201TL 201PB EC DECAY 1979Do09 23NDS 202212
201TL H TYP=FUL$AUT=F.G. KONDEV$CIT=NDS 187, 355 (2023)$CUT=20-Sep-2022$
201TL c 1979Do09: {+201}Pb source produced using {+203}Tl(p,3n) reaction;
201TL2c E(p)=27 MeV; Target: natural thallium; Detectors: Ge(Li) and NaI;
201TL3c Compton suppressed; Measured: E|g, I|g, |g singles, |g|g coin;
201TL4c Deduced: |a(K)exp, |a(L)exp, subshell ratios, J|p, T{-1/2}, level
201TLxc scheme
201TL c Others: 1974Ha18, 1971Hn04, 1970DoZT, 1964Aa01, 1961Pe05,
201TL2c 1960Li08
201TL cE IE$From intensity balances and the decay scheme, unless otherwise
201TL2cE stated
201TL cG E$From 1979Do09, unless otherwise stated
201TL cG RI$From singles measurements in 1979Do09, unless otherwise stated.
201TL2cG I|g(x-ray)=4980 {I250} and I|g(|g{+|+})=6 {I1} in 1979Do09.
201TL cG M$From |a(K)exp, |a(L)exp, K/L, |g|g(|q) and multiple decay branches in
201TL2cG 1979Do09, 1960Li08, 1961Pe05, 1964Aa01 and 1974Ha18, unless otherwise
201TL3cG stated.
201TL cG MR$From |a(K)exp and sub-shell ratios in 1979Do09, 1974Ha18, 1971Hn04,
201TL2cG 1964Aa01, and 1961Pe05 and the briccmixing program, unless otherwise
201TL2cG stated
201TL cG E(a)$Assignment to {+201}Pb |e decay is uncertain (1979Do09)
201TL cG E(A),RI(A),M(A)$The authors in 1979Do09 report a transition with
201TL2cG E|g=285.04 keV {I7} and I|g=10.3 {I10} doubly placed from the 1420 and
201TL3cG 1575 keV levels with roughly equal intensities. |a(K)exp=0.37 {I8},
201TL4cG assuming Mult=M1 for the doublet. The transition is not included in
201TL5cG the least-squares fit. For placement from the 1420 keV level, the
201TL6cG evaluator chooses E|g=285.18 keV 13, as given from the levels energy
201TL7cG difference in the least-squares fit. For placement from the 1575 keV
201TL8cG level, where the 285|g is the only deexciting transition, the
201TL9cG evaluator adopts E|g=285.0 keV {I10}. The evaluator adopts I|g|?5.2
201TLacG for each placement. Both transitions involve |DJ=0 or 1 and |D|p=no,
201TLbcG and since I|g's are roughly equal, Mult.=M1 can be assigned to both
201TLxcG placements.
201TL cL E$From a least-squares fit to E|g
201TL cL J$From adopted levels, unless otherwise stated
201TL DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
201PB P 0.0 5/2- 9.33 H 5 1910 19
201TL N 0.0173 9 1.0 1.0
201TL cN NR$Deduced using |S(I(|g+ce)[g.s. {+201}Tl])=100 - I|b{-0}, with
201TL2cN I|b{-0}=0.7% {I4}.
201TL PN 4
201TL G 562.81 10 1.8 4 a
201TL2 G %IG=0.031 7
201TL G 1010.3 3 1.0 2 a
201TL2 G %IG=0.017 4
201TL G 1124.9 2 0.57 10 a
201TL2 G %IG=0.0098 18
201TL G 1486.20 12 1.1 1
201TL2 G %IG=0.0190 20
201TL G 1587.6 5 0.15 5 a
201TL2 G %IG=0.0026 9
201TL G 1630.9 6 0.14 4 a
201TL2 G %IG=0.0024 7
201TL G 1678.96 13 0.24 3
201TL2 G %IG=0.0041 6
201TL G 1813.1 3 0.26 5 a
201TL2 G %IG=0.0045 9
201TL L 0.0 1/2+ 3.0420 D 16
201TL cL T$From adopted levels
201TL E 0.0009 5 0.7 4 9.84 25 0.7 4 1U
201TLS E EAV=429.4 82$CK=0.7882 2$CL=0.15830 23$CM+=0.05222 9
201TL cE TI$From I(|e+|b{++})<1.4% in 1979Do09 and by assuming uniform
201TL2cE probability distribution
201TL L 331.17 33/2+ 70 PS 20
201TL cL T$From 360ce-331ce(|Dt) in 1960Li08
201TL E 0.057 11 52 6 6.69 6 52 6
201TLS E EAV=272.2 85$CK=0.7994$CL=0.15040 16$CM+=0.04907 7
201TL G 331.15 6 455E1 25M1+E2 +1.33 6 0.161 5
201TL2 G %IG=78.5 6
201TLS G KC=0.121 5$LC=0.0305 6$MC=0.00743 13
201TLS G NC=0.001870 32$OC=0.000348 6$PC=2.59E-5 7
201TL cG M$|a(K)exp=0.1069 {I21}, |a(L3)exp=0.00365 {I12}, K/L=3.76 {I6}
201TL2cG (1974Ha18) ce(K)=1000, K/L=3.9 {I3}, L12/L3=7.1 {I9} (1964Aa01);
201TL3cG |a(K)exp=0.113 {I8} (1961Pe05); K/L12=4.2 {I2}, L12/L3=6.5 {I5}
201TL4cG (1960Li08); |g|g(|q) in 1961Pe05; |a(K)exp=0.113 {I8} (1979Do09),
201TL5cG normalized value adopted by the authors from the data of 1961Pe05;
201TL5cG |a(K)exp=0.111 {I16} (1971Hn04)
201TL cG MR$From 1974Ha18, by taking into account the penetration effect and
201TL2cG using |l=+4.0 {I10}.
201TL L 692.52 45/2+
201TL E 6.2 8 7.37 6
201TLS E CK=0.7955 4$CL=0.15399 25$CM+=0.05046 10
201TL G 361.25 6 560 30M1+E2 0.14 7 0.234 5
201TL2 G %IG=9.7 7
201TLS G KC=0.191 4$LC=0.0324 6$MC=0.00755 13
201TLS G NC=0.001907 32$OC=0.000370 7$PC=3.49E-5 7
201TL cG M$|a(K)exp=0.193 {I4}, |a(L3)exp=0.00029 {I7} (1974Ha18);
201TL2cG ce(K)=240 {I10}, K/L=5.9 {I6}, L12/L3=7.1 {I9} (1964Aa01);
201TL3cG |a(K)exp=0.210 {I25} and |g|g(|q) (1961Pe05); |a(K)exp=0.22 {I2}
201TLxcG (1979Do09)
201TL cG MR$From 1974Ha18, by taking into account the penetration effect and
201TL2cG using |l=+0.5 {I5}.
201TL G 692.41 8 254 12E2 0.0134219
201TL2 G %IG=4.38 30
201TLS G KC=0.01029 14$LC=0.002385 33$MC=0.000577 8
201TLS G NC=0.0001451 20$OC=2.71E-5 4$PC=2.089E-6 29
201TL cG M$ce(K)=5.0 {I5} (1964Aa01); |a(K)exp=0.010 {I1} (1979Do09);
201TL2cG |a(K)exp=0.017 {I5} (1971Hn04)
201TL L 1098.50 4 5/2+
201TL E 6.2 AP 7.0 AP
201TLS E CK=0.7845 9$CL=0.1619 6$CM+=0.05358 24
201TL G 405.96 7 120 6 M1(+E2) 0.4 LT 0.164 9
201TL2 G %IG=2.07 15
201TLS G KC=0.134 8$LC=0.0230 9$MC=0.00537 19
201TLS G NC=0.00136 5$OC=0.000263 10$PC=2.46E-5 13
201TL cG M$ce(K)=33 {I3} (1964Aa01); |a(K)exp=0.14 {I2} (1979Do09);
201TL2cG |a(K)exp=0.15 {I3} (1971Hn04)
201TL G 767.26 8 194 10 M1+E2 0.33 19 0.0304 25
201TL2 G %IG=3.35 24
201TLS G KC=0.0250 21$LC=0.00415 30$MC=0.00097 7
201TLS G NC=0.000244 17$OC=4.73E-5 34$PC=4.5E-6 4
201TL cG M$ce(K)=9 {I1} (1964Aa01); |a(K)exp=0.024 {I3} (1979Do09);
201TL2cG |a(K)exp=0.026 {I3} (1971Hn04)
201TL G 1098.52 7 111 6 E2 0.00528 7
201TL2 G %IG=1.92 14
201TLS G KC=0.00426 6$LC=0.000784 11$MC=0.0001849 26
201TLS G NC=4.66E-5 7$OC=8.89E-6 12$PC=7.68E-7 11
201TL cG M$ce(K)=1.2 {I2} (1964Aa01); |a(K)exp=0.0055 {I11} (1979Do09);
201TL2cG |a(K)exp=0.0061 {I15} (1971Hn04)
201TL L 1134.86 6 7/2+
201TL E 0.66 16 7.92 11
201TLS E CK=0.7829 10$CL=0.1631 7$CM+=0.0540 3
201TL G 803.66 7 90 6 E2 0.0098214
201TL2 G %IG=1.55 13
201TLS G KC=0.00768 11$LC=0.001627 23$MC=0.000390 5
201TLS G NC=9.81E-5 14$OC=1.850E-5 26$PC=1.490E-6 21
201TL cG M$ce(K)=1.3 {I2} (1964Aa01); |a(K)exp=0.0074 {I16} (1979Do09);
201TL2cG |a(K)exp=0.0079 {I16} (1971Hn04)
201TL L 1157.43 4 3/2+,5/2+
201TL E 3.2 AP 7.2 AP
201TLS E CK=0.7818 10$CL=0.1639 7$CM+=0.0544 3
201TL G 58.92 5 4.9 AP [M1] 7.37 10
201TL2 G %IG AP 0.0846
201TLS G LC=5.64 8$MC=1.320 19
201TLS G NC=0.333 5$OC=0.0647 9$PC=0.00611 9
201TL2 G %IG AP 0.083
201TL cG E$From 1964Aa01.
201TL cG RI$From I(ce(L)) of 1964Aa01 and assumption that Mult=M1
201TL G 464.90 8 19.8 10 [M1+E2] 0.08 4
201TL2 G %IG=0.342 24
201TLS G KC=0.06 4$LC=0.012 4$MC=0.0029 10
201TLS G NC=7.2E-4 25$OC=1.4E-4 5$PC=1.2E-5 6
201TL G 826.26 8 141 7 M1+E2 1.98 +43-290.0129 10
201TL2 G %IG=2.43 17
201TLS G KC=0.0103 8$LC=0.00195 12$MC=0.000461 28
201TLS G NC=0.000116 7$OC=2.22E-5 14$PC=1.92E-6 15
201TL cG M$ce(K)=2.8 {I3} (1964Aa01); |a(K)exp=0.010 {I1} (1979Do09);
201TL2cG |a(K)exp=0.0110 {I15} (1971Hn04)
201TL G 1157.45 9 7.2 4 [M1,E2] 0.0081 33
201TL2 G %IG=0.124 9
201TLS G KC=0.0066 27$LC=0.0011 4$MC=2.6E-4 9
201TLS G NC=6.5E-5 24$OC=1.3E-5 5$PC=1.2E-6 5$IPC=1.8E-6 5
201TL L 1238.83 5 3/2+
201TL E 7.4 6 6.73 5
201TLS E CK=0.7771 13$CL=0.1673 10$CM+=0.0557 4
201TL G 546.28 9 16.5 10 M1+E2 0.31 24 0.074 8
201TL2 G %IG=0.285 23
201TLS G KC=0.061 7$LC=0.0102 9$MC=0.00238 20
201TLS G NC=0.00060 5$OC=0.000117 10$PC=1.10E-5 12
201TL cG M$ce(K)=1.9 {I2} (1964Aa01); |a(K)exp=0.059 {I8} (1979Do09);
201TL2cG |a(K)exp=0.065 {I14} (1971Hn04)
201TL G 907.67 8 362 20 M1+E2 0.43 +23-340.0190 20
201TL2 G %IG=6.2 5
201TLS G KC=0.0156 17$LC=0.00259 24$MC=0.00060 6
201TLS G NC=0.000152 14$OC=2.95E-5 28$PC=2.78E-6 29
201TL cG M$ce(K)=10.7 {I10} (1964Aa01); |a(K)exp=0.015 {I2} (1979Do09);
201TL2cG |a(K)exp=0.017 {I3} (1971Hn04)
201TL G 1238.82 7 68 4 M1+E2 1.17 +57-350.0065 9
201TL2 G %IG=1.17 9
201TLS G KC=0.0053 8$LC=0.00089 12$MC=0.000207 27
201TLS G NC=5.2E-5 7$OC=1.01E-5 14$PC=9.3E-7 14$IPC=1.02E-5 10
201TL cG M$ce(K)=0.7 {I1} (1964Aa01); |a(K)exp=0.0053 {I9} (1979Do09);
201TL2cG |a(K)exp=0.0053 {I15} (1971Hn04)
201TL L 1277.12 4 3/2+,5/2+
201TL E 12.3 9 6.46 5
201TLS E CK=0.7744 15$CL=0.1692 11$CM+=0.0564 5
201TL G 120.0 2 1.2 3 [M1,E2] 3.9 12
201TL2 G %IG=0.021 5
201TLS G KC=2.3 18$LC=1.2 5$MC=0.31 14
201TLS G NC=0.077 35$OC=0.014 6$PC=0.00071 6
201TL G 584.60 8 211 10 M1(+E2) 0.5 LT 0.061 5
201TL2 G %IG=3.64 25
201TLS G KC=0.050 4$LC=0.0085 5$MC=0.00198 12
201TLS G NC=0.000499 30$OC=9.7E-5 6$PC=9.1E-6 7
201TL cG M$ce(K)=21 {I2} (1964Aa01); |a(K)exp=0.051 {I6} (1979Do09);
201TL2cG |a(K)exp=0.06 {I1} and |g|g(|q) (1961Pe05);
201TL3cG |a(K)exp=0.049 {I10} (1971Hn04)
201TL G 945.96 8 424 30 M1(+E2) 0.6 LT 0.0174 16
201TL2 G %IG=7.3 6
201TLS G KC=0.0143 13$LC=0.00236 20$MC=0.00055 4
201TLS G NC=0.000139 11$OC=2.69E-5 22$PC=2.55E-6 23
201TL cG M$ce(K)=12 {I1} (1964Aa01); |a(K)exp=0.014 {I2} (1979Do09);
201TL2cG |a(K)exp=0.0160 {I25} (1971Hn04)
201TL G 1277.11 7 100 [M1,E2] 0.0064 24
201TL2 G %IG=1.73 9
201TLS G KC=0.0053 20$LC=8.7E-4 31$MC=2.0E-4 7
201TLS G NC=5.1E-5 18$OC=9.9E-6 35$PC=9.E-7 4$IPC=1.7E-5 4
201TL L 1290.12 7 (9/2)+
201TL E 0.14 14 8.5 5 1U
201TLS E CK=0.713 5$CL=0.213 4$CM+=0.0746 14
201TL G 155.31 10 8.2 10 [M1,E2] 1.7 7
201TL2 G %IG=0.142 19
201TLS G KC=1.2 9$LC=0.44 10$MC=0.110 30
201TLS G NC=0.028 7$OC=0.0050 11$PC=0.00030 7
201TL G 597.60 9 19.0 10E2 0.0185626
201TL2 G %IG=0.328 24
201TLS G KC=0.01385 19$LC=0.00357 5$MC=0.000872 12
201TLS G NC=0.0002194 31$OC=4.07E-5 6$PC=2.97E-6 4
201TL cG M$ce(K)=0.6 {I2} (1964Aa01); |a(K)exp=0.016 {I6} (1979Do09);
201TL2cG |a(K)exp=0.017 {I5} (1971Hn04)
201TL L 1330.42 5 3/2+,5/2+
201TL E 1.02 8 7.45 5
201TLS E CK=0.7699 19$CL=0.1724 13$CM+=0.0577 6
201TL G 231.87 10 6.5 8 [M1,E2] 0.52 27
201TL2 G %IG=0.112 15
201TLS G KC=0.39 27$LC=0.104 7$MC=0.0254 5
201TLS G NC=0.00640 15$OC=0.00119 8$PC=8.5E-5 35
201TL G 637.90 9 21.7 10 [M1+E2] 0.034 18
201TL2 G %IG=0.375 26
201TLS G KC=0.028 16$LC=0.0051 21$MC=0.0012 5
201TLS G NC=3.0E-4 12$OC=5.8E-5 24$PC=5.1E-6 26
201TL G 999.23 7 38.3 20 [M1+E2] 0.011 5
201TL2 G %IG=0.66 5
201TLS G KC=0.009 4$LC=0.0016 6$MC=3.7E-4 14
201TLS G NC=9.E-5 4$OC=1.8E-5 7$PC=1.7E-6 7
201TL G 1330.50 15 0.86 15 [M1,E2] 0.0058 22
201TL2 G %IG=0.0148 27
201TLS G KC=0.0048 18$LC=7.9E-4 27$MC=1.8E-4 6
201TLS G NC=4.6E-5 16$OC=9.0E-6 31$PC=8.4E-7 32$IPC=2.8E-5 7
201TL L 1401.26 5 3/2+,5/2+
201TL E 2.36 16 6.96 5
201TLS E CK=0.762 3$CL=0.1778 18$CM+=0.0599 8
201TL G 124.2 2 2.5 5 [M1,E2] 3.5 11
201TL2 G %IG=0.043 9
201TLS G KC=2.1 17$LC=1.1 4$MC=0.27 12
201TLS G NC=0.067 29$OC=0.012 5$PC=0.00063 7
201TL G 302.7 4 0.65 15 [M1,E2] 0.25 14 a
201TL2 G %IG=0.0112 27
201TLS G KC=0.19 13$LC=0.043 9$MC=0.0105 18
201TLS G NC=0.0026 5$OC=0.00050 11$PC=3.9E-5 19
201TL G 708.75 9 46.2 20 M1 0.0399 6
201TL2 G %IG=0.80 5
201TLS G KC=0.0329 5$LC=0.00541 8$MC=0.001259 18
201TLS G NC=0.000318 4$OC=6.18E-5 9$PC=5.87E-6 8
201TL cG M$ce(K)=4.0 {I5} (1964Aa01); |a(K)exp=0.044 {I7} (1979Do09);
201TL2cG |a(K)exp=0.049 {I10} (1971Hn04)
201TL G 1070.04 8 72 4 E2+M1 1.8 +10-5 0.0075 11
201TL2 G %IG=1.24 9
201TLS G KC=0.0061 9$LC=0.00107 14$MC=0.000252 32
201TLS G NC=6.3E-5 8$OC=1.22E-5 16$PC=1.10E-6 16
201TL cG M$ce(K)=0.8 {I1} (1964Aa01); |a(K)exp=0.0057 {I10} (1979Do09);
201TL2cG |a(K)exp=0.0069 {I15} (1971Hn04)
201TL G 1401.30 8 7.9 4 [M1,E2] 0.0052 18
201TL2 G %IG=0.136 10
201TLS G KC=0.0042 15$LC=7.0E-4 23$MC=1.6E-4 5
201TLS G NC=4.1E-5 14$OC=7.9E-6 27$PC=7.4E-7 27$IPC=4.9E-5 13
201TL L 1420.04 7 7/2+
201TL E 1.56 16 7.10 6
201TLS E CK=0.760 3$CL=0.1796 20$CM+=0.0606 8
201TL G 129.95 10 6.4 6 [M1,E2] 3.0 10
201TL2 G %IG=0.110 12
201TLS G KC=1.9 14$LC=0.88 31$MC=0.22 9
201TLS G NC=0.056 22$OC=0.0100 35$PC=0.00054 8
201TL G 285.18 13 5.2 AP [M1,E2] 0.29 16 A
201TL2 G %IG AP 0.0898
201TLS G KC=0.22 15$LC=0.053 10$MC=0.0127 18
201TLS G NC=0.0032 5$OC=0.00060 11$PC=4.6E-5 22
201TL2 G %IG AP 0.088
201TL G 727.50 9 7.1 7 [M1+E2] 0.025 13
201TL2 G %IG=0.123 14
201TLS G KC=0.020 11$LC=0.0036 15$MC=8.4E-4 34
201TLS G NC=2.1E-4 8$OC=4.1E-5 17$PC=3.7E-6 18
201TL G 1088.85 9 53 3 [E2] 0.00537 8
201TL2 G %IG=0.91 7
201TLS G KC=0.00433 6$LC=0.000799 11$MC=0.0001886 26
201TLS G NC=4.75E-5 7$OC=9.06E-6 13$PC=7.82E-7 11
201TL L 1445.87 6 (5/2)+
201TL E 0.35 3 7.69 6
201TLS E CK=0.756 4$CL=0.1823 23$CM+=0.0617 9
201TL G 753.35 9 8.8 8 (E0+M1)
201TL2 G %IG=0.152 16
201TL cG M$ce(K)=1.5 {I2} (1964Aa01); |a(K)exp=0.087 {I16} (1979Do09)
201TL G 1114.73 8 9.8 6 M1(+E2) 0.3 LT 0.0121835
201TL2 G %IG=0.169 13
201TLS G KC=0.01004 29$LC=0.00164 4$MC=0.000380 10
201TLS G NC=9.58E-5 26$OC=1.86E-5 5$PC=1.77E-6 5$IPC=4.97E-7 12
201TL cG M$ce(K)=0.20 {I3} (1964Aa01); |a(K)exp=0.010 {I2} (1979Do09);
201TL2cG |a(K)exp=0.011 {I3} (1971Hn04)
201TL G 1445.80 10 2.10 10 [E2] 0.00319 4
201TL2 G %IG=0.0362 25
201TLS G KC=0.00257 4$LC=0.000437 6$MC=0.0001021 14
201TLS G NC=2.57E-5 4$OC=4.95E-6 7$PC=4.45E-7 6$IPC=4.84E-5 7
201TL L 1479.85 4 5/2+
201TL E 2.66 18 6.73 6
201TLS E CK=0.750 4$CL=0.187 3$CM+=0.0634 11
201TL G 202.79 10 4.0 5 [M1,E2] 0.8 4
201TL2 G %IG=0.069 9
201TLS G KC=0.6 4$LC=0.165 5$MC=0.0407 32
201TLS G NC=0.0102 8$OC=0.00188 5$PC=1.3E-4 5
201TL G 241.02 8 10.0 10 [M1,E2] 0.47 25
201TL2 G %IG=0.173 19
201TLS G KC=0.35 24$LC=0.091 8$MC=0.0223 10
201TLS G NC=0.00561 26$OC=0.00104 10$PC=7.5E-5 32
201TL G 322.42 15 4.4 6 [M1,E2] 0.21 12
201TL2 G %IG=0.076 11
201TLS G KC=0.16 11$LC=0.036 9$MC=0.0086 18
201TLS G NC=0.0022 5$OC=0.00041 10$PC=3.2E-5 16
201TL G 344.95 7 18.3 15 M1(+E2) 0.6 LT 0.243 26
201TL2 G %IG=0.316 30
201TLS G KC=0.197 23$LC=0.0349 22$MC=0.0082 5
201TLS G NC=0.00207 12$OC=0.000399 25$PC=3.7E-5 4
201TL cG M$ce(K)=7.4 {I15} (1964Aa01); |a(K)exp=0.21 {I11} (1979Do09);
201TL2cG |a(K)exp=0.23 {I6} (1971Hn04)
201TL G 381.29 8 12.9 7 M1(+E2) 0.5 LT 0.190 15
201TL2 G %IG=0.223 17
201TLS G KC=0.155 13$LC=0.0269 14$MC=0.00629 30
201TLS G NC=0.00159 8$OC=0.000307 16$PC=2.85E-5 21
201TL cG M$ce(K)=4.2 {I7} (1964Aa01); |a(K)exp=0.17 {I3} (1979Do09);
201TL2cG |a(K)exp=0.16 {I4} (1971Hn04)
201TL G 787.29 10 34 4 [M1+E2] 0.020 10
201TL2 G %IG=0.59 8
201TLS G KC=0.017 9$LC=0.0029 12$MC=6.8E-4 27
201TLS G NC=1.7E-4 7$OC=3.3E-5 14$PC=3.0E-6 15
201TL G 1148.75 8 47.3 25 M1+E2 1.1 +4-3 0.0079 11
201TL2 G %IG=0.82 6
201TLS G KC=0.0065 9$LC=0.00109 13$MC=0.000254 30
201TLS G NC=6.4E-5 8$OC=1.24E-5 15$PC=1.15E-6 16$IPC=1.34E-6 12
201TL cG M$ce(K)=0.6 {I1} (1964Aa01); |a(K)exp=0.0065 {I10} (1979Do09);
201TL2cG |a(K)exp=0.0076 {I20} (1971Hn04)
201TL G 1479.91 10 10.4 5 [E2] 0.00307 4
201TL2 G %IG=0.180 13
201TLS G KC=0.002468 35$LC=0.000417 6$MC=9.73E-5 14
201TLS G NC=2.451E-5 34$OC=4.72E-6 7$PC=4.26E-7 6$IPC=5.82E-5 8
201TL cG E$In table II of 1979Do09 E|g=1470.91 keV is listed, which is a typo
201TL2cG as evident from the spectrum shown in Figure 2 in 1979Do09
201TL L 1550.58 15 1/2,3/2,5/2+ ?
201TL E 0.028 3 8.52 8 ?
201TLS E CK=0.733 7$CL=0.199 5$CM+=0.0682 18
201TL G 1219.40 15 1.4 1 ?
201TL2 G %IG=0.0242 21
201TL G 1550.5 4 0.27 4 ?
201TL2 G %IG=0.0047 7
201TL L 1575.110 (7/2)+
201TL E 0.13 AP 7.8 AP
201TLS E CK=0.725 8$CL=0.204 6$CM+=0.0706 22
201TL G 285.0 10 5.2 AP (M1) 0.451 8 A
201TL2 G %IG AP 0.0898
201TLS G KC=0.370 6$LC=0.0625 11$MC=0.01458 25
201TLS G NC=0.00368 6$OC=0.000715 12$PC=6.76E-5 12
201TL2 G %IG AP 0.088
201TL L 1617.4615 1/2,3/2,5/2+
201TL E 0.088 6 7.80 9
201TLS E CK=0.707 11$CL=0.217 8$CM+=0.076 4
201TL G 1286.3 2 3.75 20 ?
201TL2 G %IG=0.065 5
201TL G 1617.45 15 1.4 1
201TL2 G %IG=0.0242 21
201TL L 1639.36 4 3/2+,5/2+
201TL E 1.43 19 6.50 11
201TLS E CK=0.694 14$CL=0.227 10$CM+=0.080 4
201TL G 308.93 15 2.3 3 (M1) 0.362 5
201TL2 G %IG=0.040 6
201TLS G KC=0.297 4$LC=0.0500 7$MC=0.01168 16
201TLS G NC=0.00295 4$OC=0.000573 8$PC=5.42E-5 8
201TL cG M$ce(K)=3.0 {I5} (1964Aa01); |a(K)exp=0.67 {I15} (1979Do09). Note that
201TL2cG |a(K)exp is larger than that expected from theory and one may expect
201TL3cG E0 admixtures;
201TL4cG |a(K)exp=0.37 {I13} (1971Hn04)
201TL G 481.98 9 3.2 6 [M1+E2] 0.07 4
201TL2 G %IG=0.055 11
201TLS G KC=0.056 34$LC=0.011 4$MC=0.0026 9
201TLS G NC=6.5E-4 23$OC=1.2E-4 5$PC=1.1E-5 6
201TL G 540.90 9 16.2 10 [M1+E2] 0.052 29
201TL2 G %IG=0.280 22
201TLS G KC=0.042 25$LC=0.0079 31$MC=0.0019 7
201TLS G NC=4.7E-4 18$OC=9.E-5 4$PC=8.E-6 4
201TL G 946.78 4 28 10 [M1+E2] 0.013 6
201TL2 G %IG=0.48 17
201TLS G KC=0.011 5$LC=0.0018 7$MC=4.3E-4 17
201TLS G NC=1.1E-4 4$OC=2.1E-5 8$PC=1.9E-6 9
201TL G 1308.32 8 32.6 16 M1(+E2) 0.6 LT 0.0077 6
201TL2 G %IG=0.56 4
201TLS G KC=0.0064 5$LC=0.00103 8$MC=0.000240 18
201TLS G NC=6.1E-5 4$OC=1.18E-5 9$PC=1.12E-6 9$IPC=2.77E-5 16
201TL cG M$ce(K)=0.6 {I2} (1964Aa01); |a(K)exp=0.009 {I4} (1979Do09);
201TL2cG |a(K)exp=0.010 {I3} (1971Hn04)
201TL G 1639.1 5 0.20 5 [M1,E2] 0.0037 11
201TL2 G %IG=0.0035 9
201TLS G KC=0.0030 9$LC=4.8E-4 14$MC=1.12E-4 33
201TLS G NC=2.8E-5 8$OC=5.5E-6 16$PC=5.1E-7 16$IPC=0.00015 4
201TL L 1671.96 5 3/2+,5/2+
201TL E 1.01 8 6.50 11
201TLS E CK=0.668 21$CL=0.245 15$CM+=0.087 6
201TL G 341.51 8 6.8 8 [M1,E2] 0.18 10
201TL2 G %IG=0.117 15
201TLS G KC=0.14 9$LC=0.030 8$MC=0.0072 17
201TLS G NC=0.0018 4$OC=3.4E-4 9$PC=2.7E-5 14
201TL G 394.86 9 10.8 7 M1(+E2) 0.4 LT 0.177 10
201TL2 G %IG=0.186 15
201TLS G KC=0.145 8$LC=0.0248 9$MC=0.00579 20
201TLS G NC=0.00146 5$OC=0.000283 11$PC=2.65E-5 14
201TL cG M$ce(K)=3.6 {I10} (1964Aa01); |a(K)exp=0.17 {I5} (1979Do09);
201TL2cG |a(K)exp=0.22 {I7} (1971Hn04)
201TL G 514.38 9 9.1 20 [M1+E2] 0.059 33
201TL2 G %IG=0.157 35
201TLS G KC=0.047 28$LC=0.0091 35$MC=0.0022 8
201TLS G NC=5.4E-4 20$OC=1.0E-4 4$PC=9.E-6 5
201TL G 979.4 3 1.1 3 [M1+E2] 0.012 5
201TL2 G %IG=0.019 5
201TLS G KC=0.010 5$LC=0.0017 7$MC=3.9E-4 15
201TLS G NC=1.0E-4 4$OC=1.9E-5 8$PC=1.8E-6 8
201TL G 1340.88 9 26.9 15 [M1+E2] 0.0057 21
201TL2 G %IG=0.464 35
201TLS G KC=0.0047 17$LC=7.8E-4 27$MC=1.8E-4 6
201TLS G NC=4.6E-5 15$OC=8.8E-6 30$PC=8.2E-7 31$IPC=3.1E-5 8
201TL G 1672.02 10 1.45 10 [M1,E2] 0.0036 11
201TL2 G %IG=0.0250 21
201TLS G KC=0.0028 9$LC=4.6E-4 13$MC=1.07E-4 31
201TLS G NC=2.7E-5 8$OC=5.2E-6 15$PC=4.9E-7 15$IPC=0.00017 4
201TL L 1712.4 3 3/2,5/2,7/2+ ?
201TL E 0.034 8 7.73 17 ?
201TLS E CK=0.62 4$CL=0.28 3$CM+=0.102 11
201TL G 1019.8 3 0.9 4 a
201TL2 G %IG=0.016 7
201TL G 1381.4 3 1.1 2
201TL2 G %IG=0.019 4
201TL L 1755.33 7 3/2,5/2+
201TL E 0.176 14 6.68 20
201TLS E CK=0.51 9$CL=0.36 7$CM+=0.13 3
201TL G 1062.79 15 4.0 5
201TL2 G %IG=0.069 9
201TL G 1424.16 9 5.8 3
201TL2 G %IG=0.100 7
201TL G 1755.32 10 0.65 6
201TL2 G %IG=0.0112 12