168ER 168TM EC DECAY 1987ME04 10NDS 201008 168ER H TYP=FUL$AUT=CORAL M. BAGLIN$CIT=NDS 111, 1807 (2010)$CUT=15-Jun-2010$ 168ER C Others: 1957Gr74, 1959Ko64, 1960Br37, 1960Ja08, 1961Re07, 1962Bo18, 168ER2C 1964Re05, 1966Ju02, 1967Gu04, 1968Ke01, 1968Ku03, 1968Mi12, 1969Ke06, 168ER3C 1971La11, 1973Ki09, 1983Ji01, 1983Me17, 1985Ad03, 1990Me15, 168ER4C 1993BAZR, 1994VA02, 1996AL31, 1998AL15. 168ER C The decay scheme and all data are from 1987Me04, except where 168ER2C noted. 168ER C 1987ME04: Sources from TM metal (99.9% pure) + neutrons 168ER2C (EN=14.8 MEV), TM oxide (99.9% pure) + neutrons (EN up to 168ER3C 40 MEV, chem), and high-energy spallation of tantalum (chem, 168ER4C mass separation); measured EG, IG (GELI, high-purity 168ER5C germanium, ^LEPS spect). A few low-energy transitions were 168ER6C added from CE and (N,G) data. Reference citations are given 168ER7C with data from other sources. 168ER CE TI EC feedings are from intensity imbalance at each 168ER2CE level (negligible GS feeding expected because DJ=3). 168ER DG CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr. 168ER CG See 1959Ko64, 1960Ja08, 1961Re07, 1962Bo18, 1964Re05, 168ER2CG 1968Ke01, 1968Mi12, 1971La11, 1972BeVM, 1972BeVW, 1973Ki09, 1975Be43, 168ER3CG 1980Fu03, 1981Iw04, 1982Se07, 1996AL31 AND 1998AL15 for GG and/or 168ER4CG GG(|q) data. 168ER CG E,RI FROM 1987ME04, EXCEPT AS NOTED. 168ER CG M,MR From Adopted Gammas, except where noted. 168ER CG E(AEFGH) From Adopted Gammas. 168ER CG RI(F) Deduced from corresponding RI's for G's depopulating 168ER2CG same level in 167ER(N,G) E=thermal. 168ER CG RI(HI) Limit (RI LT 0.1) set for possible component 168ER2CG depopulating 1541.7 level (see Adopted Gammas). 168ER CG M(BGI),MR(BGI)$ FROM GG(|q) (1981Iw04). 168ER CG M(E),MR(E)$ FROM GG(|q) (1975Be43). 168ER CG M(D) From CE data (1975Ab06). 168ER TG $XK data (1982Se07); intensities relative to RI=100 2 for 198.2G. 168ER2TG E(x ray) I(x ray) 168ER3TG ER XKA2 48.22 51.6 12 168ER4TG ER XKA1 49.13 91.7 20 168ER5TG ER XKB1P 55.68 29.7 6 168ER6TG ER XKB2P 57.21 7.65 15 168ER CL E FROM LEAST-SQUARES FIT TO EG. 168ER CL J FROM Adopted Levels. 168ER CL BAND(A) KPI=0+ GS band member. 168ER CL BAND(B) KPI=2+ G-vibration band member. 168ER CL BAND(C) KPI=4- band member. 168ER CL BAND(D) KPI=0+ band member. 168ER CL BAND(E) KPI=1- octupole band member. 168ER CL BAND(F) KPI=0+ band member. 168ER CL BAND(G) KPI=3- band. 168ER CL BAND(H) KPI=2- band. 168ER CL BAND(I) KPI=3+ band. 168TM P 0.0 3+ 93.1 D 2 1678.9 19 168ER N 0.0545 0.0545 0.99990 7 1.0001 168ER PN 3 168ER CN NR,BR from total TI to (GS(168ER) + GS(168YB))=100%. 168ER G 138.15 168ER CG E FROM 1975AB06; NO OTHER STUDIES HAVE CONFIRMED THIS LINE, 168ER2CG SO PLACEMENT FROM 1569 LEVEL IS REJECTED BY EVALUATOR. 168ER G 196.4 M1(+E2) 0.35 8 168ERS G KC=0.26 10$LC=0.064 11$MC=0.015 3$NC+=0.0038 7 168ERS G NC=0.0034 7$OC=0.00045 6$PC=1.5E-5 7 168ER CG M FROM EKC=0.36 13 (1993BAZR). 168ER G 615.15 M1+E0 168ER CG M FROM EKC=0.029 6 (1993BAZR). 168ER G 626.06 M1+E0 168ER CG M FROM EKC=0.026 5 (1993BAZR). 168ER G 1281.03 M1(+E0) 168ERS G CC=0.00341 5$KC=0.00288 4$LC=0.000403 6$MC=8.87E-5 13$NC+=4.30E-5 6 168ERS G NC=2.07E-5 3$OC=3.01E-6 5$PC=1.709E-7 24$IPC=1.91E-5 3 168ER CG M FROM EKC=0.0040 16 (1993BAZR). 168ER L 0.0 0+ STABLE A 168ER L 79.8038 17 2+ 1.853 NS 25 A 168ER CL T adopted value (incorporates the following from 168TM decay: 168ER2CL 1.72 NS 6 (cece(T), 1974Aw03), 1.92 NS 2 (GG(T), 1972BeVM), 168ER3CL 1.92 NS 4 (GG(T), 1962Bo18), 1.90 NS 6 (GCE(T), 1963Li04), and 168ER4CL 1.88 NS 5 (GCE(T), 1968Ku03). Others: 1959Be73, 1964Ja09). 168ER E 0.004 LT 1.0 LT 10.4 GT 1 LT 168ERS E EAV=274.21 84$CK=0.8263$CL=0.13102 2$CM+=0.039095 5 168ER CE TI deduced from I(G+-)=0.15 3, EC/B+ from theory, and 168ER2CE IB+ for branch to 264.1 level. 168ER G 79.804 2 201 4E2 7.04 168ERS G KC=1.698 24$LC=4.10 6$MC=0.998 14$NC+=0.252 4 168ERS G NC=0.226 4$OC=0.0262 4$PC=7.44E-5 11 168ER CG M K:L1:L2:L3=37.4:3.7:37.4:37.0 (1975AB06). 168ER CG %IG=10.94 13 ASSUMING RECOMMENDED DECAY SCHEME NORMALIZATION. 168ER L 264.0964 17 4+ 114 PS 4 A 168ER CL T weighted average of 106 PS 6 (cece(T), 1974Aw03), 113 PS 13 168ER2CL (GG(T), 1972BeVM), 121 PS 8 (GCE(T), 1963Li04), and 119 PS 7 168ER3CL (GCE(T), 1968Ku03). 168ER E 0.43 25 10.6 3 0.43 25 168ERS E CK=0.8274$CL=0.1323$CM+=0.039519 5 168ER G 184.295 2 333 3E2 0.331 168ERS G KC=0.206 3$LC=0.0967 14$MC=0.0231 4$NC+=0.00591 9 168ERS G NC=0.00526 8$OC=0.000644 9$PC=9.49E-6 14 168ER CG M K:L1:L2:L3=6.64:0.68:1.0:0.76 (1975AB06). 168ER L 548.757 4 6+ A 168ER G 284.655 14 1.66 8E2 0.0811 168ERS G KC=0.0586 9$LC=0.01734 25$MC=0.00407 6$NC+=0.001052 15 168ERS G NC=0.000930 13$OC=0.0001189 17$PC=2.99E-6 5 168ER L 821.1643 17 2+ B 168ER E 11.98 10 8.729 5 11.98 10 168ERS E CK=0.8211$CL=0.13754 3$CM+=0.04138 1 168ER G 557.083 12 4.1 2E2 0.01252 D 168ERS G KC=0.01008 15$LC=0.00190 3$MC=0.000430 6$NC+=0.0001135 16 168ERS G NC=9.94E-5 14$OC=1.357E-5 19$PC=5.63E-7 8 168ER G 741.355 4 235 1M1+E2 25 GT B 168ERS G CC=0.00639 9$KC=0.00526 8$LC=0.000879 13$MC=0.000197 3$NC+=5.24E-5 8 168ERS G NC=4.57E-5 7$OC=6.38E-6 9$PC=2.98E-7 5 168ER CG M K:L1=0.13:0.024 (1975AB06). 168ER CG MR FROM EC DECAY: 1/(-0.003 8) (i.e. MR<-91 OR MR>+200) FROM 168ER2CG 720G-741G(|q) (1998AL15); MR=+32 +24-9 FROM 741G-890G(|q) 168ER3CG (1998AL15); MR=-28 +6-12 FROM GG(|q) (1981IW04); -28 +9-23 (1975BE43); 168ER4CG MR=+64 +135-26 FROM 720G-741G(|q) (1971LA11). 168ER G 821.162 2 220 1E2 168ERS G CC=0.00510 8$KC=0.00422 6$LC=0.000682 10$MC=0.0001525 22$NC+=4.06E-5 6 168ERS G NC=3.53E-5 5$OC=4.96E-6 7$PC=2.40E-7 4 168ER CG M K:L1=0.11:0.010 (1975AB06). 168ER L 895.7943 23 3+ 120 PS LE B 168ER CL T GG(T) (1991De24). 168ER E 0.6 LT 9.9 GT 0.6 LT ? 168ERS E CK=0.8193$CL=0.13884 4$CM+=0.04184 2 168ER G 74.626 3 0.34 10M1+E2 +1.42 +4-5 8.35 13 F 168ERS G KC=3.09 8$LC=4.04 10$MC=0.978 24$NC+=0.248 6 168ERS G NC=0.222 6$OC=0.0261 6$PC=0.000171 5 168ER CG M K:L1:L2:L3=0.52:0.069:0.34:0.34 (1975AB06). 168ER CG MR SIGN FROM 75G-821G(|q) (1996AL31). 168ER G 631.705 3 170 1M1+E2 -4.8 2 168ERS G CC=0.00965 14$KC=0.00788 12$LC=0.001376 20$MC=0.000310 5$NC+=8.22E-5 12 168ERS G NC=7.18E-5 11$OC=9.95E-6 15$PC=4.46E-7 7 168ER CG M K:L1=0.13:0.028 (1975AB06). 168ER CG MR FROM GG(|q) (1981Iw04). OTHERS: -4.9 3 (1975BE43); 168ER2CG MR>71 (1975AB06). 168ER G 815.989 5 935 3M1+E2 +17.7 23 168ERS G CC=0.00518 8$KC=0.00429 6$LC=0.000694 10$MC=0.0001552 22$NC+=4.13E-5 6 168ERS G NC=3.60E-5 5$OC=5.05E-6 7$PC=2.44E-7 4 168ER CG M K:L1=0.43:0.076 (1975AB06). 168ER CG MR DATA FROM EC DECAY: 1/(+0.005 15) (i.e., MR<-100 OR MR>+50) 168ER2CG FROM 816G-80G(|q) (1998AL15); +20 4 from GG(|q) (1981Iw04); 168ER3CG +17 3 (1975BE43); +13 +9-3 (1975AB06). 168ER L 994.7517 24 4+ B 168ER G 173.591 19 0.77 4E2 0.406 168ERS G KC=0.244 4$LC=0.1243 18$MC=0.0298 5$NC+=0.00760 11 168ERS G NC=0.00677 10$OC=0.000825 12$PC=1.112E-5 16 168ER G 445.995 4 1.4 4[E2] 0.0222 A 168ERS G KC=0.01743 25$LC=0.00370 6$MC=0.000849 12$NC+=0.000222 4 168ERS G NC=0.000195 3$OC=2.61E-5 4$PC=9.53E-7 14 168ER CG EG=447.501 2 FOR (446G+448G) DOUBLET (1987ME04). 168ER CG M K:L1:L2:L3=2.0:0.31:0.048:0.01 (1975AB06). 168ER G 730.660 4 96.8 4M1+E2 +13 +16-3 168ERS G CC=0.00664 10$KC=0.00546 9$LC=0.000915 14$MC=0.000206 3$NC+=5.46E-5 8 168ERS G NC=4.76E-5 7$OC=6.64E-6 10$PC=3.09E-7 5 168ER CG M K:L1=0.055:0.014 (1975AB06). 168ER CG GG(|q) data (1975Be43) consistent with ^D+Q and 168ER2CG MR GE +12 or LE -47; MR=+30 +170-14 FROM GG(|q) (1981IW04). 168ER G 914.933 4 57.2 3E2 168ERS G CC=0.00404 6$KC=0.00337 5$LC=0.000527 8$MC=0.0001175 17$NC+=3.13E-5 5 168ERS G NC=2.73E-5 4$OC=3.85E-6 6$PC=1.92E-7 3 168ER CG M K:L1=0.022:0.0034 (1975AB06). 168ER CG MR(^D,Q)=0.00 1 FROM GG(|q) (1981IW04). 168ER L 1094.044923 4- 109.0 NS 7 C 168ER CL T GG(T); weighted average of 108.9 NS 7 (unpublished value 168ER2CL quoted in 1981Iw04), 120 NS 20 (1957Mi01), 110 NS 15 (1959Ko64), 168ER3CL 107 NS 10 (1966Ju02), 115.7 NS 33 (1967Gu04), and 107.3 NS 22 168ER4CL (1973Ki09). 168ER E 46.6 14 7.782 14 46.6 14 168ERS E CK=0.8122 1$CL=0.14410 7$CM+=0.04372 3 168ER CE MEASURED CK=0.82 5 (1994VA02) FROM X-G SUMMING. 168ER G 99.289 2 77.7 4 E1+M2 -0.06 5 0.43 23 E 168ERS G KC=0.35 17$LC=0.06 5$MC=0.015 12$NC+=0.004 3 168ERS G NC=0.003 3$OC=0.0005 4$PC=2.0E-5 18 168ER CG EG=99.293 2 FOR DOUBLET (1987ME04). 168ER CG M K:L1:L2=1.0:0.14:0.05 (1975AB06). 168ER G 198.251 2 1000 3E1+M2 -0.12 3 0.084 18 168ERS G KC=0.069 14$LC=0.012 3$MC=0.0027 7$NC+=0.00072 18 168ERS G NC=0.00062 16$OC=8.7E-5 23$PC=4.2E-6 12 168ER CG M K:L1:L2:L3=4.13:0.8:0.12:0.12 (1975AB06). 168ER CG MR -0.12 3 FROM GG(|q) IN TEXT AND ABSTRACT OF 1981IW04 (BUT 168ER2CG -0.13 2 IN TABLE ^II AND FIG. 5). OTHERS: <0.095 (1975AB06), +0.02 2 168ER3CG (1975BE43). 168ER G 272.896 13 1.70 7M2 0.754 168ERS G KC=0.602 9$LC=0.1175 17$MC=0.0270 4$NC+=0.00726 11 168ERS G NC=0.00631 9$OC=0.000898 13$PC=4.61E-5 7 168ER CG M K:L1:L2:L3=0.14:0.022:0.005:0.004 (1975AB06). 168ER G 829.948 6 128 1E1+M2 -0.05 3 B 168ERS G CC=0.00201 10$KC=0.00171 8$LC=0.000234 13$MC=5.1E-5 3$NC+=1.37E-5 8 168ERS G NC=1.19E-5 7$OC=1.71E-6 10$PC=9.4E-8 6 168ER CG OTHER MR:-0.04 5 (1975BE43);0 <0.14 (1975AB06). 168ER G 1014.226 10 1.35 5M2+E3 -0.55 2 0.0130421 B 168ERS G KC=0.01086 18$LC=0.00170 3$MC=0.000380 6$NC+=0.0001020 16 168ERS G NC=8.85E-5 14$OC=1.274E-5 20$PC=6.85E-7 12 168ER CG OTHER MR: -0.54 5 (1975BE43) 168ER L 1117.572125 5+ B 168ER G 122.821 1 0.0023 5M1+E2 1.57 +7-9 1.434 21 F 168ERS G KC=0.840 21$LC=0.457 11$MC=0.109 3$NC+=0.0279 7 168ERS G NC=0.0249 7$OC=0.00303 7$PC=4.29E-5 15 168ER G 221.8 5 0.04 2E2 0.179 168ERS G KC=0.1200 19$LC=0.0454 8$MC=0.01077 18$NC+=0.00277 5 168ERS G NC=0.00246 5$OC=0.000306 5$PC=5.79E-6 9 168ER G 568.8 4 0.11 5 E2+M1 3.6 3 0.0128425 168ERS G KC=0.01042 21$LC=0.00188 3$MC=0.000424 7$NC+=0.0001123 19 168ERS G NC=9.81E-5 16$OC=1.352E-5 23$PC=5.89E-7 13 168ER G 853.468 3 0.63 3M1+E2 3.6 +24-8 168ERS G CC=0.00500 21$KC=0.00416 18$LC=0.000655 23$MC=0.000146 5$NC+=3.89E-5 14 168ERS G NC=3.39E-5 12$OC=4.79E-6 18$PC=2.38E-7 12 168ER L 1193.034 3 5- C 168ER G 75.466 7 0.0078 25E1 0.682 F 168ERS G KC=0.561 8$LC=0.0945 14$MC=0.0210 3$NC+=0.00543 8 168ERS G NC=0.00478 7$OC=0.000626 9$PC=2.43E-5 4 168ER CG M FROM EKC=3.1 10 (1993BAZR). EKC IMPLIES MR(E1,M2)=0.22 +4-5. 168ER G 98.982 2 2.8 4E2 3.06 A 168ERS G KC=1.101 16$LC=1.499 21$MC=0.364 6$NC+=0.0922 13 168ERS G NC=0.0824 12$OC=0.00968 14$PC=4.58E-5 7 168ER CG EG=99.293 2 FOR DOUBLET (1987ME04). 168ER G 644.277 5 0.23 4E1 F 168ERS G CC=0.00324 5$KC=0.00276 4$LC=0.000380 6$MC=8.35E-5 12$NC+=2.23E-5 4 168ERS G NC=1.94E-5 3$OC=2.78E-6 4$PC=1.493E-7 21 168ER CG EG=645.766 3 FOR (644G+646G) DOUBLET (1987ME04). 168ER G 928.916 7 1.17 3E1 168ERS G CC=0.001571 22$KC=0.001339 19$LC=0.000181 3$MC=3.97E-5 6$NC+=1.063E-5 1 168ERS G NC=9.23E-6 13$OC=1.330E-6 19$PC=7.33E-8 11 168ER L 1217.17 15 0+ D 168ER G 1137.36 15 0.008 4E2 168ERS G CC=0.00259 4$KC=0.00217 3$LC=0.000324 5$MC=7.18E-5 10$NC+=2.02E-5 3 168ERS G NC=1.667E-5 24$OC=2.38E-6 4$PC=1.239E-7 18$IPC=1.007E-6 15 168ER G 1217.1 E0 168ER CG E,M FROM 1993BAZR; CONVERSION ELECTRONS BUT NO PHOTONS OBSERVED. 168ER L 1276.298 24 2+ D 168ER E 0.0199 16 10.79 4 0.0199 16 168ERS E CK=0.7983 3$CL=0.15433 17$CM+=0.04738 6 168ER G 59.13 15 0.0003216 [E2] 24.3 5 0.008 4 S 168ERS G K/T=0.0749 17$L/T=0.679 9$M/T=0.165 4$N+/T=0.0416 11 168ERS G N/T=0.0373 10$O/T=0.00430 11$P/T=5.46E-6 13 168ER CG E from level-energy difference. 168ER CG TI required for intensity balance at 1217.2 level. 168ER CG RI deduced from TI and CC. 168ER G 1012.26 6 0.21 2E2 168ERS G CC=0.00328 5$KC=0.00274 4$LC=0.000418 6$MC=9.30E-5 13$NC+=2.48E-5 4 168ERS G NC=2.16E-5 3$OC=3.07E-6 5$PC=1.561E-7 22 168ER G 1196.51 5 0.074 9M1+E2(+E0)-5.0 +19-26 168ERS G CC=0.00241 10$KC=0.00202 9$LC=0.000297 12$MC=6.59E-5 25$NC+=2.24E-5 8 168ERS G NC=1.53E-5 6$OC=2.19E-6 9$PC=1.16E-7 6$IPC=4.82E-6 9 168ER CG M FROM EKC=0.0042 10 (1993BAZR). 168ER G 1276.27 3 0.07417E2 F 168ERS G CC=0.00208 3$KC=0.001738 25$LC=0.000253 4$MC=5.60E-5 8$NC+=3.01E-5 5 168ERS G NC=1.303E-5 19$OC=1.87E-6 3$PC=9.91E-8 14$IPC=1.509E-5 22 168ER L 1358.910 12 1- E 168ER E 0.0466 23 9.675 25 0.0466 23 1U 168ERS E CK=0.6788 15$CL=0.2405 11$CM+=0.0806 5 168ER G 537.76 6 0.005812 F 168ER G 1279.100 23 0.66 4E1 168ERS G CC=0.000934 13$KC=0.000749 11$LC=0.0001000 14$MC=2.19E-5 3$NC+=6.30E-5 168ERS G NC=5.09E-6 8$OC=7.36E-7 11$PC=4.12E-8 6$IPC=5.72E-5 8 168ER G 1358.90414 0.19 1 168ER L 1403.718 10 (2)- E 168ER E 0.0234 13 10.33 3 0.0234 13 168ERS E CK=0.7745 6$CL=0.1718 5$CM+=0.05370 16 168ER G 582.57 25 0.03 2E1 168ERS G CC=0.00401 6$KC=0.00340 5$LC=0.000472 7$MC=0.0001037 15$NC+=2.77E-5 4 168ERS G NC=2.41E-5 4$OC=3.44E-6 5$PC=1.84E-7 3 168ER G 1323.909 9 0.40 1E1 168ERS G CC=0.000906 13$KC=0.000706 10$LC=9.41E-5 14$MC=2.06E-5 3$NC+=8.58E-5 12 168ERS G NC=4.78E-6 7$OC=6.93E-7 10$PC=3.88E-8 6$IPC=8.03E-5 12 168ER L 1411.10010 4+ D 168ER E 0.0029 9 11.21 14 0.0029 9 168ERS E CK=0.7722 7$CL=0.1735 5$CM+=0.05430 17 168ER G 862.6 3 0.02715E2 168ERS G CC=0.00458 7$KC=0.00381 6$LC=0.000605 9$MC=0.0001353 19$NC+=3.60E-5 5 168ERS G NC=3.14E-5 5$OC=4.42E-6 7$PC=2.16E-7 3 168ER G 1146.998 9 0.011 4M1 F 168ERS G CC=0.00443 7$KC=0.00375 6$LC=0.000527 8$MC=0.0001161 17$NC+=3.29E-5 5 168ERS G NC=2.71E-5 4$OC=3.94E-6 6$PC=2.23E-7 4$IPC=1.658E-6 24 168ER G 1331.39 9 0.015 4E2 168ERS G CC=0.00192 3$KC=0.001603 23$LC=0.000232 4$MC=5.13E-5 8$NC+=3.88E-5 6 168ERS G NC=1.192E-5 17$OC=1.710E-6 24$PC=9.13E-8 13$IPC=2.51E-5 4 168ER L 1422.3 0+ 168ER G 205.1 E0 168ER CG E,M FROM 1993BAZR; CONVERSION ELECTRONS BUT NO PHOTONS OBSERVED. 168ER G 1422.2 E0 168ER CG E,M FROM 1993BAZR; CONVERSION ELECTRONS BUT NO PHOTONS OBSERVED. 168ER L 1431.454 6 3- 41 PS E 168ER CL T deduced by 1987ME04 from COULOMB-excitation, (D,D'), and 168ER2CL 168TM-decay data. 168ER E 0.151 11 9.41 4 0.151 11 168ERS E CK=0.7650 8$CL=0.1787 6$CM+=0.05623 20 168ER G 535.64221 0.004810 F 168ER G 1167.357 6 1.36 3E1 168ERS G CC=0.001043 15$KC=0.000881 13$LC=0.0001180 17$MC=2.58E-5 4$NC+=1.86E-5 168ERS G NC=6.01E-6 9$OC=8.68E-7 13$PC=4.84E-8 7$IPC=1.163E-5 17 168ER G 1351.54 4 1.39 19E1 F 168ERS G CC=0.000893 13$KC=0.000681 10$LC=9.07E-5 13$MC=1.98E-5 3$NC+=0.0001020 168ERS G NC=4.61E-6 7$OC=6.68E-7 10$PC=3.75E-8 6$IPC=9.66E-5 14 168ER CG EG=1351.575 5 FOR (1351.2G+1351.5G) DOUBLET (1987ME04). 168ER G 1431.7 4 0.006815 168ER L 1493.26 8 2+ F 168ER E 0.0015 5 11.09 15 0.0015 5 168ERS E CK=0.7292 17$CL=0.2050 12$CM+=0.0659 5 168ER G 70.9 (E2) 11.35 168ERS G KC=1.98 3$LC=7.18 10$MC=1.750 25$NC+=0.441 7 168ERS G NC=0.395 6$OC=0.0458 7$PC=9.56E-5 14 168ER CG E,M FROM 1993BAZR; L2=L3 (1993BAZR). 168ER G 1229.08 11 0.015 9E2 168ERS G CC=0.00223 4$KC=0.00187 3$LC=0.000274 4$MC=6.07E-5 9$NC+=2.47E-5 4 168ERS G NC=1.411E-5 20$OC=2.02E-6 3$PC=1.065E-7 15$IPC=8.45E-6 12 168ER G 1413.35 15 0.008 2M1 168ERS G CC=0.00274 4$KC=0.00228 4$LC=0.000318 5$MC=7.00E-5 10$NC+=7.40E-5 11 168ERS G NC=1.632E-5 23$OC=2.38E-6 4$PC=1.351E-7 19$IPC=5.52E-5 8 168ER CG M FROM EKC=0.0029 8 (1993BAZR); SMALL E0 ADMIXTURE POSSIBLE. 168ER G 1493.7 2 0.0037 6E2 168ERS G CC=0.001594 23$KC=0.001290 18$LC=0.000184 3$MC=4.05E-5 6$NC+=8.08E-5 12 168ERS G NC=9.42E-6 14$OC=1.355E-6 19$PC=7.35E-8 11$IPC=7.00E-5 10 168ER L 1541.5520 24 3- 8 PS G 168ER CL T deduced by 1987ME04 from REANALYSIS OF COULOMB excitation, 168ER2CL (D,D') and 168TM-decay data. Other: 1962Bo18 (LE 800 PS). 168ER E 43.66 12 6.258 19 43.66 12 168ERS E CK=0.663 5$CL=0.253 3$CM+=0.0838 12 168ER CE MEASURED ECK=0.72 4 (1994VA02; X-G SUMMING), 0.71 3 168ER2CE (1982SE07). 168ER G 110.2 M1(+E2) 2.10 7 168ERS G KC=1.3 5$LC=0.6 4$MC=0.14 9$NC+=0.036 20 168ERS G NC=0.032 19$OC=0.0040 20$PC=7.E-5 4 168ER CG M EKC=1.6 5 (1993BAZR). 168ER G 348.509 2 6.49 7E2 0.0442 168ERS G KC=0.0334 5$LC=0.00837 12$MC=0.00194 3$NC+=0.000506 7 168ERS G NC=0.000446 7$OC=5.82E-5 9$PC=1.766E-6 25 168ER CG M K:L1=0.021:0.003 (1975AB06). 168ER G 447.515 3 440 2M1+E2 -0.09 1 0.0463 G 168ERS G KC=0.0390 6$LC=0.00567 8$MC=0.001253 18$NC+=0.000337 5 168ERS G NC=0.000292 4$OC=4.24E-5 6$PC=2.36E-6 4 168ER CG EG=447.501 2 FOR (446G+448G) DOUBLET (1987ME04). 168ER CG OTHER MR: -0.09 +3-8 (1975BE43). 168ER G 546.81 3 48.7 4E1(+M2) +0.007 23 I 168ERS G CC=0.00460 10$KC=0.00390 8$LC=0.000543 12$MC=0.000119 3$NC+=3.19E-5 8 168ERS G NC=2.77E-5 7$OC=3.95E-6 9$PC=2.10E-7 5 168ER CG OTHER MR: -0.01 3 (1975BE43). 168ER G 645.775 15 27.2 2E1 H 168ERS G CC=0.00323 5$KC=0.00274 4$LC=0.000378 6$MC=8.31E-5 12$NC+=2.22E-5 4 168ERS G NC=1.93E-5 3$OC=2.76E-6 4$PC=1.486E-7 21 168ER CG EG=645.766 3 FOR (644G+646G) DOUBLET (1987ME04). 168ER G 720.392 5 224 E1+M2 -0.012 10 G 168ERS G CC=0.00259 4$KC=0.00220 4$LC=0.000302 5$MC=6.62E-5 10$NC+=1.77E-5 3 168ERS G NC=1.537E-5 24$OC=2.21E-6 4$PC=1.196E-7 18 168ER CG EG=720.379 4 FOR (719.6G+720.4G) DOUBLET (1987ME04). 168ER CG OTHER MR: -0.01 2 (1975BE43). 168ER G 1277.451 5 30.9 2E1+M2 -0.040 18 I 168ERS G CC=0.000947 19$KC=0.000761 15$LC=0.0001017 22$MC=2.23E-5 5$NC+=6.23E-5 168ERS G NC=5.18E-6 11$OC=7.49E-7 16$PC=4.19E-8 9$IPC=5.63E-5 8 168ER CG OTHER MR: -0.05 3 (1975BE43). 168ER G 1461.750 4 4.54 6 168ER G 1541.56 3 0.042 2 168ER L 1569.452 7 (2)- H 168ER E 0.591 8 7.82 3 0.591 8 168ERS E CK=0.576 9$CL=0.316 7$CM+=0.108 3 168ER G 27.80 M1,E2 5.E2 5 168ERS G LC=4.E2 4$MC=9.E1 9$NC+=22 21 168ERS G NC=19 19$OC=2.2 22$PC=0.0039 24 168ER CG E,M FROM 1993BAZR. L1/L2=1.2 (1993BAZR); L1:L2=0.34:0.28 168ER2CG (1975AB06). 168ER G 165.3 M1(+E2) 0.58 11 168ERS G KC=0.43 15$LC=0.12 4$MC=0.028 9$NC+=0.0072 22 168ERS G NC=0.0064 20$OC=0.00083 19$PC=2.4E-5 12 168ER CG M EKC=0.48 16 (1993BAZR). 168ER G 673.670 15 3.0 1E1 168ERS G CC=0.00296 5$KC=0.00252 4$LC=0.000346 5$MC=7.60E-5 11$NC+=2.03E-5 3 168ERS G NC=1.764E-5 25$OC=2.53E-6 4$PC=1.364E-7 19 168ER G 748.282 7 7.8 1E1 168ERS G CC=0.00239 4$KC=0.00204 3$LC=0.000278 4$MC=6.11E-5 9$NC+=1.634E-5 23 168ERS G NC=1.419E-5 20$OC=2.04E-6 3$PC=1.108E-7 16 168ER G 1489.66 3 0.039 2 168ER G 1569.5 4 0.0004 2 168ER L 1574.12 24 5- E 168ER E 0.00010 6 10.3 3 0.00010 6 1U 168ERS E CK=0.080 9$CL=0.651 6$CM+=0.269 4 168ER G 1025.4 4 0.0006 4E1 168ERS G CC=0.001306 19$KC=0.001114 16$LC=0.0001501 21$MC=3.29E-5 5$NC+=8.81E-6 168ERS G NC=7.64E-6 11$OC=1.103E-6 16$PC=6.11E-8 9 168ER G 1310.0 3 0.0012 9E1 168ERS G CC=0.000914 13$KC=0.000719 10$LC=9.58E-5 14$MC=2.10E-5 3$NC+=7.83E-5 11 168ERS G NC=4.88E-6 7$OC=7.06E-7 10$PC=3.96E-8 6$IPC=7.26E-5 11 168ER L 1615.339 4 4- G 168ER E 0.70 4 6.87 5 0.70 4 168ERS E CK=0.06 4$CL=0.681 22$CM+=0.261 11 168ER G 73.784 3 0.19 4M1+E2 0.11 +3-2 6.87 F 168ERS G KC=5.68 9$LC=0.93 4$MC=0.207 10$NC+=0.0553 24 168ERS G NC=0.0481 22$OC=0.00684 25$PC=0.000352 6 168ER CG M EKC=5.9 16 (1993BAZR). 168ER G 422.305 7 5.59 8M1 0.0540 168ERS G KC=0.0455 7$LC=0.00662 10$MC=0.001464 21$NC+=0.000394 6 168ERS G NC=0.000341 5$OC=4.95E-5 7$PC=2.76E-6 4 168ER CG M K:L1=0.028:0.005 (1975AB06). 168ER G 497.78 6 0.68 8E1 168ERS G CC=0.00564 8$KC=0.00478 7$LC=0.000670 10$MC=0.0001473 21$NC+=3.93E-5 6 168ERS G NC=3.41E-5 5$OC=4.86E-6 7$PC=2.56E-7 4 168ER G 521.13 7 0.58 7M1+E2 1.1 +9-5 0.022 5 168ERS G KC=0.018 5$LC=0.0030 5$MC=0.00067 10$NC+=0.00018 3 168ERS G NC=0.000155 22$OC=2.2E-5 4$PC=1.1E-6 3 168ER G 620.59 7 0.14 5 168ER G 719.550 5 3.8 6E1+M2 -0.007 4 F 168ERS G CC=0.00259 4$KC=0.00220 3$LC=0.000302 5$MC=6.63E-5 10$NC+=1.772E-5 25 168ERS G NC=1.539E-5 22$OC=2.21E-6 4$PC=1.197E-7 17 168ER CG EG=720.379 4 FOR (719.6G+720.4G) DOUBLET (1987ME04). 168ER CG M K:L1=0.053:0.010 (1975AB06). 168ER G 1351.2 0.22AP 168ER CG EG=1351.575 5 FOR (1351.2G+1351.5G) DOUBLET (1987ME04). 168ER CG E from level-energy difference. 168ER CG RI estimate from apparent total RI for doublet and RI deduced 168ER2CG for 1351.5G. 168ER CG MR FROM 720G-821G(|q) (1998AL15). 168ER L 1633.453 12 3- H 168ER E 0.020 8 8.05 18 0.020 8 168ERS E CL=0.698 5$CM+=0.302 5 168ER G 64.0 (E2) 17.36 168ERS G KC=2.06 3$LC=11.72 17$MC=2.86 4$NC+=0.720 10 168ERS G NC=0.645 9$OC=0.0746 11$PC=0.0001179 17 168ER CG E,M FROM 1993BAZR; L2 AP L3 (1993BAZR). 168ER G 737.7 7 0.2 1E1 168ERS G CC=0.00246 4$KC=0.00209 3$LC=0.000287 4$MC=6.29E-5 9$NC+=1.682E-5 24 168ERS G NC=1.461E-5 21$OC=2.10E-6 3$PC=1.139E-7 16 168ER G 812.28711 0.17 9 F 168ER G 1553.5 7 0.0008 4 168ER L 1653.53 4 3+ I 168ER E 0.009 3 7.74 18 0.009 3 168ERS E CL=0.607 22$CM+=0.393 22 168ER G 559.5 4 0.15 5E1 168ERS G CC=0.00437 7$KC=0.00371 6$LC=0.000516 8$MC=0.0001134 16$NC+=3.03E-5 5 168ERS G NC=2.63E-5 4$OC=3.76E-6 6$PC=2.00E-7 3 168ER G 832.36 4 0.015 6 F 168ER L 1656.312 14(4)+ F 168ER E 1.7E-5 LT 10.3 GT 1.7E-5 LT 168ERS E CL=0.57 3$CM+=0.43 3 168ER G 1392.20913 0.0004LT A