143EU 143GD EC DECAY (110.0 S) 1978FI02,1976WI09 12NDS 201203
143EU H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 113, 715 (2012)$
143EU2 H CUT=31-May-2011$
143EU c Other: 1973VaYZ
143EU c Measured: |g rays, |g|g (1978Fi02,1976Wi09), ce (1976Wi09),
143EU c |g(t) (1978Fi02). With Q(|e)>6 MeV and the highest level
143EU2c reported at 2610, the decay scheme may not be complete.
143EU c Observed delayed protons and/or |a particles.
143EU2c Delayed proton or |a emission probability |<1.0|*10{+-3}% (1978Fi02)
143EU DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
143EU cG E,RI From 1978Fi02, except where noted
143EU cG |a(K)exp were deduced from I|g (1978Fi02), ce (1976Wi09) and
143EU2cG normalized to |a(K)=8.0|*10{+-3} for 803|g E2 in {+206}Bi. K/L ratios
143EUxcG are from 1976Wi09
143EU cL J From Adopted Levels
143EU cL T(A) From 1978Fi02
143GD P 152.6 (11/2-) 110.0 S 14 6.01E+3 20
143EU N 0.845 4 1.0 1.0
143EU cN NR$From |SI(|g+ce)(g.s.)=100. No g.s. transition is assumed, 11/2- to
143EUxcN 7/2+.
143EU PN 3
143EU G 1144.22 290.9 3
143EU L 0.0 5/2+
143EU L 271.93 37/2+
143EU G 271.94 3 100 M1 0.1143
143EUS G KC=0.0970 14$LC=0.01360 19$MC=0.00293 5$NC+=0.000789 11
143EUS G NC=0.000672 10$OC=0.0001067 15$PC=1.064E-5 15
143EU cG M |a(K)exp=0.10 {I7}; K/L=7.9 {I8} (1978Fi02,1976Wi09);
143EUxcG K/L=6.7 {I15} (1973VaYZ)
143EU L 389.53 411/2- 50.0 US 5 A
143EU E 14 5 2.5 10 6.1 2 16 6
143EUS E EAV=2177 95 $CK=0.130 15 $CL=0.0187 21 $CM+=0.0054 6
143EU G 117.57 5 7.7 6M2 9.84
143EUS G KC=7.56 11$LC=1.771 25$MC=0.405 6$NC+=0.1086 16
143EUS G NC=0.0930 14$OC=0.01437 21$PC=0.001239 18
143EU cG M |a(K)exp=5.7 {I25}; |a(L)exp=2.6 {I5} (1978Fi02,1976Wi09);
143EUxcG K/L=3.2 {I10} (1973VaYZ)
143EU G 389.47 5 4.1 3E3 0.0885
143EUS G KC=0.0603 9$LC=0.0218 3$MC=0.00505 7$NC+=0.001305 19
143EUS G NC=0.001135 16$OC=0.0001632 23$PC=6.25E-6 9
143EU cG M |a(K)exp=5.2|*10{+-2} {I8}, K/L=2.7 {I5}
143EU L 906.94 69/2+
143EU E 1.0 3 0.24 9 7.0 2 1.2 4
143EUS E EAV=1933 94 $CK=0.171 20 $CL=0.025 3 $CM+=0.0071 9
143EU G 906.96 62.5 3E2
143EUS G CC=0.00322 5$KC=0.00272 4$LC=0.000396 6$MC=8.57E-5 12$NC+=2.29E-5 4
143EUS G NC=1.95E-5 3$OC=3.06E-6 5$PC=2.79E-7 4
143EU cG M |a(K)exp=0.0024 {I8}
143EU L 977.49 4(9/2)-
143EU E 0.08 0.02 8.1 0.1
143EUS E EAV=1900 94 $CK=0.178 21 $CL=0.026 3 $CM+=0.0074 9
143EU G 588.00 3 18.6 13M1+E2 0.012 4
143EUS G KC=0.010 3$LC=0.0015 3$MC=0.00033 7$NC+=8.7E-5 18
143EUS G NC=7.4E-5 15$OC=1.2E-5 3$PC=1.1E-6 4
143EU cG M |a(K)exp=0.011 {I1}
143EU L 1057.33 611/2+
143EU E 2.6 4 0.73 14 6.5 1 3.3 5
143EUS E EAV=1862 94 $CK=0.186 23 $CL=0.027 4 $CM+=0.0078 10
143EU G 785.56 66.5 5E2
143EUS G CC=0.00443 7$KC=0.00371 6$LC=0.000559 8$MC=0.0001215 17$NC+=3.24E-5 5
143EUS G NC=2.77E-5 4$OC=4.31E-6 6$PC=3.80E-7 6
143EU cG M |a(K)exp=0.0032 {I5}
143EU L 1057.65 513/2-
143EU E 7.3 6 2.1 3 6.1 1 9.4 7
143EUS E EAV=1862 94 $CK=0.186 23 $CL=0.027 4 $CM+=0.0078 10
143EU G 668.10 311.5 8M1+E2
143EUS G CC=0.0089 25$KC=0.0075 22$LC=0.00108 24$MC=0.00023 5$NC+=6.2E-5 14
143EUS G NC=5.3E-5 12$OC=8.4E-6 19$PC=7.9E-7 25
143EU cG M |a(K)exp=0.0079 {I10},
143EU2cG |a(K)=0.00979(M1), |a(K)=0.00539 (E2)
143EU L 1088.3 1
143EU E 0.08 AP 0.02 AP 8.0 AP 0.1 AP
143EUS E EAV=1848 94 $CK=0.189 23 $CL=0.027 4 $CM+=0.0079 10
143EU G 698.8 10.45 6
143EU L 1188.43 511/2-
143EU E 7.4 7 2.3 3 6.0 1 9.7 8
143EUS E EAV=1801 94 $CK=0.200 25 $CL=0.029 4 $CM+=0.0083 11
143EU G 131.1 10.44 7
143EU G 210.9 1 1.3 1M1 0.227
143EUS G KC=0.193 3$LC=0.0272 4$MC=0.00588 9$NC+=0.001581 23
143EUS G NC=0.001346 19$OC=0.000214 3$PC=2.12E-5 3
143EU cG M |a(K)exp=0.27 {I4}
143EU G 798.89 612.7 9E2
143EUS G CC=0.00426 6$KC=0.00358 5$LC=0.000537 8$MC=0.0001165 17$NC+=3.10E-5 5
143EUS G NC=2.65E-5 4$OC=4.13E-6 6$PC=3.66E-7 6
143EU cG M |a(K)exp=0.0032 {I5}
143EU L 1214.0 111/2-
143EU E 3.0 3 0.96 16 6.4 1 4.0 4
143EUS E EAV=1789 94 $CK=0.203 25 $CL=0.029 4 $CM+=0.0085 11
143EU G 824.43 95.9 4(E2)
143EUS G CC=0.00397 6$KC=0.00334 5$LC=0.000497 7$MC=0.0001078 15$NC+=2.87E-5 4
143EUS G NC=2.46E-5 4$OC=3.83E-6 6$PC=3.42E-7 5
143EU cG M |a(K)exp=0.0034 {I5}
143EU L 1256.87 611/2+
143EU E 1.1 2 0.35 7 6.8 1 1.4 2
143EUS E EAV=1769 94 $CK=0.21 3 $CL=0.030 4 $CM+=0.0087 11
143EU G 984.93 52.4 2E2
143EUS G CC=0.00270 4$KC=0.00228 4$LC=0.000327 5$MC=7.07E-5 10$NC+=1.89E-5 3
143EUS G NC=1.614E-5 23$OC=2.53E-6 4$PC=2.35E-7 4
143EU cG M |a(K)exp=0.0055 {I11}
143EU L 1306.09 615/2-
143EU CL No EC feeding is expected from 143GD(JPI=11/2-).
143EU G 916.53 55.1 4E2
143EUS G CC=0.00315 5$KC=0.00266 4$LC=0.000386 6$MC=8.36E-5 12$NC+=2.23E-5 4
143EUS G NC=1.91E-5 3$OC=2.98E-6 5$PC=2.73E-7 4
143EU cG M$|a(K)exp=0.0026 {I4}
143EU L 1331.2 111/2+
143EU E 0.7 1 0.2 6.9 1 0.9 1
143EUS E EAV=1734 94 $CK=0.22 3 $CL=0.031 4 $CM+=0.0091 12
143EU G 1059.3 11.0 1
143EU L 1405.6 2
143EU E 0.2 1 0.08 3 7.4 2 0.3 1
143EUS E EAV=1700 94 $CK=0.23 3 $CL=0.033 4 $CM+=0.0095 12
143EU G 428.1 20.3 1
143EU L 1497.7 2
143EU E 0.4 1 0.2 1 7.1 2 0.6 2
143EUS E EAV=1657 94 $CK=0.24 3 $CL=0.035 5 $CM+=0.0100 13
143EU G 590.8 20.4 2
143EU G 1225.8 50.3 1
143EU L 1565.2 2
143EU E 0.6 1 0.3 6.9 1 0.9 1
143EUS E EAV=1625 94 $CK=0.25 3 $CL=0.036 5 $CM+=0.0104 13
143EU G 1293.3 21.0 1
143EU L 1602.61 7
143EU E 1.3 2 0.54 9 6.5 1 1.8 2
143EUS E EAV=1608 94 $CK=0.25 4 $CL=0.037 5 $CM+=0.0106 14
143EU G 545.3 10.7 1
143EU G 625.23 81.4 1
143EU G 1213.1 30.66 9
143EU L 1676.49 8
143EU E 2.1 2 0.94 16 6.3 1 3.0 3
143EUS E EAV=1573 93 $CK=0.27 4 $CL=0.038 5 $CM+=0.0111 14
143EU G 1404.56 73.4 3
143EU L 1754.24 8-
143EU E 1.0 1 0.49 7 6.6 1 1.5 1
143EUS E EAV=1537 93 $CK=0.28 4 $CL=0.040 5 $CM+=0.0116 15
143EU G 497.3 10.7 1
143EU G 776.8 11.0 1M1
143EUS G CC=0.00780 11$KC=0.00666 10$LC=0.000901 13$MC=0.000194 3$NC+=5.22E-5 8
143EUS G NC=4.44E-5 7$OC=7.07E-6 10$PC=7.17E-7 10
143EU cG M |a(K)exp=0.0064 {I3}
143EU L 1761.7 2
143EU E 0.5 1 0.2 6.9 1 0.7 1
143EUS E EAV=1534 93 $CK=0.28 4 $CL=0.040 5 $CM+=0.0116 15
143EU G 1489.8 20.78 9
143EU L 1893.20 815/2-
143EU E 0.4 1 0.3 1 6.8 2 0.7 2
143EUS E EAV=1473 93 $CK=0.30 4 $CL=0.044 6 $CM+=0.0126 16
143EU G 836.3 10.66 6
143EU G 1503.4 11.4 1
143EU L 1903.6 2
143EU E 0.5 1 0.3 1 6.8 1 0.8 1
143EUS E EAV=1468 93 $CK=0.30 4 $CL=0.044 6 $CM+=0.0127 16
143EU G 845.5 20.3 1
143EU G 926.6 20.65 9
143EU L 1970.6 3
143EU E 0.31 4 0.19 3 6.9 1 0.50 5
143EUS E EAV=1437 93 $CK=0.32 4 $CL=0.046 6 $CM+=0.0132 17
143EU G 993.1 30.55 6
143EU L 2018.73 5(9/2-)
143EU E 4.2 4 2.6 4 5.8 1 6.8 4
143EUS E EAV=1415 93 $CK=0.32 4 $CL=0.047 6 $CM+=0.0136 17
143EU G 830.1 10.64 6
143EU G 1041.35 53.6 3
143EU G 1629.3 12.3 2
143EU G 1746.4 10.9 1
143EUF G FL=271.93
143EU L 2065.07 6(9/2-)
143EU E 2.9 3 1.9 3 5.9 1 4.8 3
143EUS E EAV=1393 93 $CK=0.33 5 $CL=0.048 6 $CM+=0.0139 18
143EU G 1087.3 10.9 2
143EU G 1158.2 10.66 9
143EU G 1675.9 30.57 9
143EU G 1793.21 73.1 2
143EU L 2092.15 7
143EU E 2.6 3 1.8 3 5.9 1 4.4 3
143EUS E EAV=1381 93 $CK=0.34 5 $CL=0.049 7 $CM+=0.0142 18
143EU G 1702.5 11.3 1
143EU G 1820.27 73.6 3
143EU L 2196.71 5(11/2-)
143EU E 10.8 12 8.1 11 5.2 1 18.9 8
143EUS E EAV=1333 93 $CK=0.36 5 $CL=0.052 7 $CM+=0.0151 19
143EU G 304.2 2 1.2 1(E2) 0.0558
143EUS G KC=0.0431 6$LC=0.00985 14$MC=0.00221 4$NC+=0.000575 9
143EUS G NC=0.000498 7$OC=7.31E-5 11$PC=4.02E-6 6
143EU cG M$|a(K)exp=0.062 {I19}, |DJ
143EU G 594.3 10.69 6
143EU G 890.52 92.1 2
143EU cG M |a(K)exp=0.0042 {I10}
143EU G 1008.28 51.6 1M1
143EUS G CC=0.00416 6$KC=0.00355 5$LC=0.000477 7$MC=0.0001024 15$NC+=2.76E-5 4
143EUS G NC=2.35E-5 4$OC=3.74E-6 6$PC=3.81E-7 6
143EU cG M |a(K)exp=0.0041 {I15}
143EU G 1138.9 10.96 9
143EU G 1219.21 74.9 4
143EU G 1807.14 79.1 7
143EU L 2209.3 3
143EU E 0.4 1 0.3 1 6.7 1 0.7 1
143EUS E EAV=1327 93 $CK=0.36 5 $CL=0.053 7 $CM+=0.0152 19
143EU G 1231.8 30.8 1
143EU L 2254.2 1
143EU E 0.67 9 0.53 8 6.4 1 1.2 1
143EUS E EAV=1306 93 $CK=0.37 5 $CL=0.054 7 $CM+=0.0156 20
143EU G 1196.9 11.06 9
143EU G 1276.9 50.3 1
143EU L 2275.6 1
143EU E 1.1 2 0.89 15 6.2 1 2.0 2
143EUS E EAV=1296 93 $CK=0.38 5 $CL=0.055 7 $CM+=0.0158 20
143EU G 1087.3 11.0 2
143EU G 1297.6 20.42 7
143EU G 1886.0 20.9 1
143EU L 2331.9 2
143EU E 0.3 1 0.2 1 6.8 1 0.5 1
143EUS E EAV=1271 92 $CK=0.39 5 $CL=0.056 7 $CM+=0.0163 20
143EU G 1354.4 20.6 1
143EU L 2351.1 1
143EU E 1.1 1 0.93 13 6.1 1 2.0 1
143EUS E EAV=1262 92 $CK=0.39 5 $CL=0.057 7 $CM+=0.0165 20
143EU G 1162.8 20.9 1
143EU G 1373.6 11.3 1
143EU L 2417.6 6
143EU E 0.2 1 0.1 1 6.9 2 0.3 1
143EUS E EAV=1231 92 $CK=0.41 5 $CL=0.059 8 $CM+=0.0171 21
143EU G 1329.3 50.3 1
143EU L 2600.7 1
143EU E 0.60 9 0.70 10 6.2 1 1.3 1
143EUS E EAV=1147 92 $CK=0.45 6 $CL=0.066 8 $CM+=0.0190 22
143EU G 1386.69 71.5 1
143EU L 2610.8 5
143EU E 0.1 0.2 1 6.8 2 0.3 1
143EUS E EAV=1143 92 $CK=0.46 6 $CL=0.066 8 $CM+=0.0191 22
143EU G 1633.3 60.10 5
143EU G 2338.9 80.3 1