176W 176RE EC DECAY 2001KI10,1977BE72,1977HA2406NDS 200602
176W H TYP=FUL$AUT=M.S. BASUNIA$CIT=NDS 107, 791 (2006)$CUT=15-Sep-2005$
176W C Others: 1972BE89, 1970GO20, 1967NA17.
176W C 2001KI10: 176RE produced from an 176IR grandparent activity made in the
176W 2C 149SM(31P,4N) reaction. Measured: EG, RI, G-G coin, G(THETA), CC, and
176W 3C M. Detector: ^CAESAR array of six Compton-suppressed Ge detectors,
176W 4C and electron spectrometer.
176W C 1977BE72: measured EG, RI, GG coin. Detectors: GE(LI).
176W C 1977HA24: activity produced by 181TA(A,9N), E(A)=133 MEV.
176W 2C Measured EG, RI. Detector: GE(LI).
176W C 1970GO20: activity produced by 180W(P,5N), E(P)=54 MEV. Measured EG,
176W 2C RI. Detector: GE(LI).
176W CG E,RI,M From 2001KI10, unless otherwise specified.
176W CG E(A),RI(A)$From 1977BE72. RI multiplied by 10 to normalize to the
176W 2CG 240.3G RI.
176W CL E$Deduced by evaluator from a least-squares fit to G-ray energies
176W 2CL assuming DE=1 keV.
176W CL J From multipolarity, rotational band assignment, and energy
176W 2CL systematics (2001KI10).
176W CL E(A)$KPI=0+ GS rotational band.
176W CL E(B)$KPI=2+ quasi G-vibrational band.
176W CL E(C)$KPI=0+ quasi B-vibrational band.
176W CL E(D)$KPI=(2-)
176RE P 0.0 3+ 5.3 M 3 5580 40
176W N .0538 21 1.00
176W PN .0538 21 3
176W CN NR From decay scheme assuming no EC population to the GS from
176W 2CN 176RE (JPI=3+), and TI(109G + 844G + 1040G + 1117G)=100%.
176W L 0.0 0+ 2.5 H 1 A
176W L 109.1 8 2+ A
176W E 6 3 3.5 18 6.71 22 10 5
176W S E EAV=2021 19$CK=0.290 5$CL=0.0469 8$CM+=0.01447 25
176W G 109.1 465 16 E2 2.81
176W CG %IG=25.81 56
176W CG M from adopted gammas.
176W S G KC=0.760 23$LC=1.55 5$MC=0.389 12$NC+=0.114 4
176W L 349.4 9 4+ A
176W CL J 240.3G E2 to the inband 2+ state.
176W E 16.0 10.2 6.2 26.2
176W S E EAV=1910 19$CK=0.320 6$CL=0.0519 9$CM+=0.0160 3
176W G 240.3 1000 29 E2 0.171
176W CG M from EKC=0.104 7, ELC=0.045 3, and EMC=0.0123 11
176W S G KC=0.104 4$LC=0.0508 16$MC=0.0125 4$NC+=0.00363 11
176W L 700.8 10 6+ A
176W CL J 351.4G E2 to the inband 4+ state.
176W E 2.0 3 1.7 3 6.94 8 3.7 6
176W S E EAV=1748 19$CK=0.371 7$CL=0.0602 11$CM+=0.0186 4
176W G 351.4 151 8 E2 0.0540
176W CG M from EKC=0.050 4
176W S G KC=0.0381 12$LC=0.0122 4$MC=0.00294 9$NC+=0.00086 3
176W L 844.1 13 0+ C
176W CL J$Supported by the G-G angular correlation of the 735 keV transition
176W 2CL and consistent with the 0+ to 2+ state transition in 2001KI10.
176W E 0.40 5 0.36 5 7.57 7 0.76 10
176W S E EAV=1682 19$CK=0.393 7$CL=0.0639 11$CM+=0.0197 4
176W G 735.0 14.1 16
176W G 844.0 0.24 6 E0 ?
176W CG RI K conversion electron intensity
176W L 931.4 10 2+ C
176W CL J 582.0G E2 to the 4+ state.
176W E 2.7 2 2.7 2 6.69 5 5.4 4
176W S E EAV=1642 19$CK=0.407 7$CL=0.0662 11$CM+=0.0204 4
176W G 582.0 36.8 19 E2 0.0147
176W CG M from EKC=0.002 1
176W S G KC=0.0115 4$LC=0.00245 8
176W G 822.2 71 3 E0+E2+M1 -2.7
176W CG M from EKC=0.056 4, and ELC=0.0034 4. M1 is 13.7%.
176W CG MR uncertainty +0.4 -0.5
176W CG ^A{-22}=+0.21 8, and ^A{-44}=+0.2 9
176W L 1041.6 8 2+ B
176W E 0.48 11 0.52 12 7.38 11 1.00 23
176W S E EAV=1591 19$CK=0.426 7$CL=0.0693 12$CM+=0.0214 4
176W G 692.1 2.1 8
176W G 932.4 36.4 17E0+E2+M1 +3.0
176W CG M from EKC=0.0083 16. M1 is 11.1%.
176W CG MR uncertainty +1.0 -0.7
176W CG ^A{-22}=-0.22 14 and ^A{-44}=+0.24 16
176W G 1041.6 29.7 21
176W CG %IG=1.65 13
176W L 1118.1 10 4+ C
176W CL J 768.7G E0+E2+M1 to the 4+ state at 349.3 keV level. 1009.0G
176W 2CL E2 to the 2+ state at 109.1 keV level.
176W E 3.5 2 4.0 3 6.48 4 7.5 5
176W S E EAV=1556 19$CK=0.439 7$CL=0.0715 12$CM+=0.0221 4
176W G 186.5 2.1 4
176W G 417.3 11.0 16
176W G 768.7 96 4 E0+E2+M1 -2.2
176W CG M$from EKC=0.066 7, ELC=0.0122 16, EMC=0.0033 8. M1 is 21%.
176W CG MR uncertainty +0.6 -1.2
176W CG ^A{-22}=+0.05 7, ^A{-44}=+0.23 8
176W G 1009.0 50 3 E2 @
176W CG M from EKC=0.45 10.
176W S G CC=0.00447$KC=0.00365 11$LC=0.00061 2
176W G 1117.0 56 14 A ?
176W CG %IG=3.02 74
176W L 1128.9 9 2- D
176W CL J 1019.9G E1 to the 2+ state at 109.1 keV level.
176W E 1.4 1 1.7 2 6.86 5 3.1 3
176W S E EAV=1551 19$CK=0.441 7$CL=0.0718 12$CM+=0.0221 4
176W G 87.1 4.1 10
176W G 1019.9 76 4 E1
176W CG M from EKC<0.001
176W S G CC=0.00173$KC=0.00145 5$LC=0.00021 1
176W L 1180.3 10 3+ B
176W E 2.4 1 2.9 2 6.60 4 5.3 3
176W S E EAV=1528 19$CK=0.450 8$CL=0.0733 12$CM+=0.0226 4
176W G 830.9 19.0 17
176W CG EKC=0.0034 12
176W G 1071.0 84 3
176W CG M 1071G E2 assignment from EKC=0.0032 7 in 2001KI10 is
176W 2CG not consistent with the JPI assignment of the depopulating level.
176W L 1198.3 10 3- D
176W CL J 849.1G E1 to the 4+ state at 349.3 keV level.
176W E 2.1 2 2.6 2 6.65 5 4.7 4
176W S E EAV=1519 19$CK=0.453 8$CL=0.0738 12$CM+=0.0228 4
176W G 156.9 12.0 17
176W G 849.1 100 5 E1
176W CG M from EKC=0.0026 8
176W S G CC=0.00243$KC=0.00204 7$LC=0.00029 1
176W L 1303.2 10 4- D
176W E 1.7 1 2.2 2 6.69 5 3.9 3
176W S E EAV=1471 19$CK=0.472 8$CL=0.0769 12$CM+=0.0237 4
176W G 122.8 4.7 17
176W G 174.3 6.6 17
176W G 953.9 67 4
176W L 1322.4 11 4+ B
176W E 1.5 1 2.0 2 6.73 5 3.5 3
176W S E EAV=1463 19$CK=0.475 8$CL=0.0775 13$CM+=0.0239 4
176W G 973.0 39.9 21 E2+M1 30 GT
176W CG ^A{-22}=-0.14 8 ^A{-44}=+0.22 10
176W S G CC=0.00481$KC=0.00392$LC=0.00067
176W G 1213.2 26 4
176W L 1397.6 11 6+ C
176W CL J 696.6G E0+E2+M1 to the 6+ state at 700.7 keV level. The ^E0
176W 2CL component supports the assignment as J{-B}{++} to J{-g}{++} transition.
176W E 0.32 5 0.47 8 7.35 8 0.79 13
176W S E EAV=1428 19$CK=0.489 8$CL=0.0798 13$CM+=0.0246 4
176W G 696.6 10.3 16E0+E2+M1
176W CG M from EKC=0.049 9
176W G 1048.4 4.3 16
176W L 1402.010 5- D
176W E 0.76 9 1.12 13 6.97 6 1.88 21
176W S E EAV=1426 19$CK=0.490 8$CL=0.0799 13$CM+=0.0247 4
176W G 203.9 2.3 10
176W G 701.3 24 3
176W G 1052.3 8.7 16
176W L 1438.2 13
176W E 0.41 7 0.61 10 7.22 8 1.02 17
176W S E EAV=1410 19$CK=0.497 8$CL=0.0810 13$CM+=0.0250 4
176W G 1329.1 19 3
176W L 1497.4 10
176W E 0.57 6 0.92 9 7.04 6 1.49 15
176W S E EAV=1383 19$CK=0.508 8$CL=0.0829 13$CM+=0.0256 4
176W G 368.5 9.1 16
176W G 1148.1 4.8 11
176W G 1388.3 13.8 16
176W L 1519.2 11 5+ B
176W E 0.58 5 0.94 8 7.02 5 1.52 13
176W S E EAV=1373 19$CK=0.512 8$CL=0.0836 13$CM+=0.0258 4
176W G 818.4 8.1 10
176W G 1169.8 20.2 19
176W L 1526.4 13
176W E 0.15 5 0.26 8 7.59 14 0.41 13
176W S E EAV=1370 19$CK=0.513 8$CL=0.0838 13$CM+=0.0259 4
176W G 1417.3 7.6 23
176W L 1539.2 13
176W E 0.42 5 0.69 8 7.15 6 1.11 13
176W S E EAV=1364 19$CK=0.516 8$CL=0.0842 13$CM+=0.0260 4
176W G 1189.8 20.7 21
176W L 1586.4 14
176W E 0.16 4 0.27 6 7.54 11 0.43 10
176W S E EAV=1342 19$CK=0.525 8$CL=0.0857 13$CM+=0.0264 4
176W G 388.1 7.6 16
176W CG M E2 from EKC=0.027 7 in 2001KI10, but no JPI for 1586.4 keV
176W 2CG level was reported.
176W L 1587.8 11
176W E 0.43 6 0.76 10 7.10 7 1.19 15
176W S E EAV=1342 19$CK=0.525 8$CL=0.0857 13$CM+=0.0265 4
176W G 1238.2 13.6 19
176W G 1478.8 8.5 16
176W L 1591.014
176W E 0.13 2 0.23 3 7.62 7 0.36 5
176W S E EAV=1340 19$CK=0.525 8$CL=0.0858 13$CM+=0.0265 4
176W G 659.6 6.6 8
176W L 1595.4 12
176W E 0.34 6 0.61 10 7.19 8 0.95 16
176W S E EAV=1338 19$CK=0.526 8$CL=0.0860 13$CM+=0.0265 4
176W G 292.1 6.2 12
176W G 397.2 11.4 25
176W L 1658.914
176W E 0.19 3 0.36 5 7.41 7 0.55 8
176W S E EAV=1310 19$CK=0.538 8$CL=0.0880 13$CM+=0.0272 4
176W G 958.1 10.3 14
176W L 1661.0 11 (3,4,5)-
176W CL J 1311.8G E1 to the 4+ state at 349.5 keV level.
176W E 1.5 1 2.8 2 6.51 5 4.3 3
176W S E EAV=1309 19$CK=0.539 8$CL=0.0880 13$CM+=0.0272 4
176W G 542.7 9.7 19
176W G 1311.8 70 4 E1
176W CG M from EKC=0.0012 2
176W S G CC=0.00110$KC=0.00093 3$LC=0.00013
176W L 1683.9 13
176W E 0.29 4 0.57 7 7.20 7 0.86 11
176W S E EAV=1298 19$CK=0.543 8$CL=0.0888 13$CM+=0.0274 4
176W G 1334.5 15.9 19
176W L 1686.511
176W E 0.20 4 0.40 7 7.36 9 0.60 11
176W S E EAV=1297 19$CK=0.544 8$CL=0.0889 13$CM+=0.0274 4
176W G 488.2 3.9 12
176W G 557.5 7.2 14
176W L 1701.6 13
176W E 0.27 4 0.52 7 7.23 7 0.79 11
176W S E EAV=1290 19$CK=0.546 8$CL=0.0893 13$CM+=0.0276 4
176W G 1352.2 14.7 19
176W L 1709.7 11
176W E 0.32 6 0.65 13 7.14 9 0.97 19
176W S E EAV=1287 19$CK=0.548 8$CL=0.0896 13$CM+=0.0277 4
176W G 1009.0 14 3 @
176W G 1360.2 4.1 14
176W L 1736.713
176W E 0.59 5 1.21 10 6.86 5 1.80 15
176W S E EAV=1274 19$CK=0.553 8$CL=0.0905 13$CM+=0.0279 4
176W G 695.1 33.5 23
176W L 1745.414
176W E 0.17 4 0.35 7 7.40 10 0.52 11
176W S E EAV=1270 19$CK=0.555 8$CL=0.0907 13$CM+=0.0280 4
176W G 627.3 9.7 19
176W L 1887.1 11
176W E 0.16 3 0.37 8 7.34 10 0.53 11
176W S E EAV=1206 18$CK=0.582 8$CL=0.0953 13$CM+=0.0294 4
176W G 1537.8 3.1 12
176W G 1777.9 6.8 15
176W L 1924.114
176W E 0.19 5 0.46 12 7.23 12 0.65 17
176W S E EAV=1190 18$CK=0.589 8$CL=0.0965 13$CM+=0.0298 4
176W G 1223.3 12 3