206PB 206BI EC DECAY 1972MA63,1972KA30 08NDS 200805
206PB H TYP=FUL$AUT=F.G. KONDEV$CIT=NDS 109, 1527 (2008)$CUT=31-Jan-2008$
206PB H TYP=UPD$AUT=N.K.Kuzmenko$CUT=10-JAN-2017$
206PB c 2012Wa38: updated Q(g.s.). Recalculated EAV(beta+).
206PB2c Half-life (206BI): Weighted average of 1959Li50,1961Br19,1962Pe08.
206BI P 0.0 6+ 6.243 D 3 3757 8
206PB N 0.990 10 1.0 1.0
206PB PN 3
206PB cN NR$From I(|g+ce)(803|g)=100%. The decay scheme is complete,
206PB2cN since there is a good agreement between {+206}Bi |e decay
206PB3cN Q value of 3793 keV {I28} calculated using the decay scheme and and the
206PB4cN sum of the average radiation energies (calculated with RADLIST)
206PB5cN and that of 3757 keV {I8}, as given by 2003Au03 (atomic mass
206PBxcN differences)
206PB c See also: 1971Ka16, 1970AlZV, 1971Al03, 1971Ru01, 1973Ka35, 1977Ko47,
206PB2c 1977Mc01, 1980Ba19
206PB c The level scheme is taken from 1972Ma63 and 1972Ka30.
206PB DG ADDED UNCERTAINTY TO NORMALIZATION (E. BROWNE, JUNE 1998).
206PB DG SOME OF THE G ENERGIES ARE 1972Ma63 (G DATA) AND SOME FROM
206PB2DG 1972Ka30 (CONVERSION-ELECTRON DATA) AND THE TWO SETS ARE SOMEWHAT
206PB3DG INCONSISTENT. IN THE NEXT EVALUATION, IT MIGHT HELP TO ANALYZE
206PB4DG THE DIFFERENCES, GENERATE A "CORRECTION" FUNCTION, AND AVERAGE
206PB5DG THE "CORRECTED" VALUES.
206PB cL E$From least-squares fit to |g energies.
206PB cL J,T$From {+206}Pb adopted levels, unless otherwise specified
206PB cG E$From 1972Ma63 or 1972Ka30
206PB cG RI$From 1972Ma63, unless otherwise specified.
206PB cG M$From adopted gammas. The {+206}Bi |e decay data are from L subshell
206PB2cG ratios (1972Ka30) and/or |a(K)exp (1972Ka30 and 1972Ma63 but based on
206PB3cG ce data of 1972Ka30) that are normalized to |a(K)exp(803|g).
206PB cG E(A)$Seen by both 1972Ma63 and 1972Ka30, but not placed in level
206PB2cG scheme by 1972Ka30.
206PB cG E(B,C)$Seen by 1972Ka30, but not by 1972Ma63
206PB cG E(D)$Unplaced |g observed by 1972Ma63
206PB cG MR(K)$From |g(|q) hyperfine interaction (1973Ka35)
206PB cG MR(R)$From |g|g(|q) (1980Ba19)
206PB cG MR(N)$From L-subshell ratios (1972Ka30)
206PB cE IE$Note that 1962Pe08 measured a total positron intensity of 0.00084
206PB2cE {I14} and assumed it was feeding the 1684-keV level. Such a feeding
206PB3cE cannot be accounted for by the |g intensity balance. Their end-point
206PB4cE was 977 {I33} keV.
206PB cE TI$From transition intensity balances.
206PB G 257.31 5 B
206PB G 380.83 6 B
206PB G 573.72 9 B
206PB G 1047.55 10 0.057 6 D
206PB cG E$in (n,n'|g) study, a |g of this energy is placed from a level at 3244
206PB G 1059.64 16 B
206PB G 1071.88 16 B
206PB G 1093.31 10 0.071 7 D
206PB G 1166.70 16 B
206PB G 1208.76 10 0.050 5 D
206PB G 1393.65 16 B
206PB G 1420.22 10 0.043 4 D
206PB G 1466.63 17 B
206PB G 1496.18 8 0.178 10 D
206PB G 1963.2 3 0.011 2 D
206PB L 0.0 0+
206PB L 803.10 5 2+
206PB2 L G=-0.01 7$
206PB cL G$From |g-|g perturbed angular correlation (1970Za03)
206PB G 803.10 5 100 1 E2 0.01033
206PBS G KC=0.00804 12$LC=0.001745 25$MC=0.000420 6$NC+=0.0001290 18
206PBS G NC=0.0001065 15$OC=2.06E-5 3$PC=1.89E-6 3
206PB cG M$ce-ce(|q) measurements of 1964Sa37 indicate that the 803|g is
206PB2cG of E2 character
206PB cG RI$Uncertainty estimated by evaluator from author's |g-ray spectrum.
206PB L 1340.55 6 3+
206PB G 537.45 4 30.8 3 M1(+E2) +0.001 5 0.0900 K
206PBS G KC=0.0738 11$LC=0.01241 18$MC=0.00290 4$NC+=0.000899 13
206PBS G NC=0.000737 11$OC=0.0001469 21$PC=1.575E-5 22
206PBS G LC=0.00046
206PB cG M$ce-ce(|q) measurements of 1964Sa37 indicate that the 537|g is
206PB2cG predominantly of M1 character
206PB L 1684.04 6 4+
206PB G 343.51 3 23.7 3M1(+E2) +0.001 3 0.297 K
206PBS G KC=0.243 4$LC=0.0414 6$MC=0.00969 14$NC+=0.00301 5
206PBS G NC=0.00246 4$OC=0.000491 7$PC=5.26E-5 8
206PB G 881.01 5 66.9 7E2 0.00857
206PBS G KC=0.00674 10$LC=0.001392 20$MC=0.000333 5$NC+=0.0001025 15
206PBS G NC=8.45E-5 12$OC=1.643E-5 23$PC=1.543E-6 22
206PB L 1997.72 6 4+
206PB E 0.0003 2 0.09 8 10.8 4 0.09 8
206PBS E EAV=352.8 36$CK=0.7969$CL=0.15063 7$CM+=0.04941 3
206PB G 313.66 4 0.363 10M1(+E2) 0.24 14
206PBS G KC=0.19 13$LC=0.043 11$MC=0.0103 22$NC+=0.0032 7
206PBS G NC=0.0026 6$OC=0.00051 13$PC=4.6E-5 22
206PB G 657.16 5 1.93 3M1(+E2) 0.44 LT 0.050 4 N
206PBS G KC=0.041 3$LC=0.0069 4$MC=0.00162 9$NC+=0.00050 3
206PBS G NC=0.000412 22$OC=8.2E-5 5$PC=8.8E-6 6
206PB G 1194.69 8 0.280 15E2 0.00474
206PBS G KC=0.00383 6$LC=0.000697 10$MC=0.0001646 23$NC+=5.42E-5 8
206PBS G NC=4.17E-5 6$OC=8.20E-6 12$PC=8.15E-7 12$IPC=3.43E-6 5
206PB L 2200.21 6 7- 125 US 2
206PB cL T$Values from {+206}Bi |e decay are 145 |ms {I15} (1953Al47), 128 |ms
206PB4cL {I5} (1957To22), 123 |ms {I4} (1957As65), 123 |ms {I3} (1960Be36),
206PB5cL 130.5 |ms {I15} (1962Th12), and 123.3 |ms {I11} (1968Ta13)
206PB E 0.0012 9 1.4 10 9.5 4 1.4 10
206PBS E EAV=263.0 36$CK=0.7968$CL=0.15233 7$CM+=0.05006 3
206PB G 202.44 3 0.044 4[E3] 3.78
206PBS G KC=0.426 6$LC=2.47 4$MC=0.678 10$NC+=0.205 3
206PBS G NC=0.1728 25$OC=0.0311 5$PC=0.001536 22
206PB G 516.18 4 41.2 4E3 0.0887
206PBS G KC=0.0483 7$LC=0.0302 5$MC=0.00783 11$NC+=0.00239 4
206PBS G NC=0.00199 3$OC=0.000371 6$PC=2.64E-5 4
206PB L 2384.20 6 6- 30 PS 10
206PB2 L G=+0.13 7 $
206PB cL G$From |g|g perturbed angular correlation (1970Za03)
206PB cL T$From 1963Si12
206PB E 0.5 9 9.8 8 0.5 9
206PBS E CK=0.7951 1$CL=0.15405 9$CM+=0.05073 4
206PB G 183.977 16 16.0 3M1(+E2) -0.013 25 1.668 R
206PBS G KC=1.361 20$LC=0.234 4$MC=0.0550 8$NC+=0.01705 24
206PBS G NC=0.01397 20$OC=0.00278 4$PC=0.000298 5
206PB L 2391.39 9 ?
206PB E 0.018 5 11.25 12 0.018 5 ?
206PBS E CK=0.7950 1$CL=0.15412 9$CM+=0.05076 4
206PB G 1588.2 1 0.041 4M1(+E2),E3 A
206PB L 2647.85 8 3-
206PB E 0.04 3 10.7 4 0.04 3 ?
206PBS E CK=0.7906 2$CL=0.1574 2$CM+=0.05205 5
206PB G 964.22 10 0.037 4[E1] 0.00267 C
206PBS G KC=0.00223 4$LC=0.000341 5$MC=7.86E-5 11$NC+=2.42E-5 4
206PBS G NC=1.99E-5 3$OC=3.94E-6 6$PC=4.06E-7 6
206PB G 1844.49 10 0.575 25E1 1.29E-3
206PBS G KC=0.000733 11$LC=0.0001086 16$MC=2.50E-5 4$NC+=0.000425 6
206PBS G NC=6.32E-6 9$OC=1.259E-6 18$PC=1.333E-7 19$IPC=0.000417 6
206PB cG CC$Measured internal pair conversion coefficient
206PB2cG |b{-|p}=4.65 x 10{+-4} {I{15}} for the combined 1844-, 1879-,
206PB3cG and 1904-keV transitions (1998Wu02).
206PB L 2782.22 6 5-
206PB E 3.7 3 8.63 4 3.7 3
206PBS E CK=0.7871 3$CL=0.15986 17$CM+=0.05302 7
206PB G 398.00 3 10.86 10M1(+E2) 0.038 3 0.200 K
206PBS G KC=0.1636 23$LC=0.0277 4$MC=0.00649 9$NC+=0.00201 3
206PBS G NC=0.001649 23$OC=0.000329 5$PC=3.52E-5 5
206PB cG RI$Authors give 10.86 {I1}, but evaluators assume this is an error
206PB2cG and increased the uncertainty.
206PB G 581.97 8 0.490 25E2 0.0206
206PBS G KC=0.01518 22$LC=0.00413 6$MC=0.001017 15$NC+=0.000311 5
206PBS G NC=0.000257 4$OC=4.91E-5 7$PC=4.07E-6 6
206PB G 784.58 7 0.542 10E1 0.00391
206PBS G KC=0.00326 5$LC=0.000505 7$MC=0.0001166 17$NC+=3.59E-5 5
206PBS G NC=2.95E-5 5$OC=5.83E-6 9$PC=5.93E-7 9
206PB G 1098.26 7 13.65 15E1 0.00212
206PBS G KC=0.001768 25$LC=0.000268 4$MC=6.18E-5 9$NC+=1.91E-5 3
206PBS G NC=1.563E-5 22$OC=3.10E-6 5$PC=3.22E-7 5
206PB L 2826.36 7 (4)-
206PB E 0.032 25 11.1 4 0.032 25 1U
206PBS E CK=0.7504 7$CL=0.1859 5$CM+=0.06368 20
206PB G 44.110 18 0.0072 9 M1(+E2) 0.037 LE 19.3 4 B
206PB3 G FLAG=N
206PBS G LC=14.8 3$MC=3.47 7$NC+=1.076 19
206PBS G NC=0.882 16$OC=0.176 3$PC=0.0186 3
206PB cG RI$Calculated by the evaluators from measured ce(L1) and theoretical
206PB2cG |a(M1), and using ce(K)(803|g)=0.008084 (1972Ka30)
206PB G 434.89 10 0.023 2 A
206PB G 442.14 10 0.038 4[E2] 0.0398
206PBS G KC=0.0271 4$LC=0.00962 14$MC=0.00241 4$NC+=0.000733 11
206PBS G NC=0.000610 9$OC=0.0001145 16$PC=8.47E-6 12
206PB G 1142.37 10 0.112 5E1 0.00198
206PBS G KC=0.001650 24$LC=0.000250 4$MC=5.75E-5 8$NC+=2.13E-5 3
206PBS G NC=1.455E-5 21$OC=2.89E-6 4$PC=3.00E-7 5$IPC=3.57E-6 6
206PB G 2022.8 2 0.013 2M2,E3 0.0055 19
206PBS G KC=0.0043 15$LC=0.00075 24$MC=0.00018 6$NC+=0.00024 5
206PBS G NC=4.5E-5 14$OC=9.E-6 3$PC=9.E-7 4$IPC=0.000187 25
206PB cG M$ce data allow M2,M3,E3 but placement in level scheme precludes M3
206PB L 2864.60 8 7-
206PB E 0.270 14 9.682 24 0.270 14
206PBS E CK=0.7844 3$CL=0.16178 21$CM+=0.05378 9
206PB G 480.38 10 0.090 9M1 0.1211
206PBS G KC=0.0992 14$LC=0.01674 24$MC=0.00391 6$NC+=0.001214 17
206PBS G NC=0.000994 14$OC=0.000198 3$PC=2.13E-5 3
206PB G 664.17 10 0.099 5M1 0.0517
206PBS G KC=0.0424 6$LC=0.00709 10$MC=0.001655 24$NC+=0.000513 8
206PBS G NC=0.000420 6$OC=8.39E-5 12$PC=9.00E-6 13
206PB G 1180.70 10 0.067 7[E3] 0.01068
206PBS G KC=0.00815 12$LC=0.00192 3$MC=0.000468 7$NC+=0.0001449 21
206PBS G NC=0.0001189 17$OC=2.31E-5 4$PC=2.17E-6 3$IPC=7.28E-7 11
206PB L 2939.64 7 6-
206PB E 0.269 19 9.60 4 0.269 19
206PBS E CK=0.7815 4$CL=0.1639 3$CM+=0.05463 10
206PB G 157.50 3 0.036 4M1(+E2) 0.14 LT 2.57 N
206PBS G KC=2.09 4$LC=0.366 6$MC=0.0859 14$NC+=0.0266 4
206PBS G NC=0.0218 4$OC=0.00435 7$PC=0.000461 7
206PB G 555.30 10 0.038 4[M1] 0.0826
206PBS G KC=0.0677 10$LC=0.01137 16$MC=0.00266 4$NC+=0.000824 12
206PBS G NC=0.000675 10$OC=0.0001347 19$PC=1.444E-5 21
206PB G 739.24 8 0.159 8M1(+E2) 0.026 14
206PBS G KC=0.021 12$LC=0.0038 16$MC=0.0009 4$NC+=0.00027 12
206PBS G NC=0.00022 10$OC=4.4E-5 19$PC=4.5E-6 23
206PB L 3016.48 7 5-
206PB G 190.04 3 B
206PB G 234.242 23 0.244 12M1(+E2) 0.19 LT 0.839 16 N
206PBS G KC=0.684 14$LC=0.1187 17$MC=0.0279 4$NC+=0.00864 13
206PBS G NC=0.00708 10$OC=0.001410 20$PC=0.000150 3
206PB G 632.25 5 4.52 5 M1(+E2) -0.12 3 0.0582 R
206PBS G KC=0.0477 8$LC=0.00800 12$MC=0.00187 3$NC+=0.000580 9
206PBS G NC=0.000475 7$OC=9.47E-5 14$PC=1.015E-5 16
206PB G 816.25 10 B
206PB G 1332.33 10 0.285 15E1 1.58E-3
206PBS G KC=0.001264 18$LC=0.000190 3$MC=4.37E-5 7$NC+=8.13E-5 12
206PBS G NC=1.105E-5 16$OC=2.20E-6 3$PC=2.30E-7 4$IPC=6.78E-5 10
206PB L 3225.45 8 (5,6,7)-
206PB E 0.233 11 9.24 3 0.233 11
206PBS E CK=0.7609 10$CL=0.1786 7$CM+=0.0605 3
206PB G 360.82 6 B
206PB G 443.20 7 B
206PB G 841.28 7 0.188 9M1(+E2) 0.019 10
206PBS G KC=0.015 8$LC=0.0027 12$MC=0.0006 3$NC+=0.00020 8
206PBS G NC=0.00016 7$OC=3.2E-5 14$PC=3.3E-6 16
206PB G 1025.30 10 0.043 4[M1] 0.01685
206PBS G KC=0.01386 20$LC=0.00229 4$MC=0.000533 8$NC+=0.0001652 24
206PBS G NC=0.0001353 19$OC=2.70E-5 4$PC=2.91E-6 4
206PB L 3244.29 7 4-
206PB G 227.65 5 B
206PB G 1246.46 10 0.085 8E1 1.73E-3
206PBS G KC=0.001418 20$LC=0.000213 3$MC=4.92E-5 7$NC+=4.64E-5 7
206PBS G NC=1.244E-5 18$OC=2.47E-6 4$PC=2.58E-7 4$IPC=3.13E-5 5
206PB G 1560.30 8 0.382 20[E1] 1.37E-3
206PBS G KC=0.000968 14$LC=0.0001443 21$MC=3.32E-5 5$NC+=0.000222 4
206PBS G NC=8.40E-6 12$OC=1.672E-6 24$PC=1.761E-7 25$IPC=0.000212 3
206PB G 1903.56 10 0.353 15E1 1.29E-3
206PBS G KC=0.000697 10$LC=0.0001030 15$MC=2.37E-5 4$NC+=0.000468 7
206PBS G NC=5.99E-6 9$OC=1.194E-6 17$PC=1.265E-7 18$IPC=0.000460 7
206PB G 2439.0 4 0.005 2[M2] 0.00486
206PB3 G FL=803.10
206PBS G KC=0.00367 6$LC=0.000612 9$MC=0.0001430 20$NC+=0.000440 7
206PBS G NC=3.63E-5 5$OC=7.26E-6 11$PC=7.81E-7 11$IPC=0.000396 6
206PB L 3279.26 6 5-
206PB E 43.7 6 6.862 19 43.7 6
206PBS E CK=0.7537 13$CL=0.1838 9$CM+=0.0626 4
206PB G 34.954 18 0.017 1 M1(+E2) 0.032 LT 38.4 7 B
206PB3 G FLAG=N
206PBS G LC=29.4 6$MC=6.91 14$NC+=2.14 4
206PBS G NC=1.76 4$OC=0.349 7$PC=0.0370 6
206PB cG RI$Calculated by the evaluators from measured ce(L1) and theoretical
206PB2cG |a(M1), and using ce(K)(803|g)=0.008084 (1972Ka30)
206PB G 262.70 3 3.05 5 M1(+E2) 0.11 LT 0.616 N
206PBS G KC=0.503 8$LC=0.0864 13$MC=0.0203 3$NC+=0.00628 9
206PBS G NC=0.00515 8$OC=0.001026 15$PC=0.0001095 16
206PB G 339.85 6 B
206PB G 452.84 8 0.158 8[M1] 0.1417
206PBS G KC=0.1160 17$LC=0.0196 3$MC=0.00458 7$NC+=0.001422 20
206PBS G NC=0.001165 17$OC=0.000232 4$PC=2.49E-5 4
206PB G 497.06 4 15.48 15M1(+E2) -0.09 2 0.1100 K
206PBS G KC=0.0901 13$LC=0.01521 22$MC=0.00356 5$NC+=0.001103 16
206PBS G NC=0.000903 13$OC=0.000180 3$PC=1.93E-5 3
206PB G 895.12 5 15.83 16M1(+E2) -0.030 3 0.0239 K
206PBS G KC=0.0196 3$LC=0.00325 5$MC=0.000757 11$NC+=0.000235 4
206PBS G NC=0.000192 3$OC=3.84E-5 6$PC=4.13E-6 6
206PB G 1281.81 10 0.066 7E1 1.66E-3
206PBS G KC=0.001351 19$LC=0.000203 3$MC=4.68E-5 7$NC+=5.94E-5 9
206PBS G NC=1.184E-5 17$OC=2.35E-6 4$PC=2.46E-7 4$IPC=4.49E-5 7
206PB G 1595.27 8 5.07 6E1 1.35E-3
206PBS G KC=0.000933 13$LC=0.0001389 20$MC=3.20E-5 5$NC+=0.000246 4
206PBS G NC=8.09E-6 12$OC=1.610E-6 23$PC=1.697E-7 24$IPC=0.000236 4
206PB G 2476.7 2 0.015 2[E3] 0.00265
206PBS G KC=0.00190 3$LC=0.000329 5$MC=7.73E-5 11$NC+=0.000344 5
206PBS G NC=1.96E-5 3$OC=3.89E-6 6$PC=4.05E-7 6$IPC=0.000320 5
206PB L 3402.70 7 5-
206PB E 49.1 7 6.50 3 49.1 7
206PBS E CK=0.726 3$CL=0.2034 20$CM+=0.0705 8
206PB G 123.42 3 0.023 2M1(+E2) 0.13 LT 5.15 N
206PBS G KC=4.18 7$LC=0.738 13$MC=0.173 4$NC+=0.0538 10
206PBS G NC=0.0441 9$OC=0.00877 16$PC=0.000926 13
206PB G 158.386 21 0.083 8M1(+E2) 0.14 LT 2.53 N
206PBS G KC=2.06 4$LC=0.360 6$MC=0.0845 13$NC+=0.0262 4
206PBS G NC=0.0215 4$OC=0.00428 7$PC=0.000453 7
206PB G 386.20 7 0.522 10M1(+E2) 0.35 LT 0.208 10 N
206PBS G KC=0.170 8$LC=0.0293 10$MC=0.00687 20$NC+=0.00213 7
206PBS G NC=0.00175 6$OC=0.000347 11$PC=3.68E-5 15
206PB G 462.92 10 0.054 5[M1] 0.1336
206PBS G KC=0.1095 16$LC=0.0185 3$MC=0.00432 6$NC+=0.001341 19
206PBS G NC=0.001098 16$OC=0.000219 3$PC=2.35E-5 4
206PB G 576.36 10 0.113 10[M1] 0.0749
206PBS G KC=0.0614 9$LC=0.01030 15$MC=0.00241 4$NC+=0.000747 11
206PBS G NC=0.000612 9$OC=0.0001220 17$PC=1.309E-5 19
206PB G 620.48 5 5.82 6M1(+E2) -0.33 29 0.057 8 R
206PBS G KC=0.047 7$LC=0.0080 9$MC=0.00187 21$NC+=0.00058 7
206PBS G NC=0.00047 6$OC=9.5E-5 11$PC=1.01E-5 14
206PB G 754.96 7 0.533 10E2 0.01174
206PBS G KC=0.00905 13$LC=0.00204 3$MC=0.000493 7$NC+=0.0001512 22
206PBS G NC=0.0001249 18$OC=2.41E-5 4$PC=2.18E-6 3
206PB G 1018.63 8 7.68 8M1(+E2) -0.018 3 0.01713 K
206PBS G KC=0.01409 20$LC=0.00232 4$MC=0.000542 8$NC+=0.0001680 24
206PBS G NC=0.0001376 20$OC=2.75E-5 4$PC=2.96E-6 5
206PB G 1202.58 10 0.106 6E2 0.00469
206PBS G KC=0.00378 6$LC=0.000687 10$MC=0.0001623 23$NC+=5.41E-5 8
206PBS G NC=4.11E-5 6$OC=8.09E-6 12$PC=8.04E-7 12$IPC=4.06E-6 6
206PB G 1405.01 8 1.450 25E1 1.49E-3
206PBS G KC=0.001155 17$LC=0.0001729 25$MC=3.98E-5 6$NC+=0.0001213 17
206PBS G NC=1.007E-5 14$OC=2.00E-6 3$PC=2.10E-7 3$IPC=0.0001091 16
206PB G 1718.70 7 32.2 4 E1 1.31E-3
206PBS G KC=0.000824 12$LC=0.0001224 18$MC=2.81E-5 4$NC+=0.000335 5
206PBS G NC=7.12E-6 10$OC=1.418E-6 20$PC=1.498E-7 21$IPC=0.000326 5
206PB cG CC$Measured internal pair conversion coefficient
206PB2cG |b{-|p}=3.06 x 10{+-4} {I{15}} (1998Wu02).
206PB G 2599.6 2 0.131 10(E3) 0.00248
206PBS G KC=0.001731 25$LC=0.000297 5$MC=6.95E-5 10$NC+=0.000387 6
206PBS G NC=1.765E-5 25$OC=3.50E-6 5$PC=3.66E-7 6$IPC=0.000365 6
206PB cG M$ce data allow M1 or E3, but decay scheme requires E3.
206PB L 3562.92 7 5-
206PB E 2.36 5 7.10 6 2.36 5
206PBS E CK=0.600 16$CL=0.292 11$CM+=0.108 5
206PB G 283.75 6 B
206PB G 780.66 10 B
206PB G 915.00 10 0.031 3[E2] 0.00794
206PBS G KC=0.00628 9$LC=0.001272 18$MC=0.000304 5$NC+=9.35E-5 13
206PBS G NC=7.71E-5 11$OC=1.501E-5 21$PC=1.421E-6 20
206PB G 1565.34 8 0.307 15E1 1.36E-3
206PBS G KC=0.000963 14$LC=0.0001435 20$MC=3.30E-5 5$NC+=0.000225 4
206PBS G NC=8.35E-6 12$OC=1.663E-6 24$PC=1.751E-7 25$IPC=0.000215 3
206PB G 1878.65 8 2.03 4E1 1.29E-3
206PBS G KC=0.000712 10$LC=0.0001053 15$MC=2.42E-5 4$NC+=0.000450 7
206PBS G NC=6.13E-6 9$OC=1.221E-6 17$PC=1.293E-7 19$IPC=0.000442 7
206PB G 2759.6 10 0.014 2[E3] 0.00231
206PBS G KC=0.001543 22$LC=0.000261 4$MC=6.11E-5 9$NC+=0.000442 7
206PBS G NC=1.552E-5 22$OC=3.08E-6 5$PC=3.24E-7 5$IPC=0.000424 6