142EU 142GD EC DECAY 1991FI03,1988TU03 11NDS 201108
142EU H TYP=FUL$AUT=T.D. Johnson, D. Symochko(a), M. Fadil(b), and J.K. Tuli$
142EU2 H CIT=NDS 112, 1949 (2011)$CUT=1-Jun-2010$
142EU c Identification: mass-separator (1991Fi03,1988GiZV), excit (1988Tu03)
142EU c Measured: |g, |g-K| x ray coin (1991Fi03,1988GiZV,1988Tu03,1973VaYZ),
142EUxc ce, |g|g (1988Tu03)
142EU c 1988GiZV: same authors as 1991Fi03
142EU DG CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
142EU cG E,RI$From 1991Fi03
142EU cG E(A),RI(A)$From 1988Tu03
142EU cG E(C),RI(C)$From 1988GiZV
142EU cG E(B)$Observed only in coincidence (1991Fi03)
142EU cG M$|a(K)exp were normalized to data on I|g and ce(K) in {+207}Bi source
142EU2cG as standard (1988Tu03)
142EU cL E$From least-squares fit to E|g
142GD P 0.0 0+ 70.2 S 6 4360 40
142EU N 0.112 11 1.0 1.0
142EU cN NR I(178.8|g)=11.2% {I11} (1988GiZV)
142EU PN 3
142EU G 238.8 1 1.3 2
142EU G 375.4 1 2.5 3
142EU G 886.3 22.9 13 A
142EU L 0.0 1+
142EU E 34 3 18 2 4.79 5 52 5
142EUS E EAV=1515 19$CK=0.285 7$CL=0.0413 10$CM+=0.0119 3
142EU cE IE from balance of I|g with I(178.8|g)=11.2% {I11} and decay
142EU2cE scheme; others: I|e+I|b{++}=20.0% {I8} (1988GiZV), 61% {I33} (1988Tu03)
142EU L 178.87 5(2)-
142EU G 178.9 1 100.0 15E1 0.0590
142EUS G KC=0.0500 7$LC=0.00706 10$MC=0.001517 22$NC+=0.000401 6
142EUS G NC=0.000344 5$OC=5.28E-5 8$PC=4.51E-6 7
142EU cG M |a(K)exp=0.044 {I5}
142EU L 280.33 71+,2+
142EU E 0.78 0.52 6.3 1.3
142EUS E EAV=1385 19$CK=0.336 8$CL=0.0487 12$CM+=0.0141 4
142EU G 101.4 1 0.92 23[E1] 0.273
142EUS G KC=0.230 4$LC=0.0342 5$MC=0.00736 11$NC+=0.00192 3
142EUS G NC=0.001656 24$OC=0.000249 4$PC=1.92E-5 3
142EU G 280.3 1 35.9 8 E2+M1 0.089 17
142EUS G KC=0.072 18$LC=0.0129 4$MC=0.00285 15$NC+=0.00075 3
142EUS G NC=0.00065 3$OC=9.82E-5 14$PC=7.4E-6 24
142EU cG M |a(K)exp=0.060 {I6}; |d>1.5 (from |a(K)exp)
142EU L 284.26 50+,1+,2+
142EU E 2.2 1.5 5.8 3.7
142EUS E EAV=1383 19$CK=0.337 8$CL=0.0488 12$CM+=0.0141 4
142EU G 284.4 1 55.0 15M1 0.1014
142EUS G KC=0.0860 12$LC=0.01205 17$MC=0.00260 4$NC+=0.000699 10
142EUS G NC=0.000595 9$OC=9.46E-5 14$PC=9.43E-6 14
142EU cG M |a(K)exp=0.083 {I9}, K/L=9.2 {I23}
142EU L 496.45 11
142EU E 0.066 0.054 7.2 0.12
142EUS E EAV=1286 19$CK=0.382 9$CL=0.0553 13$CM+=0.0160 4
142EU G 212.2 1 1.53 15
142EU G 216 1 0.5 AP B
142EU L 503.23 6+
142EU E 0.98 0.82 6.0 1.8
142EUS E EAV=1283 19$CK=0.383 9$CL=0.0555 13$CM+=0.0161 4
142EU G 222.8 1 14.4 6 M1+E2 0.173 23
142EUS G KC=0.14 3$LC=0.028 5$MC=0.0061 11$NC+=0.0016 3
142EUS G NC=0.00139 24$OC=0.000208 25$PC=1.4E-5 5
142EU cG M |a(K)exp=0.138 {I15}, K/L=4.1 {I8}; |d=1.0 {I+9-3} (from
142EUxcG |a(K)exp)
142EU G 503.0 1 6.4 15
142EU L 526.30 7+
142EU E 3.3 2.9 5.5 6.2
142EUS E EAV=1272 19$CK=0.388 9$CL=0.0563 14$CM+=0.0163 4
142EU G 241.7 2 1.5 4 M1 0.1570
142EUS G KC=0.1331 19$LC=0.0187 3$MC=0.00404 6$NC+=0.001087 16
142EUS G NC=0.000926 14$OC=0.0001470 21$PC=1.463E-5 21
142EU cG M |a(K)exp=0.18 {I5}
142EU G 347.6 1 4.0 6
142EU G 526.2 1 52.7 15E2 0.01170
142EUS G KC=0.00960 14$LC=0.001646 23$MC=0.000362 5$NC+=9.55E-5 14
142EUS G NC=8.21E-5 12$OC=1.252E-5 18$PC=9.60E-7 14
142EU cG M |a(K)exp=0.010 {I2}
142EU L 544.53 12
142EU E 0.25 0.21 6.6 0.46
142EUS E EAV=1264 19$CK=0.392 10$CL=0.0569 14$CM+=0.0165 4
142EU G 264.2 1 4.1 3
142EU L 550.60 10+
142EU E 0.21 0.18 6.7 0.39
142EUS E EAV=1261 19$CK=0.394 10$CL=0.0571 14$CM+=0.0165 4
142EU G 550.6 1 6.4 7 E2 0.01041
142EUS G KC=0.00857 12$LC=0.001443 21$MC=0.000317 5$NC+=8.37E-5 12
142EUS G NC=7.19E-5 10$OC=1.100E-5 16$PC=8.60E-7 12
142EU cG M |a(K)exp=0.011 {I4}
142EU L 585.84 10
142EU E 0.49 0.45 6.3 0.94
142EUS E EAV=1245 19$CK=0.402 10$CL=0.0583 14$CM+=0.0168 4
142EU G 407.0 1 4.8 4
142EU G 585.7 2 4.7 6
142EU L 591.23 8
142EU E 0.642 0.588 6.1 1.23
142EUS E EAV=1242 19$CK=0.403 10$CL=0.0584 14$CM+=0.0169 4
142EU G 306.9 1 7.2 5
142EU G 591.3 1 9.8 7
142EU L 614.52 7+
142EU E 0.3 0.3 6.4 0.6
142EUS E EAV=1231 19$CK=0.408 10$CL=0.0592 14$CM+=0.0171 4
142EU G 330.4 1 2.9 5
142EUF G FL=284.26
142EU G 335 1 2 AP B
142EU G 614.5 1 13.0 8 E2
142EUS G CC=0.00790 11$KC=0.00655 10$LC=0.001060 15$MC=0.000232 4$NC+=6.15E-5 9
142EUS G NC=5.27E-5 8$OC=8.11E-6 12$PC=6.63E-7 10
142EU cG M |a(K)exp=0.007 {I2}
142EU L 619.72 10
142EU E 0.966 0.914 5.9 1.88
142EUS E EAV=1229 19$CK=0.410 10$CL=0.0594 14$CM+=0.0172 4
142EU G 336 10.5 AP B
142EU G 619.7 1 18.3 8
142EU L 631.70 10
142EU E 0.659 0.631 6.1 1.29
142EUS E EAV=1224 19$CK=0.412 10$CL=0.0598 14$CM+=0.0173 4
142EU G 105 11 AP B
142EU G 136 11 AP B
142EU G 631.7 1 9.5 8
142EU L 660.89 8
142EU E 0.39 0.38 6.3 0.77
142EUS E EAV=1210 19$CK=0.419 10$CL=0.0608 14$CM+=0.0176 4
142EU G 482.0 12.6 5
142EU cG RI$from level scheme (1991Fi03)
142EU G 660.9 14.3 5
142EU L 704.93 10
142EU E 0.43 0.45 6.2 0.88
142EUS E EAV=1190 19$CK=0.430 10$CL=0.0624 15$CM+=0.0180 5
142EU G 704.9 1 7.9 22
142EU L 732.07 7
142EU E 0.646 0.694 6.0 1.34
142EUS E EAV=1178 19$CK=0.436 10$CL=0.0634 15$CM+=0.0183 5
142EU G 228.1 1 0.9 AP B
142EUF G FL=503.23
142EU G 448.2 1 1.8 4
142EUF G FL=284.26
142EU G 553 1 5 AP B
142EU G 732.4 1 5.1 4
142EU L 750.33 8
142EU E 0.81 0.89 5.9 1.7
142EUS E EAV=1169 19$CK=0.441 10$CL=0.0640 15$CM+=0.0185 5
142EU G 247.2 1 1.60 23
142EUF G FL=503.23
142EU G 466 1 B
142EU G 472 1 1 AP B
142EUF G FL=280.33
142EU G 572 1 5 AP B
142EU G 750.2 1 7.2 7
142EUF G FL=0.0
142EU L 935.59 8
142EU E 0.38 0.53 6.1 0.91
142EUS E EAV=1085 19$CK=0.488 11$CL=0.0709 16$CM+=0.0205 5
142EU G 203 1 0.8 AP B
142EU G 651.3 1 2.9 4
142EU G 935.6 14.4 5
142EU L 1000.20 10
142EU E 0.72 1.1 5.8 1.8
142EUS E EAV=1055 19$CK=0.505 11$CL=0.0734 16$CM+=0.0212 5
142EU G 821 1 2 AP B
142EU G 1000.2 1 14 2
142EU L 1210.23 25 ?
142EU E 0.080 0.16 6.5 0.24
142EUS E EAV=960 19$CK=0.561 11$CL=0.0818 17$CM+=0.0237 5
142EU G 274.3 4 A
142EU G 595.9 32.1 15 A
142EU L 1383.28 12
142EU E 0.12 0.33 6.2 0.45
142EUS E EAV=882 18$CK=0.608 11$CL=0.0887 16$CM+=0.0257 5
142EU G 1204.4 1 4 2
142EU L 1412.94 8
142EU E 0.86 2.3 5.3 3.2
142EUS E EAV=868 18$CK=0.616 11$CL=0.0899 16$CM+=0.0260 5
142EU G 862 13 AP B
142EU G 910.0 12.4 5
142EU G 1133 1 1.3 AP B
142EU G 1233.9 115.0 8
142EU G 1412.4 2 6.8 15
142EU L 1438.33 7
142EU E 1.9 5.5 4.9 7.4
142EUS E EAV=857 18$CK=0.623 11$CL=0.0909 16$CM+=0.0263 5
142EU G 823.9 1 10.8 25
142EU G 853 1 1.1 AP B
142EU G 912.0 22.9 6 A
142EU G 1153.8 12.1 5
142EU G 1259.6 1 38.2 15
142EUF G FL=178.87
142EU G 1438.4 2 11 4
142EU L 1480.9 10
142EU E 0.084 0.26 6.3 0.34
142EUS E EAV=838 18$CK=0.634 11$CL=0.0926 16$CM+=0.0268 5
142EU G 1302 13 AP B
142EU L 1485.9 10
142EU E 0.027 0.083 6.7 0.11
142EUS E EAV=836 18$CK=0.636 11$CL=0.0928 16$CM+=0.0269 5
142EU G 1307 11 AP B
142EU L 1779.01 8
142EU E 0.99 5.3 4.8 6.3
142EUS E EAV=704 18$CK=0.709 10$CL=0.1038 15$CM+=0.0301 5
142EU G 1073.6 4 A
142EU G 1158 12 AP B
142EU G 1187 1 6 AP B
142EU G 1275 1 2 AP B
142EU G 1495.0 25.9 15
142EU G 1599.7 218 3
142EU G 1779.1 122.1 23
142EU L 1948.6 3
142EU E 0.11 0.89 5.6 1.0
142EUS E EAV=629 18$CK=0.745 9$CL=0.1094 13$CM+=0.0317 4
142EU G 1948.6 3 9 4
142EU L 1956.6 3
142EU E 0.09 0.7 5.7 0.8
142EUS E EAV=625 18$CK=0.747 8$CL=0.1097 13$CM+=0.0318 4
142EU G 1956.6 3 7 3
142EU L 2025.59 21
142EU E 0.07 0.6 5.7 0.7
142EUS E EAV=595 18$CK=0.760 8$CL=0.1117 12$CM+=0.0324 4
142EU G 1846.7 2 6 3
142EU L 2160.9 10
142EU E 0.015 0.20 6.1 0.22
142EUS E EAV=535 18$CK=0.783 7$CL=0.1153 10$CM+=0.0334 3
142EU G 1982 1 2 AP B