975Ka13);
206BI3cG Other: -0.152<|d<0.152 from |g|g(|q) in 1981El07
206BI G 866.23 10 0.158 14E2 0.0092913
206BI2 G %IG=0.038 5
206BIS G KC=0.00725 10$LC=0.001545 22$MC=0.000372 5
206BIS G NC=9.50E-5 13$OC=1.895E-5 27$PC=2.072E-6 29
206BI cG M$|a(K)exp=0.0087 {I+29-24} (1975Ka13)
206BI G 980.225 95 31.2 6M1+E2 0.34 +14-160.0189 11
206BI2 G %IG=7.4 8
206BIS G KC=0.0155 9$LC=0.00261 14$MC=0.000610 32
206BIS G NC=0.000156 8$OC=3.19E-5 17$PC=3.80E-6 21
206BI cG M$K:L:M:N=17.2 {I6}: 3.06 {I12}: 0.75 {I3}: 0.230 {I16};
206BI2cG |a(K)exp=0.0159 {I9} (1975Ka13)
206BI cG MR$From L/K=0.178 {I8} and |a(K)exp=0.0159 {I9} (1975Ka13), and
206BI2cG |d=0.38{I15} using |g|g(|q) in 1981El07
206BI G 1318.68 13 2.86 11E2 0.00415 6
206BI2 G %IG=0.68 8
206BIS G KC=0.00335 5$LC=0.000601 8$MC=0.0001420 20
206BIS G NC=3.62E-5 5$OC=7.32E-6 10$PC=8.39E-7 12$IPC=1.840E-5 26
206BI cG M$K:L=0.328 {I23}: 0.065 {I6}; |a(K)exp=0.00331 {I+42-38} (1975Ka13)
206BI L 1523.65 6 1+
206BI E 0.77 108.43 7 0.77 10
206BIS E CK=0.7076 46$CL=0.2157 31$CM+=0.0767 11
206BI G 591.8 0.196 24 [M1,E2] 0.048 27 A
206BI2 G %IG=0.047 8
206BIS G KC=0.038 23$LC=0.0073 31$MC=0.0017 7
206BIS G NC=4.5E-4 18$OC=9.E-5 4$PC=1.0E-5 5
206BI G 645.583 67 1.55 6M1(+E2) 0.25 LT 0.0585 15
206BI2 G %IG=0.37 4
206BIS G KC=0.0479 13$LC=0.00814 19$MC=0.00191 4
206BIS G NC=0.000488 11$OC=9.97E-5 23$PC=1.188E-5 29
206BI cG M,MR$K:L=3.01 {I14}: 0.65 {I5}; |a(K)exp=0.0561 {I+50-46} (1975Ka13)
206BI G 1114.49 14 1.30 8M1(+E2) 0.4 LT 0.0139 6
206BI2 G %IG=0.31 4
206BIS G KC=0.0114 5$LC=0.00191 8$MC=0.000447 19
206BIS G NC=0.000114 5$OC=2.34E-5 10$PC=2.79E-6 12$IPC=4.82E-7 18
206BI cG M,MR$K:L=0.58 {I4}: 0.103 {I22}; |a(K)exp=0.0124 {I13} (1975Ka13)
206BI G 1452.74 15 0.256 15E2 0.00350 5
206BI2 G %IG=0.061 8
206BIS G KC=0.00281 4$LC=0.000491 7$MC=0.0001157 16
206BIS G NC=2.95E-5 4$OC=5.98E-6 8$PC=6.91E-7 10$IPC=4.93E-5 7
206BI cG M$|a(K)exp=0.00316 {I+77-69} (1975Ka13)
206BI L 1567.67 4 1+
206BI G 178.203 20 0.19 4 M1(+E2) 0.5 LT 1.84 13
206BI2 G %IG=0.045 11
206BIS G KC=1.47 14$LC=0.286 7$MC=0.0683 26
206BIS G NC=0.0175 7$OC=0.00352 10$PC=0.000403 9
206BI cG M$K:L1:L2=13.9 {I10}: 2.17 {I19}: 0.24 {I8};
206BI2cG |a(K)exp=2.07 {I+55-37} (1975Ka13)
206BI cG MR$From L1/K(exp)=0.156 {I18} and |a(K)exp=2.07 {I+55-37} (1975Ka13)
206BI G 1496.90 18 1.11 4E2 0.00333 5
206BI2 G %IG=0.264 31
206BIS G KC=0.00266 4$LC=0.000462 6$MC=0.0001088 15
206BIS G NC=2.77E-5 4$OC=5.62E-6 8$PC=6.51E-7 9$IPC=6.21E-5 9
206BI cG M$|a(K)exp=0.00204 {I+42-22} (1975Ka13)
206BI L 1600.20 4(1)+
206BI E 1.9 37.72 9 1.9 3
206BIS E CK=0.655 10$CL=0.253 7$CM+=0.0924 24
206BI G 32.532 19 0.0334 25 M1+E2 0.095 9 63.7 26
206BI2 G %IG=0.0079 11
206BIS G LC=48.4 19$MC=11.7 5
206BIS G NC=2.98 13$OC=0.594 23$PC=0.0656 18
206BI cG M$L1:L2:L3=44.2 {I24}: 10.5 {I9}: 18 {I3} (1975Ka13)
206BI cG MR$From L2/L1(exp)=0.238 {I24} (1975Ka13)
206BI cG RI$Determined by the evaluator from the measured Ice(L1) in 1975Ka13
206BI2cG and the theoretical |a(L1) for the indicated multipolarity. The
206BI3cG normalization was done relative to data for 677.7|g, E2 from 1975Ka13
206BI G 722.034 75 0.30 5 (E2) 0.0134919
206BI2 G %IG=0.071 14
206BIS G KC=0.01027 14$LC=0.002443 34$MC=0.000595 8
206BIS G NC=0.0001519 21$OC=3.01E-5 4$PC=3.19E-6 4
206BI cG M$|a(K)exp=0.0128 {I+42-36} (1975Ka13)
206BI G 1190.92 14 2.08 8E2 0.00501 7
206BI2 G %IG=0.49 6
206BIS G KC=0.00403 6$LC=0.000747 10$MC=0.0001772 25
206BIS G NC=4.52E-5 6$OC=9.11E-6 13$PC=1.035E-6 14$IPC=3.07E-6 4
206BI cG M$K:L:M:N=0.285 {I15}: 0.042 {I4}: 0.014 {I4};
206BI2cG |a(K)exp=0.00396 {I34} (1975Ka13)