205PB 205BI EC DECAY 1972HA71 04NDS 200404
205PB H TYP=FUL$AUT=F.G. KONDEV$CIT=NDS 101, 521 (2004)$CUT=1-Feb-2004$04PB
205PB H TYP=UPD$AUT=N.K.Kuzmenko$CUT=10-JAN-2017$
205PB c 2012Wa38: updated Q(g.s.). Recalculated half-life(g.s.),EAV(beta+).
205PB2c Half-life (205BI): Weighted average of 1958Fr53,1961Br19,2009Kuhn.
205PB c Others: 1990Si13, 1973Ah01, 1972LaYV, 1971Gi03, 1971KoZP, 1971Ru01,
205PB2c 1971Jo06, 1960St24, 1960Ve04, 1959St42, 1956Sc18
205PB cE $I|e is calculated from intensity balance considerations.
205PB cG E,RI$From 1972Ha71, unless otherwise specified.
205PB cG RI(D)$From coincidence data. E|g deduced from E(level) in 1972Ha71.
205PB cG M$From |g(|q) (1990Si13), |g|g(|q) (1973Ah01) and |a(K)exp data,
205PB2cG unless otherwise specified.
205PB cG MR$From |a(K)exp data of 1972Ha71, unless otherwise specified.
205PB cL E$From a least-squares fit to E|g.
205PB cL J,T$From adopted levels.
205BI P 0.0 9/2- 15.11 D 20 2706 5
205PB N 311E-6 4 1.0 1.0
205PB cN NR$From the decay scheme by assuming |S(I(|g+ce)(g.s.))=100%.
205PB2cN The total intensity of the 2.328-keV |g-ray is assumed to be equal to
205PB3cN |S(I(|g+ce)(2.328-keV level)). The |e+|b{++} feeding to the g.s. and
205PB4cN 2.328-keV level is assumed to be negligible.
205PB5cN The total energy realized in |e decay of {+205}Bi is calculated
205PB6cN using RADLST as
205PB7cN 2736 keV {I49}. This value is in a very good agreement with
205PB8cN Q(g.s.)=2706 keV {I5}, thus suggesting that the decay scheme
205PB9cN is complete.
205PB G 90.03 3
205PB cG E$From 1971Ru01.
205PB G 112.7 1 28 2
205PB G 122.6 10 22 2
205PB G 148.8 2 17 5
205PB G 339.25 20 35 5
205PB G 668.6 6 60 40
205PB G 669.8 12 30 40
205PB G 683.5 3 85 10
205PB G 777.85 15 235 30
205PB G 931.50 15 125 15
205PB G 1063.90 15 80 15
205PB G 1075.10 10 35 15
205PB G 1265.9 3 150 40
205PB G 1277.2 2 122 14
205PB G 1438.7 2 375 20
205PB G 1676.4 3 105 20
205PB G 2003.3 5 12 5
205PB L 0.0 5/2- 1.73E+7 Y 7
205PB E 0.11 LT 2.0 LT 10.2 GT 2.1 LT S
205PBS E EAV=767.5 23$CK=0.7627 5$CL=0.1399 2$CM+=0.04567 4
205PB L 2.329 7 1/2- 24.2 US 4
205PB G 2.328 7 E2
205PB cG E$From 1971Jo06
205PB cG M$From sub-shell ce ratios (1971Jo06)
205PB L 262.81 3 3/2-
205PB G 260.50 5 35E+2 1 M1(+E2) 0.5 LE 0.61 5
205PB cG M$|g|g(|q) in 1973Ah01; |a(K)exp=0.50 {I6} and K/L=5.5 {I7} (1972Ha71);
205PB2cG |a(K)exp=0.56 {I13}, average of values given in 1959St42 and 1960St24.
205PB cG MR$Other: |d=1.6 {I2} from |g|g(|q) in 1973Ah01.
205PBS G KC=0.49 5$LC=0.089 3$MC=0.0211 5$NC+=0.0068 2
205PB G 262.80 5 1170 40 M1(+E2) 0.7 LE 0.56 8
205PB cG M$|g|g(|q) in 1973Ah01; |a(K)exp=0.45 {I7} and K/L=5.8 {I7} (1972Ha71);
205PB2cG |a(K)exp=0.40 {I10} (1960St24).
205PB cG MR$Other: |d=-0.7 {I2} from |g|g(|q) in 1973Ah01.
205PBS G KC=0.45 8$LC=0.085 5$MC=0.0203 8$NC+=0.0066 3
205PB L 576.21 4 3/2-
205PB G 313.43 20 110 30 M1(+E2) 0.25 15 D
205PB cG M$|a(K)exp=0.28 {I7} (1972Ha71) and 0.29 {I9} (1960St24).
205PBS G KC=0.19 14$LC=0.044 12$MC=0.0106 23$NC+=0.0034 8
205PB G 573.85 5 2000 40 M1(+E2) 1.3 LE 0.061 18
205PB cG M$|a(K)exp=0.054 {I20} (1956Sc18).
205PBS G KC=0.049 16$LC=0.0088 21
205PB G 576.30 10 605 20 [M1] 0.0778
205PBS G KC=0.0636 19$LC=0.0107 4
205PB L 703.44 3 7/2-
205PB E 2003 5 0.142 4 16.15 25 9.038 8 16.29 25
205PBS E EAV=459.6 22$CK=0.7941 2$CL=0.14852 7$CM+=0.04864 3
205PB G 127.0 2 10 2 [E2] 2.39
205PBS G KC=0.430 13$LC=1.45 5$MC=0.382 12$NC+=0.124 4
205PB G 703.45 5 100000 M1+E2 +7.2 4 0.0143 1
205PB cG M$A{-2}=-0.33 {I1}, A{-4}=0.625 {I1} (1990Si13); |a(K)exp=0.0110 {I10}
205PB2cG and K/L=4.6 {I4} (1972Ha71); K/L=4.2 {I1} (1956Sc18); |a(K)exp=0.108
205PBxcG {I10} (1956Sc18,1959St42)
205PB cG MR$From 1990Si13. Other: 6 {I1} from 1973Ah01.
205PBS G KC=0.0110 1$LC=0.00255 1
205PB L 761.43 4 5/2-
205PB G 185.22 10 305 20 M1(+E2) 0.3 LE 1.64 5
205PB cG M$|a(K)exp=1.48 {I21} (1972Ha71) and 1.5 {I4} (1960St24).
205PBS G KC=1.33 5$LC=0.240 1$MC=0.0565 7$NC+=0.0185 2
205PB G 498.40 15 300 50 (M1) 0.114
205PB cG M$From |a(K)exp=0.09 {I3} (1972Ha71).
205PBS G KC=0.093 3$LC=0.0157 5$MC=0.00367 11$NC+=0.00120 4
205PB G 759.10 10 333E+1 15 E2 0.0117
205PB cG M$|a(K)exp=0.0106 {I22} (1972Ha71) and 0.0088 {I25} (1956Sc18).
205PBS G KC=0.0090 3$LC=0.00203 6
205PB G 761.35 10 22E+2 1 E2 0.0116
205PB cG M$|a(K)exp=0.0100 {I22} (1972Ha71) and 0.010 {I4} (1956Sc18).
205PBS G KC=0.0090 3$LC=0.00202 6
205PB L 987.62 3 9/2-
205PB E 0.006 4 2.4 15 9.7 3 2.4 15
205PBS E EAV=334.8 23$CK=0.7970$CL=0.15096 6$CM+=0.04953 3
205PB G 284.15 10 5440 70 M1(+E2) 0.06 6 0.514 4
205PB cG M$From |g|g(|q) in 1973Ah01; |a(K)exp=0.37 {I5} (1972Ha71) and
205PB2cG 0.38 {I9}, average of values given in 1956Sc18 and 1959St42.
205PB cG MR$From |g|g(|q) in 1973Ah01.
205PBS G KC=0.420 4$LC=0.0721 3$MC=0.0169 1$NC+=0.00547 2
205PB G 987.66 5 5188E+150 E2
205PB cG M$|g|g(|q) in 1973Ah01; |a(K)exp=0.0055 {I7} and K/L=5.6 {I8}
205PB2cG (1972Ha71); |a(K)exp=0.0054 {I5}, average of values given in 1956Sc18
205PBxcG and 1959St42.
205PBS G CC=0.00690$KC=0.00547 17$LC=0.00107 4
205PB L 1013.84 3 13/2+ 4.8 MS 15 M1
205PB cL T$From 1960Ve04.
205PB E 0.0014 5 3.8 15 10.52 18 3.8 15 1U
205PBS E EAV=323.2 23$CK=0.7820 2$CL=0.1632 1$CM+=0.05443 5
205PB G 26.220 11 3.9 4 M2 11160
205PB cG E$From 1971Ru01.
205PBS G LC=8.8E3$MC=2.41E3
205PB cG RI$From I(|g+ce) in 1972Ha71 and the reported here |a value.
205PB G 310.35 5 336 10 E3 0.544
205PB cG M$|a(K)exp=0.14 {I3} (1972Ha71) and 0.17 {I7} (1960St24).
205PBS G KC=0.159 5$LC=0.284 9$MC=0.0762 23$NC+=0.0250 8
205PB DG CC E3 CC(THEORY)'S MULT. BY 0.975 10 (Cf. 1990Ne01)
205PB G 1013.8 1 185 40 M4 0.148
205PB cG RI$From ce(K)(1013.8)/ce(K)(703.3)=1.77 {I26} of 1965Be08 corrected for
205PB2cG 1013.4 M1 component
205PBS G KC=0.110 4$LC=0.0285 9
205PB DG CC M4 CC(THEORY)'S MULT. BY 0.975 5 (Cf. 1990Ne01)
205PB L 1043.72 3 7/2-
205PB E 0.0004 LT 0.2 LT 10.8 GT 0.2 LT
205PBS E EAV=309.9 23$CK=0.7971$CL=0.15142 6$CM+=0.04971 3
205PB G 282.38 7 1370 20 M1(+E2) 0.6 LE 0.47 5
205PB cG M$|a(K)exp=0.39 {I6} (1972Ha71) and
205PB2cG 0.42 {I7}, average of values given in 1956Sc18 and 1959St42.
205PBS G KC=0.38 5$LC=0.070 4$MC=0.0166 7$NC+=0.0054 2
205PB G 780.92 5 1840 30 E2 0.0110
205PB cG M$From |g|g(|q) in 1973Ah01.
205PBS G KC=0.0085 3$LC=0.00189 6
205PB G 1043.75 5 2415E+130 M1+E2 +0.03 1 0.0167
205PB cG M$A{-2}=0.27 {I2}, A{-4}=0.001 {I1} (1990Si13); |a(K)exp=0.0130 {I14}
205PB2cG and K/L=6.8 {I10} (1972Ha71); |g|g(|q) in 1973Ah01;
205PB3cG |a(K)exp=0.013 {I2}, average of values given in 1956Sc18 and 1959St42.
205PB cG MR$From 1990Si13. Other: -0.15 {I15} in 1973Ah01.
205PBS G KC=0.0137$LC=0.00227
205PB L 1264.73 4 5/2-
205PB G 221.07 7 100 6 M1(+E2) 0.6 LE 0.94 10
205PB cG M$|a(K)exp=0.88 {I24} (1972Ha71) and 0.56 {I19} (1956Sc18).
205PBS G KC=0.75 10$LC=0.143 2$MC=0.0339 1$NC+=0.0110 1
205PB G 277.2 5 50 10
205PB G 503.4 5 25 15
205PB G 561.27 5 170 15
205PB G 688.50 5 730 30 M1+E2 1.4 8 0.026 14
205PB cG M$|a(K)exp=0.021 {I5} (1972Ha71) and 0.017 {I6} (1956Sc18).
205PBS G KC=0.021 12$LC=0.0040 17
205PB G 1001.95 20 88E+1 14 (M1+E2) 0.013 6 D
205PB cG M$|a(K)exp=0.0108 {I22} (1972Ha71).
205PBS G KC=0.010 5$LC=0.0018 8
205PB G 1261.65 20 198 20
205PB2 G FL=2.329
205PB G 1264.8 2 400 70
205PB L 1499.14 4 9/2-
205PB E 0.2 LT 10.5 GT ?
205PBS E CK=0.7925 2$CL=0.1560 1$CM+=0.05148 4
205PB G 511.50 5 2750 50 M1(+E2) -0.08 9 0.106 2
205PB cG M$A{-2}=-0.39 {I6}, A{-4}=-0.003 {I+3-9} (1990Si13); |a(K)exp=0.082
205PB2cG {I11} (1972Ha71) and 0.07 {I2} (1956Sc18).
205PB cG MR$From 1990Si13. Other: |d=-0.4 {I1} from |g|g(|q) in 1973Ah01.
205PBS G KC=0.087 2$LC=0.0146 2
205PB G 795.67 5 450 20
205PB G 1499.00 15 550 45 (E2)
205PB cG M$|a(K)exp=0.0034 {I8} (1972Ha71).
205PBS G CC=0.00313$KC=0.00255 8$LC=0.00044 1
205PB L 1575.35 5 9/2-
205PB E 0.75 4 9.850 24 0.75 4
205PBS E CK=0.7910 2$CL=0.1571 1$CM+=0.05191 5
205PB G 813.75 10 1510 40 E2 0.0102
205PB cG M$|a(K)exp=0.008 {I3} (1972Ha71).
205PBS G KC=0.00788 24$LC=0.00171 6
205PB G 871.95 5 1340 30
205PB L 1593.57 3 9/2+
205PB E 8.15 13 8.799 10 8.15 13
205PBS E CK=0.7906 2$CL=0.1573 2$CM+=0.05202 5
205PB G 549.84 4 949E+1 10 E1(+M2) -0.01 6
205PB cG M$A{-2}=0.3 {I1}, A{-4}=0.000 {I2} (1990Si13); |a(K)exp=0.0080 {I14}
205PB2cG (1972Ha71) and 0.0074 {I21}, average of values given in 1956Sc18 and
205PBxcG 1959St42.
205PB cG MR$From 1990Si13.
205PBS G CC=0.0079 12$KC=0.0065 9$LC=0.00104 19
205PB G 579.80 10 175E2 2 E2 0.0210
205PB cG M$A{-2}=-0.22 {I5} (1990Si13); |a(K)exp=0.0151 {I18} and K/L=3.5 {I8}
205PB2cG (1972Ha71); |a(K)exp=0.015 {I2}, average of values given in 1956Sc18
205PBxcG and 1959St42.
205PBS G KC=0.0153 5$LC=0.00423 13
205PB G 606.25 15 80 13
205PB G 890.15 5 2180 30 (E1)
205PB cG M$|a(K)exp|<0.0037 (1972Ha71).
205PBS G CC=0.00310$KC=0.00258 8$LC=0.00040 1
205PB L 1614.32 3 7/2-
205PB E 11.22 19 8.642 10 11.22 19
205PBS E CK=0.7902 2$CL=0.1577 2$CM+=0.05215 5
205PB G 115.10 10 240 10 M1+E2 0.7 3 5.6 6
205PB cG M$|a(K)exp=3.6 {I7} (1960St24).
205PBS G KC=3.7 10$LC=1.4 3$MC=0.34 8$NC+=0.112 24
205PB G 349.55 5 1810 30 M1+E2 0.65 21 0.23 3
205PB cG M$|a(K)exp=0.182 {I25} and K/L=4.9 {I13} (1972Ha71);
205PB2cG |a(K)exp=0.21 {I3}, average of values given in 1956Sc18 and 1959St42.
205PBS G KC=0.18 3$LC=0.035 3$MC=0.0084 6$NC+=0.00271 18
205PB G 570.60 5 1394E+120 M1(+E2) -0.01 +10-3 0.0798 7
205PB cG M$A{-2}=-0.43 {I+3-7} A{-4}=0.0 (1990Si13); |a(K)exp=6.3 {I7} and
205PB2cG K/L=5.8 {I12} (1972Ha71);
205PB3cG |a(K)exp=0.065 {I10}, average of values given in 1956Sc18 and 1959St42.
205PB cG MR$From 1990Si13. Other: 0.8 {I1} from |g|g(|q) in 1973Ah01.
205PBS G KC=0.0653 4$LC=0.0110 1
205PB G 626.71 10 1880 20 M1+E2 0.5 3 0.054 9
205PB cG M$|a(K)exp=0.043 {I6} (1972Ha71) and 0.040 {I7} (1956Sc18).
205PBS G KC=0.043 8$LC=0.0075 10
205PB G 852.90 5 232 15
205PB G 910.90 5 528E+1 10 M1(+E2) -0.05 5 0.0237 1
205PB cG M$|g|g(|q) in 1973Ah01; |a(K)exp=0.019 {I3} (1972Ha71) and
205PB2cG 0.018 {I3}, average of values given in 1956Sc18 and 1959St42.
205PB cG MR$From 1973Ah01.
205PBS G KC=0.0194 1$LC=0.00323 2
205PB G 1038.86 24 365 30
205PB cG E E(|g) off by |>3 standard deviations from adopted E(level)
205PB G 1351.52 5 34E+2 1 E2
205PB cG M$A{-2}=-0.63 {I14} (1990Si13); |a(K)exp=0.0031 {I9} (1972Ha71) and
205PB2cG 0.0033 {I13} (1956Sc18).
205PBS G CC=0.00379$KC=0.00307 10$LC=0.00054 2
205PB G 1614.30 15 732E+1 12 M1+E2 -0.84 +17-23 5.3E-3
205PB cG M$A{-2}=1.09 {I+1-4}, A{-4}=0.26 {I+8-7} (1990Si13); |a(K)exp=0.0047
205PB2cG {I11} (1972Ha71) and 0.0053 {I13} (1956Sc18).
205PB cG MR$From 1990Si13.
205PB L 1704.97 4(7/2,9/2)-
205PB E 0.9 6 9.7 3 0.9 6 ?
205PBS E CK=0.7879 2$CL=0.1593 2$CM+=0.05280 6
205PB G 129.62 10 20 2 [M1] 4.65
205PBS G KC=3.79 12$LC=0.657 20$MC=0.154 5$NC+=0.0509 16
205PB G 205.74 7 81 10 M1(+E2) 0.8 LE 1.09 17
205PB cG M$|a(K)exp=0.90 {I20} (1972Ha71).
205PBS G KC=0.86 17$LC=0.177 1$MC=0.0423 8$NC+=0.0138 2
205PB G 661.40 15 90 15
205PB G 717.37 5 1000 20 M1+E2 0.8 6 0.032 11
205PB cG M$|a(K)exp=0.026 {I7} (1972Ha71) and 0.027 {I2} (1956Sc18).
205PBS G KC=0.026 10$LC=0.0046 13
205PB G 1001.59 20 82E+1 14 (M1+E2) 0.013 6 D
205PB cG M$|a(K)exp=0.0108 {I22} (1972Ha71) and 0.013 {I5} (1956Sc18).
205PBS G KC=0.010 5$LC=0.0018 8
205PB L 1756.4 3
205PB G 1756.4 3 700 40
205PB L 1758.63 4 9/2+
205PB E 0.13 5 10.45 17 0.13 5
205PBS E CK=0.7863 3$CL=0.1604 2$CM+=0.05325 7
205PB G 164.95 10 50 3 [M1] 2.35
205PBS G KC=1.91 6$LC=0.330 10$MC=0.0775 24$NC+=0.0255 8
205PB G 259.46 20 160 80 [E1] 0.0418 D
205PBS G KC=0.0341 11$LC=0.00587 18$MC=0.00137 5$NC+=0.00043 1
205PB G 744.70 10 2240 50 E2 0.0122
205PB cG M$|a(K)exp=0.010 {I3} (1972Ha71) and 0.009 {I3} (1956Sc18).
205PBS G KC=0.0093 3$LC=0.00213 7
205PB G 771.40 15 150 12 ?
205PB L 1764.37 4 7/2-
205PB E 32.6 8 8.041 13 32.6 8
205PBS E CK=0.7861 3$CL=0.1606 2$CM+=0.05330 7
205PB G 170.8 2 13 3 [E1] 0.116
205PBS G KC=0.094 3$LC=0.0170 5$MC=0.00397 12$NC+=0.00127 4
205PB G 499.54 20 200 50 (M1) 0.113 D
205PB cG M$From |a(K)exp=0.09 {I3} (1972Ha71).
205PBS G KC=0.093 3$LC=0.0156 5$MC=0.00365 11$NC+=0.00119 4
205PB G 720.65 10 460 30 M1(+E2) 0.2 LE 0.0429 6
205PB cG M$|a(K)exp=0.0359 {I+11-8} (1972Ha71).
205PBS G KC=0.0351 5$LC=0.00587 7
205PB G 1003.0 3 23E+1 10 (M1+E2) 0.013 6
205PB cG M$|a(K)exp=0.0108 {I22} (1972Ha71).
205PBS G KC=0.010 5$LC=0.0018 8
205PB G 1060.75 15 142 15
205PB G 1501.40 10 730 45 (E2)
205PB cG M$|a(K)exp=0.0034 {I8} (1972Ha71) and 0.0044 {I25} (1956Sc18).
205PBS G CC=0.00254$KC=0.00254 8
205PB G 1764.30 10 1044E+220 M1+E2 +0.055 +10-8 4.3E-3
205PB cG M$K/L=6.0 {I3} (1956Sc18); internal pair coef=3.4|*10{+-4} {I6}
205PB2cG (1971Al03); A{-2}=0.22 {I2}, A{-4}=0.002 {I1} (1990Si13);
205PB3cG |a(K)exp=0.0042 {I5} and K/L=6.6 {I8} (1972Ha71);
205PB4cG |a(K)exp=0.0045 {I9}, average of values given in 1956Sc18 and 1959St42.
205PB cG MR$From 1990Si13
205PB L 1775.80 4 7/2-
205PB E 5.50 11 8.802 12 5.50 11
205PBS E CK=0.7858 3$CL=0.16083 17$CM+=0.05341 7
205PB G 788.13 15 320 50
205PB G 1014.30 5 2940 60 M1+E2 0.6 4 0.015 3
205PB cG M$|a(K)exp=0.0124 {I20} (1972Ha71).
205PBS G KC=0.0122 23$LC=0.0021 4
205PB G 1072.40 10 972 20 M1(+E2) 0.7 LE 0.014016
205PB cG M$|a(K)exp=0.013 {I3} (1972Ha71).
205PBS G KC=0.0115 14$LC=0.00192 21
205PB G 1199.62 10 610 40
205PB G 1513.40 20 225 40
205PB G 1775.80 10 1282E+125 M1(+E2) +0.03 +4-3
205PB cG M$A{-2}=0.26 {I+6-7}, A{-4}=0.001 {I+2-1} (1990Si13); |a(K)exp=0.0039
205PB2cG {I10} (1972Ha71) and 0.0043 {I12}, average of values given in 1956Sc18
205PBxcG and 1959St42.
205PB cG MR$From 1990Si13
205PB L 1817.9918
205PB G 1815.6 4 44 15
205PB G 1818.0 2 *
205PB L 1842.05 5 (13/2)+
205PB E 0.161 21 10.65 6 0.161 21 1U
205PBS E CK=0.7444 7$CL=0.1901 5$CM+=0.06545 21
205PB G 248.4 2 6 4
205PB G 828.22 5 930 40 [E2] 0.0098
205PBS G KC=0.00762 23$LC=0.00163 5
205PB L 1965.98 7 (5/2-,7/2,9/2-)
205PB E 0.26 7 9.91 12 0.26 7
205PBS E CK=0.7777 4$CL=0.1666 3$CM+=0.05569 11
205PB G 701.16 20 5E+2 2 D
205PB G 922.15 10 170 10
205PB G 978.50 10 130 20
205PB G 1965.8 5 26 5
205PB L 2203.87 5 7/2+,9/2+,11/2+
205PB E 2.78 13 8.500 25 2.78 13
205PBS E CK=0.7573 10$CL=0.1812 7$CM+=0.0615 3
205PB G 361.85 20 98 30 D
205PB G 444.8 7 44 20
205PB G 498.87 20 130 80 D
205PB G 704.86 20 122E+1 30 D
205PB G 1190.03 5 727E+1 20 M1+E2 -0.08 3 0.0120
205PB cG M$A{-2}=0.04 {I5}, A{-4}=0.002 {I+2-1} (1990Si13); |a(K)exp=0.0094
205PB2cG {I18} (1972Ha71) and 0.011 {I2} (1956Sc18).
205PB cG MR$From 1990Si13.
205PBS G KC=0.0098$LC=0.00162 1
205PB G 1216.25 10 324 15
205PB L 2252.29 4 (7/2,9/2)+
205PB E 1.26 6 8.74 3 1.26 6
205PBS E CK=0.7499 13$CL=0.1864 9$CM+=0.0636 4
205PB G 476.30 15 75 10
205PB G 488.05 15 125 15
205PB G 493.65 5 1200 25 M1(+E2) -0.1 +19-2 0.12 7
205PB cG M$A{-2}=-0.3 {I+1-2}, A{-4}=-0.01 {I+1-4} (1990Si13); |a(K)exp=0.092
205PB2cG {I13} (1972Ha71) and 0.12 {I2} (1956Sc18).
205PB cG MR$From 1990Si13
205PBS G KC=0.09 6$LC=0.016 8$MC=0.0037 17$NC+=0.0012 6
205PB G 987.49 20 3E+2 1 D
205PB G 1208.70 5 1645 30 E1+M2 -0.08 +6-5
205PB cG M$A{-2}=+0.44 {I9}, A{-4}=+0.003 {I+6-3} (1990Si13)
205PB cG MR$From 1990Si13.
205PBS G CC=0.0020 4$KC=0.00163 21$LC=0.00025 5
205PB G 1264.60 20 160 70 D
205PB G 1548.65 15 900 50
205PB L 2488.08 4 (7/2+,9/2+)
205PB E 1.09 3 7.98 5 1.09 3
205PBS E CK=0.638 10$CL=0.265 7$CM+=0.096 3
205PB G 235.97 6 182 10 M1(+E2) 0.5 LE 0.80 7
205PB cG M$|a(K)exp=0.73 {I15} (1972Ha71) and 0.50 {I19} (1956Sc18).
205PBS G KC=0.64 6$LC=0.119 2$MC=0.0280 3$NC+=0.0091 1
205PB G 284.26 10 100 30 [M1] 0.515 D
205PBS G KC=0.420 13$LC=0.0721 22$MC=0.0169 5$NC+=0.00547 17
205PB G 646.00 10 210 10
205PB G 723.57 5 490 40 (E1)
205PB cG M$|a(K)exp<0.038 (1972Ha71).
205PBS G CC=0.00459$KC=0.00380 12$LC=0.00059 2
205PB G 729.40 5 210 12 (M1+E2) 0.027 15
205PB cG M$|a(K)exp<0.078 (1972Ha71).
205PBS G KC=0.022 13$LC=0.0040 18
205PB G 894.56 5 2000 30 M1(+E2) 0.7 LE 0.022 3
205PB cG M$|a(K)exp=0.019 {I3} (1972Ha71).
205PBS G KC=0.0181 23$LC=0.0031 4
205PB G 989.12 20 100 LT D
205PB L 2521.4713 (5/2-,7/2-)
205PB E 0.32 6 8.30 10 0.32 6
205PBS E CK=0.583 16$CL=0.304 12$CM+=0.113 5
205PB G 703.4 * ?
205PB G 757.09 20 40E+1 15 D
205PB G 1256.9 5 70 35
205PB G 1760.0 4 4E+2 1 D
205PB G 1818.0 2 152 12 *
205PB L 2565.12 3 9/2+
205PB E 9.30 16 6.46 8 9.30 16
205PBS E CK=0.44 4$CL=0.41 3$CM+=0.157 13
205PB G 312.84 20 80 30 (M1) 0.396 D
205PB cG M$|a(K)exp=0.28 {I7} (1972Ha71)and 0.29 {I9} (1960St24).
205PBS G KC=0.324 10$LC=0.0554 17$MC=0.0130 4$NC+=0.00420 13
205PB G 361.20 20 100 30 D
205PB G 723.09 20 90 40 D
205PB G 789.3 2 60 30
205PB G 800.80 5 610 20
205PB G 806.55 10 510 40
205PB G 860.13 5 1400 25
205PB G 950.84 5 1250 30
205PB G 971.56 5 900 20
205PB G 989.84 20 240 80 D
205PB G 1066.03 15 352 15
205PB G 1521.20 10 640 40
205PB G 1551.00 10 3120 80 E2
205PB cG M$|a(K)exp=0.0028 {I8} (1972Ha71) and 0.0033 {I17} (1956Sc18).
205PBS G CC=0.00239$KC=0.00239 8
205PB G 1577.50 15 535 30
205PB G 1861.70 10 1984E+130 E1(+M2) +0.002 +19-6
205PB cG M$A{-2}=0.30 {I+1-4}, A{-4}=0.0 (1990Si13); |a(K)exp=0.00089 {I3}
205PB2cG (1972Ha71) and 0.0010 {I3}, average of values given in 1956Sc18 and
205PBxcG 1959St42.
205PB cG MR$From 1990Si13
205PB G 2565.10 15 136 7 M2
205PB cG M$|a(K)exp=0.0023 {I6} (1972Ha71) and 0.0018 {I9} (1959St42).
205PB L 2606.87 4 9/2+
205PB E 3.68 8 6.31 11 3.68 8
205PBS E CK=0.09 8$CL=0.64 5$CM+=0.27 3
205PB G 354.45 10 55 6
205PB G 764.99 20 30 12 D
205PB G 831.0 3 130 30
205PB G 842.8 3 70 20
205PB G 848.2 3 85 12
205PB G 901.90 5 415 15
205PB G 992.65 20 28E+1 10 D
205PB G 1013.40 15 265 60 M1+E2 -0.4 1 0.0165 8 D
205PB cG M$A{-2}=-0.13 {I9}, A{-4}=-0.07 {I+3-4} (1990Si13); ce in 1965Be08.
205PB cG MR$From 1990Si13
205PBS G KC=0.0135 6$LC=0.00225 9
205PB G 1031.5 3 110 35
205PB G 1107.72 10 318 30
205PB G 1563.15 10 530 30
205PB G 1593.00 15 370 25
205PB G 1619.10 15 1180 50
205PB G 1903.45 10793E+1 12 E1(+M2) +0.01 +2-1
205PB cG M$A{-2}=0.32 {I+2-3} (1990Si13); |a(K)exp=0.0007 {I2} (1972Ha71)
205PB2cG and 0.00078 {I18}, average of values given in 1956Sc18 and 1959St42.
205PB cG MR$From 1990Si13
205PB G 2607.1 2 60 6 M2
205PB cG M$|a(K)exp=0.0029 {I8} (1972Ha71) and 0.0025 {I13} (1959St42).