145PM    145SM EC DECAY                1977RO29,1983VO10         09NDS    200902
145PM  H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 110, 507 (2009)$
145PM2 H CUT=1-Oct-2008$
145PM c  Others: 1970Be65, 1981BeYJ, 1988Ta03
145PM cE IE        |eK(exp)(61)=0.828 {I20}, |eK(exp)(61)/|eL(exp)(61)=0.162
145PM2cE {I18} (1981BeYJ); |eK(exp)(g.s.)/|eK(exp)(61)=0.08 {I2},
145PM3cE |e(L+M+N)(61)/|eK(exp)(61)=0.20 {I2}, |e(L+M+N)(493)/|eK(exp)(493)=0.6
145PM4cE {I1} (1959Br65); |eK(exp)(493)/|eK(exp)(61)=0.428 {I29} (1983Vo10);
145PMxcE see also 1991Pl01
145PM cE           For internal bremsstrahlung spectra see 1959Br65, 1977Ro29
145PM cE           I(K| x ray)=133.3% {I19} (1991Pl01). Other: 134% {I4}
145PMxcE (1991ChZZ)
145PM cE           I(ce)=81.1% {I21} (1991ChZZ)
145PM DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
145PM cG           Measured KLL Auger spectrum (2000KoZR), see reference for
145PM2cG KLL component energy, intensities.
145PM3cG KL{-1}L{-2} Auger transition intensity ratio
145PM4cG ({+3}p{-0}/{+1}p{-1})=0.45 {I1} (2000KoZQ) agrees well with
145PM5cG theoretical value (2000KoZQ). Deduced K atomic level width from 61.2|g
145PMxcG ce line (2000KoZO)
145PM cG RI        From 1983Vo10; 1977Ro29 did not observe the 120.8|g reported
145PM2cG by 1970Be65
145PM cG E         From 1983Vo10 except 431|g which is from 1977Ro29.
145SM  P 0.0         7/2-              340 D     3              620        3
145PM  N 0.1215    10          1.0       1.0
145PM cN NR        I(61.1|g)=12.15% {I10} (1991Pl01)
145PM PN                                                                     3
145PM  L 0.0         5/2+
145PM  E                          8.6   8  8.91   4
145PMS E  CK=0.8302 $CL=0.1315 $CM+=0.03827
145PM  L 61.22      27/2+              2.64 NS   6
145PM cL T         weighted average of 2.69 ns {I9} (1967Ba22),
145PM2cL 2.61 ns {I10} (1967My01), 2.6 ns {I2} (1959Br65), 2.7 ns {I2}
145PMxcL (1962Be31)
145PM  E                         91.4  8   7.79   1
145PMS E  CK=0.8281 $CL=0.1331 $CM+=0.03881
145PM cE IE        |eK(exp)=0.828 {I20}, |eL(exp)/|eK(exp)=0.162 {I18}
145PM2cE (1981BeYJ); |e(L+M+N)/|eK(exp)=0.20 {I2} (1959Br65)
145PM  G 61.2265   17100       M1+(E2)   0.045   LT    6.39
145PMS G KC=5.40 8$LC=0.774 14$MC=0.165 3$NC+=0.0432 8
145PMS G NC=0.0372 7$OC=0.00560 9$PC=0.000349 5
145PM cG E$Measured E(ce(K))(2000KoZU)
145PM cG RI        I|g=12.15% {I10} (1991Pl01). Other: 12.2% {I2} (1991ChZZ)
145PM cG M         |a(K)exp=5.3 {I1}, K/L=6.5 {I4}, L/M=5.1 {I3} (1959Br65);
145PM2cG K/L=8.1 {I8}, L/M=4.0 {I8} (1959Dz06); L1/L2=11.1 {I12}, L1/L3=39
145PMxcG {I6}, L2/L3=3.5 {I6} (1967Ba22)
145PMB G BM1W>0.0048$BE2W<1.5
145PM  L 492.55     73/2+
145PM  E                        0.0033 2   9.45   5                          1U
145PMS E  CK=0.332 17 $CL=0.491 12 $CM+=0.177 5
145PM cE IE        |eK(exp)=0.27 {I3} (1971My01); |e(L+M+N)/|eK(exp)=0.6 {I1}
145PMxcE (1959Br65)
145PM  G 431.4      50.00043  3
145PM cG RI        I(431|g)/I(492|g)=0.016 {I1} (1977Ro29). Other: <0.022
145PMxcG (1983Vo10)
145PM  G 492.55     70.027    1
145PM cG E         other: 492.31 {I15} (1971My01)