143SM 143EU EC DECAY 1974KE07 12NDS 201203
143SM H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 113, 715 (2012)$
143SM2 H CUT=31-May-2011$
143SM D Calculated again NR, deduce EC+B+ feedings, log ft values.
143SM c Measured: |g (1974Ke07,1974Ch21,1974FiZF), |g|g (1974Ke07,1974FiZF),
143SM2c |b{++} (1974Ch21), ce, ce(t) (1980Ab10)
143SM cE $E(|b{++})=4080 {I50} (1974Ch21). Other: 4220 {I70} (1983Al06)
143SM DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
143SM cL J Adopted values
143EU P 0.0 5/2+ 2.59 M 2 5275 11
143SM N 0.069 5 1.0 1.0
143SM CN NR$Deduced by evaluators from decay scheme as follows: 1) NR=0.060 20,
143SM2CN using |SI(|g+ce) to (g.s.+107+754 levels)=22% {I8} (1974Ke07), and
143SM3CN 2) NR=0.0695 60, using |SI(|b{++})/I(1107|g)=9.6 {I10} from
143SM4CN I(|g{+|+}) (1974Ke07).The weighted average of these values is
143SM5CN NR=0.069 5, used in this evaluation.
143SM PN 4
143SM G 1272.2 30.80 15
143SM cG E 1268.4 in 1974Ch21
143SM G 1668.8 21.3 2
143SM G 1680.9 30.32 8
143SM G 2001.6 50.38 15
143SM G 2280.0 30.34 6
143SM G 2312.4 30.29 4
143SM G 2323.6 30.46 6
143SM G 2646.8 30.30 5
143SM G 2708.9 40.22 4
143SM G 3342.9 70.13 3
143SM G 4093.0 300.07 2
143SM L 0.0 3/2+
143SM E 65 2 15 5.3 80 2
143SMS E EAV=1943 6 $CK=0.1585 10 $CL=0.02264 14 $CM+=0.00651 4
143SM L 107.69 11/2+ 800 PS 50
143SM cL T from 1980Ab10
143SM G 107.69 1 27.9 30M1+(E2) 0.14 LE 1.371
143SMB G BM1W>0.0084$BE2W<9.4
143SMS G KC=1.157 17$LC=0.169 6$MC=0.0364 12$NC+=0.0095 3
143SMS G NC=0.0082 3$OC=0.00123 4$PC=7.36E-5 11
143SM cG M K/L+M+=5.7 {I3} (1980Ab10)
143SM L 754.0 211/2- 66 S 2 M1
143SM G 754.0 22.9 5
143SM L 1107.3 25/2+
143SM E 3.7 4 2.1 2 6.0 5.8 6
143SMS E EAV=1426 5 $CK=0.3038 21 $CL=0.0436 3 $CM+=0.01253 9
143SM G 999.6 27.3 3
143SM G 1107.3 2100
143SM L 1310.4 47/2-
143SM E 0.11 2 0.077 12 7.4 0.19 3
143SMS E EAV=1332 5 $CK=0.3436 23 $CL=0.0493 4 $CM+=0.01419 10
143SM G 203.1 21.9 3
143SM G 556.6 30.9 2
143SM L 1369.1 27/2+
143SM E 0.38 4 0.27 3 6.8 0.65 7
143SMS E EAV=1305 5 $CK=0.3559 24 $CL=0.0511 4 $CM+=0.01470 10
143SM G 1369.1 212.0 4
143SM L 1536.9 2(5/2)+
143SM E 1.8 2 1.6 1 6.0 3.4 3
143SMS E EAV=1228 5 $CK=0.393 3 $CL=0.0565 4 $CM+=0.01627 11
143SM G 429.6 21.52 20
143SM G 1429.3 24.7 3
143SM G 1536.8 243.9 12
143SM L 1566.1 2(3/2)+
143SM E 0.89 11 0.81 10 6.3 1.7 2
143SMS E EAV=1215 5 $CK=0.400 3 $CL=0.0575 4 $CM+=0.01655 11
143SM G 458.4 30.57 20
143SM G 1458.4 215.5 6
143SM G 1566.1 28.0 3
143SM L 1658.7 5
143SM E 0.03 1 0.03 1 7.7 0.06 2
143SMS E EAV=1172 5 $CK=0.423 3 $CL=0.0608 4 $CM+=0.01749 12
143SM G 551.4 30.80 20
143SM L 1715.0 2(3/2)+
143SM E 0.64 6 0.69 7 6.3 1.33 13
143SMS E EAV=1146 5 $CK=0.437 3 $CL=0.0628 4 $CM+=0.01808 12
143SM G 607.6 23.5 2
143SM G 1607.3 213.5 6
143SM G 1715.2 22.3 3
143SM L 1912.7 2(3/2)+
143SM E 1.9 2 2.5 2 5.7 4.4 4
143SMS E EAV=1056 5 $CK=0.488 3 $CL=0.0703 5 $CM+=0.02024 13
143SM G 805.3 213.4 6
143SM G 1804.9 222.2 12
143SM G 1912.7 228.4 14
143SM L 2070.3 25/2+,3/2+
143SM E 0.25 3 0.43 4 6.4 0.68 7
143SMS E EAV=985 5 $CK=0.531 3 $CL=0.0766 5 $CM+=0.02206 13
143SM G 1962.6 23.1 2
143SM G 2070.3 26.8 4
143SM L 2102.5 2(7/2+)
143SM E 0.33 4 0.60 6 6.3 0.93 10
143SMS E EAV=970 5 $CK=0.540 3 $CL=0.0780 5 $CM+=0.02244 13
143SM G 733.1 30.84 20
143SM G 2102.5 212.6 6
143SM L 2167.3 37/2+
143SM E 0.041 10 0.079 20 7.2 0.12 3
143SMS E EAV=941 5 $CK=0.558 3 $CL=0.0806 5 $CM+=0.02320 13
143SM G 798.1 41.0 3
143SM G 2167.3 30.70 7
143SM L 2228.0 3(5/2)+
143SM E 0.14 2 0.29 4 6.6 0.43 6
143SMS E EAV=913 5 $CK=0.575 3 $CL=0.0831 5 $CM+=0.02393 13
143SM G 691.2 30.77 20
143SM G 2228.0 35.4 6
143SM L 2270.7 37/2+ ?
143SM E 0.042 6 0.098 14 7.0 0.14 2
143SMS E EAV=894 5 $CK=0.587 3 $CL=0.0849 5 $CM+=0.02443 13
143SM G 1163.3 30.37 10
143SM G 2270.8 31.6 2
143SM L 2410.7 4(3/2+,5/2+) ?
143SM E 0.012 2 0.035 5 7.4 0.047 7
143SMS E EAV=831 5 $CK=0.626 3 $CL=0.0906 5 $CM+=0.02609 13
143SM G 2303.0 30.45 6
143SM G 2410.7 40.23 4
143SM L 2558.1 3 ?
143SM E 0.013 2 0.050 6 7.2 0.063 8
143SMS E EAV=765 5 $CK=0.666 3 $CL=0.0965 5 $CM+=0.02779 13
143SM G 2450.6 30.46 6
143SM G 2557.9 30.45 6
143SM L 2587.5 35/2+,3/2
143SM E 0.024 4 0.096 16 6.9 0.12 2
143SMS E EAV=752 5 $CK=0.674 3 $CL=0.0976 5 $CM+=0.02812 13
143SM G 2479.9 31.13 10
143SM G 2587.4 30.64 6
143SM L 2685.8 3(5/2)+
143SM E 0.01 0.07 1 7.1 0.08 1
143SMS E EAV=708 5 $CK=0.698 3 $CL=0.1013 4 $CM+=0.02919 12
143SM G 1578.5 30.46 10
143SM G 2578.2 40.15 6
143SM G 2685.8 30.54 7
143SM L 2842.1 6
143SM E 0.0013 4 0.009 3 7.9 0.010 3
143SMS E EAV=638 5 $CK=0.7346 24 $CL=0.1068 4 $CM+=0.03078 11
143SM G 2842.1 60.14 4
143SM L 2885.9 (7/2-,9/2+) ?
143SM E 0.007 1 0.05 1 7.1 0.06 1
143SMS E EAV=618 5 $CK=0.7439 23 $CL=0.1082 4 $CM+=0.03119 11
143SM G 1779.1 40.35 15
143SM G 2131.5 30.48 6
143SM L 3031.2 67/2+
143SM E 0.0011 3 0.012 3 7.7 0.013 3
143SMS E EAV=554 5 $CK=0.7717 20 $CL=0.1125 3 $CM+=0.03243 9
143SM G 3031.2 60.19 4
143SM L 3154.0 65/2+,3/2+
143SM E 0.0006018 0.009 3 7.7 0.010 3
143SMS E EAV=500 5 $CK=0.7914 16 $CL=0.1156 3 $CM+=0.03334 8
143SM G 3154.0 60.15 4
143SM L 3324.7 (7/2-) ?
143SM E 0.002 1 0.07 2 6.8 0.07 2
143SMS E EAV=425 5 $CK=0.8125 12 $CL=0.11908 20 $CM+=0.03436 6
143SM G 1955.3 30.80 25
143SM G 2571.1 40.22 5