145LA 145BA B- DECAY 1978PF02,1997GR09 09NDS 200902 145LA H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 110, 507 (2009)$ 145LA2 H CUT=1-Oct-2008$ 145LA C 1982ChZV 145LA D Modified significantly by E. Browne (January 31, 2008). 145LA C Measured: G, GG, G(T), CE, B, BG (1978Pf02), G, GG 145LA2C (1982ChZV). Others: 1969WiZX, 1970OsZZ, 1971Ho29 145LA C A deduced (using ^RADLST) average radiation energy of 5198 keV 73 145LA2C from this decay scheme, is in fair agreement with a Q-value of 145LA3C 4923 keV 65 from the latest atomic mass adjustment (2003Au03). 145LA4C This agreement suggests the decay scheme is reasonably complete. 145LA5C In addition, this decay scheme is consistent with a total 145LA6C B- average energy of 1277 keV, a neutrino average energy of 1820 keV, 145LA7C and an average G-ray energy of 2071 keV. That is, most of the 145LA8C radiation energy is carried by G rays and neutrinos. 145LA CL Except for the 2566.4-keV level, all levels above 1177 keV 145LA2CL are pseudolevels, deduced from total G-ray absorption spectrometer 145LA3CL measurements. 145LA CB EB-=4855 170, 4570 200, 4500 200, 4230 170 from BG; 145LA2CB EB-=4920 120 (single B-spectrum) (1978Pf02) 145LA CB B- feedings to the various pseudolevels are from total 145LA2CB absorption G-ray spectrometer measurements (1997Gr09, 1996Gr20). 145LA CG M$EKC were normalized to KC(M1)=1.035 for 96.6G, CEK and 145LA2CG CEL are from 1986RoZU 145LA CG E,RI$From private communication of 1982ChZV, except where noted 145LA2CG otherwise 145LA CG E(A) Observed only in 1978Pf02 145LA CG E(B) Observed only in 1982ChZV 145LA CG E(X),RI(X)$Inferred by evaluators (from total G-ray absorption 145LA2CG spectrometer measurements) to balance the decay scheme. 145LA CL J The 145LA levels: 0, 96.6, 189.0, 351.5 and 145LA2CL probably 65.9 are interconnected by M1,E2 transitions and therefore 145LA3CL have the same parity 145LA CL E(P)$"Pseudo level" from total G-ray absorption spectrometer 145LA2CL measurements (1997Gr09). 145BA P 0.0 5/2- 4.31 S 16 4923 65 145LA N 0.17 2 1.0 1.0 145LA PN 3 145LA CN NR$Deduced by evaluators using IB(GS+66)=7% 2, and IB=68% feeding 145LA2CN "pseudo levels" between 1300 keV and 3900 keV (from total absorption 145LA3CN G-ray spectrometer measurements (1997Gr09, 1996Gr20). Authors have 145LA4CN distributed this B- intensity in (26) 100-keV bins. Evaluators have 145LA5CN assumed about half this intensity to be carried out by G rays 145LA6CN deexciting these levels to the GS and 66-keV levels for deducing a 145LA7CN G-ray normalization factor of 0.17 2, which agrees very well with a 145LA8CN measured value of IG(96.6)=17.1% 21 145LA8CN (1987RoZW,1986Ro17). 145LA G 258.5 1.0 B 145LA G 316.3 3.4 B 145LA G 343.7 6 A 145LA G 400.0 2 B 145LA G 427.2 3.7 B 145LA G 610.9 5.3 B 145LA G 643.6 2.3 B 145LA G 655.3 5 B 145LA G 747.7 1.3 B 145LA G 816.5 1.1 B 145LA G 849.5 2.7 B 145LA G 944.6 1.9 B 145LA G 1066.3 3.3 B 145LA G 1255.2 1.0 B 145LA G 1263.3 0.5 B 145LA G 1268.7 0.4 B 145LA G 1516.0 2.6 B 145LA G 1692.5 2.1 B 145LA G 1714.1 2.3 B 145LA G 1776.2 1.1 B 145LA G 1846.5 2.2 B 145LA G 1950.9 0.6 B 145LA G 2033.6 0.8 B 145LA G 2065.5 0.6 B 145LA G 2185.1 1.8 B 145LA G 2190.8 1.1 B 145LA G 2456.3 2.5 B 145LA G 2515.6 1.3 B 145LA G 2565.0 0.8 B 145LA G 2708.7 0.4 B 145LA L 0.0 (5/2+) 24.8 S 20 145LA L 65.9 2(7/2+) 145LA B 4.92E+3 12 7 2 6.14 13 145LAS B EAV=2096 31 145LA CB IB(GS+66)=7.0% 22, total absorption G-ray 145LA2CB spectrometer(1997Gr09, 1996Gr20). 145LA G 65.9 2 31 [M1] 3.59 6 145LAS G KC=3.07 5$LC=0.418 7$MC=0.0869 15$NC+=0.0224 4 145LAS G NC=0.0191 4$OC=0.00310 6$PC=0.000239 4 145LA L 96.6 2 (+) 145LA B 4.86E+3 174.4 3 6.33 5 145LAS B EAV=2081 31 145LA G 96.6 2 100 M1 1.193 145LAS G KC=1.019 16$LC=0.1382 21$MC=0.0287 5$NC+=0.00742 12 145LAS G NC=0.00631 10$OC=0.001026 16$PC=7.95E-5 12 145LA CG RI IG=17.1% 21 (1987RoZW) 145LA CG M K/L=8.3 14 (1986RoZU) 145LA L 189.0 2 (+) 145LA B 2.2 6.6 145LAS B EAV=2038 31 145LA G 91.9 2 43 M1 1.377 145LAS G KC=1.175 18$LC=0.1595 25$MC=0.0332 5$NC+=0.00856 14 145LAS G NC=0.00729 12$OC=0.001184 19$PC=9.16E-5 14 145LA CG M K/L=10 3, EKC=1.3 4 (1986RoZU) 145LA G 123.2 2 7 [M1] 0.598 145LAS G KC=0.511 8$LC=0.0690 11$MC=0.01435 22$NC+=0.00371 6 145LAS G NC=0.00315 5$OC=0.000513 8$PC=3.98E-5 6 145LA G 189.5 2 11 [M1] 0.181 145LAS G KC=0.1548 23$LC=0.0207 3$MC=0.00430 7$NC+=0.001112 16 145LAS G NC=0.000946 14$OC=0.0001540 22$PC=1.202E-5 18 145LA CG M EKC=0.18 4 (1986RoZU) 145LA L 237.9 2 (9/2+) 145LA B 0.65 7.1 145LAS B EAV=2015 31 145LA G 171.6 2 7.6 B 145LA G 237.9 2 6.8 B 145LA L 351.5 3 (+) 145LA B 3.4 6.3 145LAS B EAV=1962 31 145LA G 162.3 2 22 (M1) 0.277 145LAS G KC=0.237 4$LC=0.0318 5$MC=0.00661 10$NC+=0.001708 25 145LAS G NC=0.001454 21$OC=0.000236 4$PC=1.84E-5 3 145LA CG M K/L=5.3 12, EKC=0.18 4 (1986RoZU) 145LA G 254.9 26 145LA G 351.8 210 145LA L 475.3 3 145LA B 4.5E+3 20.84 6.9 145LAS B EAV=1904 31 145LA G 286.2 212 145LA G 378.8 224 145LA L 492.2 145LA B 0.51 7.1 145LAS B EAV=1896 31 145LA G 303.2 218 145LA G 492.7 212 B 145LA L 514.2 145LA B 4.84 6.1 145LAS B EAV=1886 31 145LA G 162.3 222 LT ? 145LA G 325.2 212 145LA G 417.8 225 145LA L 544.0 3 145LA B 1.94 6.5 145LAS B EAV=1872 31 145LA G 477.8 28.2 145LA G 544.2 229 145LA L 598.9 2 145LA B 1.89 6.5 145LAS B EAV=1846 31 145LA G 247.5 3 A 145LA CG E,RI observed only in 1978Pf02 145LA G 361.1 32.8 B 145LA G 532.8 212 145LA G 598.8 212 145LA L 637.5 ? 145LA B 1.02 6.7 145LAS B EAV=1828 31 145LA G 286.2 12 LT 145LA G 571.9 9 LT ? 145LA L 734.0 2 145LA B 4.23E+3 0.54 7.0 145LAS B EAV=1783 31 145LA G 544.2 229 LT 145LA G 668.2 2 A 145LA G 734.1 24 145LA L 827.0 ? 145LA B 1.02 6.7 145LAS B EAV=1740 31 145LA G 313.6 20.8 B 145LA G 334.4 22.2 145LA G 590.8 21.1 B 145LAF G FL=237.9 145LA G 730.6 8 A 145LA L 922.4 5 (5/2+,7/2) ? 145LA G 378.8 224 LT ? 145LA G 407.7 4 A 145LA G 571.9 29 145LA G 683.8 7 LT A ? 145LA L 973.6 145LA B 0.22 7.3 145LAS B EAV=1671 31 145LA G 481.5 0.7 145LA G 784.5 0.6 145LA L 1033.5 ? 145LA B 0.17 7.3 145LAS B EAV=1643 31 145LA G 844.5 31.0 145LA L 1176.8 ? 145LA B 1.83 6.2 145LAS B EAV=1576 31 145LA G 578.6 36 145LA G 683.8 7 A 145LA G 701.0 3 A 145LA G 1110.4 7 A 145LA L 1300 P 145LA B 0.38 6.9 145LAS B EAV=1519 31 145LA G 1234 2.2 X 145LA L 1400 P 145LA B 0.81 6.5 145LAS B EAV=1472 31 145LA G 1334 4.7 X 145LA L 1500 P 145LA B 1.35 6.2 145LAS B EAV=1426 31 145LA G 1434 7.9 X 145LA L 1600 P 145LA B 2.69 5.8 145LAS B EAV=1380 31 145LA G 1534 15.7 X 145LA L 1700 P 145LA B 1.61 6.0 145LAS B EAV=1333 31 145LA G 1634 9.4 X 145LA L 1800 P 145LA B 0.54 6.4 145LAS B EAV=1287 30 145LA G 1734 3.2 X 145LA L 2000 P 145LA B 7.53 5.2 145LAS B EAV=1194 30 145LA G 1934 44.0 X 145LA L 2100 P 145LA B 4.30 5.3 145LAS B EAV=1148 30 145LA G 2034 25.0 X 145LA L 2200 P 145LA B 1.40 5.8 145LAS B EAV=1102 30 145LA G 2134 8.2 X 145LA L 2300 P 145LA B 1.40 5.7 145LAS B EAV=1057 30 145LA G 2234 8.2 X 145LA L 2400 P 145LA B 2.15 5.4 145LAS B EAV=1011 30 145LA G 2334 12.6 X 145LA L 2500 P 145LA B 8.07 4.8 145LAS B EAV=965 30 145LA G 2434 47.2 X 145LA L 2566.4 145LA B 0.8 5.8 145LAS B EAV=935 30 145LA G 1968.6 1.0 145LA G 2021.5 2.2 145LA G 2052.4 0.9 145LA G 2501.0 0.7 145LA L 2600 P 145LA B 6.24 4.8 145LAS B EAV=920 30 145LA G 2534 36.5 X 145LA L 2700 P 145LA B 5.38 4.8 145LAS B EAV=874 30 145LA G 2603 31.5 X 145LA L 2800 P 145LA B 5.38 4.7 145LAS B EAV=829 30 145LA G 2703 31.5 X 145LA L 2900 P 145LA B 3.98 4.8 145LAS B EAV=784 30 145LA G 2803 23.3 X 145LA L 3000 P 145LA B 3.01 4.8 145LAS B EAV=740 29 145LA G 2903 17.6 X 145LA L 3100 P 145LA B 2.58 4.8 145LAS B EAV=695 29 145LA G 3003 15.1 X 145LA L 3200 P 145LA B 2.15 4.8 145LAS B EAV=651 29 145LA G 3103 12.6 X 145LA L 3300 P 145LA B 1.61 4.8 145LAS B EAV=607 29 145LA G 3203 9.4 X 145LA L 3400 P 145LA B 1.18 4.8 145LAS B EAV=563 29 145LA G 3303 6.9 X 145LA L 3500 P 145LA B 1.08 4.8 145LAS B EAV=520 28 145LA G 3403 6.3 X 145LA L 3600 P 145LA B 0.86 4.7 145LAS B EAV=478 28 145LA G 3503 4.9 X 145LA L 3700 P 145LA B 0.65 4.7 145LAS B EAV=435 28 145LA G 3603 3.8 X 145LA L 3800 P 145LA B 0.32 4.9 145LAS B EAV=394 27 145LA G 3703 1.9 X 145LA L 3900 P 145LA B 0.161 5.0 145LAS B EAV=353 27 145LA G 3803 0.9 X