168HF 168TA EC DECAY 2007MC08,1989HI04,1976LE1410NDS 201008 168HF H TYP=FUL$AUT=CORAL M. BAGLIN$CIT=NDS 111, 1807 (2010)$CUT=15-Jun-2010$ 168HF D DATASET UPDATED (B. SINGH, APR 30,2001) TO INCLUDE REVISED Q- VALUE 168HF2D DEDUCED FROM NEW MASS MEASUREMENTS FOR 168TA AND 168HF BY 2000RA23. 168HF3D LOGFT VALUES ARE DEDUCED USING THE MEASURED Q- VALUE. UNCERTAINTY 168HF4D OF 906.6G CHANGED FROM 9.5 KEV TO MORE REALISTIC VALUE OF 1.0 KEV. 168HF C 2007MC08: 168TA produced in reaction 159TB(16O,7n) USING a 130 MEV 168HF2C beam provided by the Yale ^ESTU accelerator; Yrast Ball ARRAY (eight 168HF3C Compton-suppressed Clover HPGe detectors); measured EG, IG, GG COIN, 168HF4C GG(|q); comparisons with geometric collective models. 168HF5C Significant contributions from 168LU EC decay to 168HF6C 168YB and 166LU EC decay to 166YB were also present in G spectra. 168HF C 1989HI04: sources from 133CS(40AR,5N) (E(40AR)=205 MEV, 168HF2C helium-jet transport); measured EG, IG, GG coin. 168HF C 1976LE14: sources from 159TB(16O,7N) (E(16O)=130 MEV, TB foil, 168HF2C thermalization and transport of recoil products); 168HF3C measured EG, IG (GELI), 2-parameter GG coin. 168HF C The decay scheme is from 2007MC08. 168HF D Apparent feedings of 0.71% 17 to 755.4 (6+) and 2.1% 3 to 941.6 168HF4D (0+) levels indicate probable missing G-ray intensity 168HF5D (Q+=6970 KEV) and/or other problems. 168HF CE TI EC feedings are from intensity imbalance at each 168HF2CE level and assume negligible GS feeding. Values should probably be 168HF2CE considered as upper limits since a large difference of 4.5 MeV exists 168HF3CE between THE Q value and highest known level at 2353 and this leaves the 168HF4CE possibility of missed G rays from possible levels above 2353. 168HF CE LOGFT Deduced by evaluator. Values should probably be considered as 168HF2CE lower limits. 168HF CG E,RI FROM 2007MC08. 168HF CG M,MR FROM GG(|q) (2007MC08), EXCEPT AS NOTED. 168HF CG E(A),RI(A)$ FROM 1989HI04. NOT OBSERVED BY 2007MC08. 168HF CG M(B) FROM Adopted Gammas. 168HF CG E(J) 1411.4G+1413.5G and 1673.0G+1675.5G form doublets. 168HF2CG Each |g-ray intensity may contain an unresolved contribution from its 168HF3CG second component. 168HF CL E From least-squares fit to EG. 168HF CL J FROM Adopted Levels. 168HF CL BAND(A) KPI=0+ GS band. 168HF CL BAND(B) KPI=(2+) G-vibration band. 168HF CL BAND(C) KPI=(0+) B-vibration band. 168TA P 0.0 (2-,3+) 2.0 M 1 6970 40 168HF N 0.33 3 0.33 3 1.0 1.0 168HF CN NR IF JPI(PARENT)=3+, NEGLIGIBLE EC+B+ FEEDING TO GS IS 168HF2CN EXPECTED (DJ=3, DPI=NO), AND NR=0.358 12 BASED ON SUMOF (TI TO GS)=100. 168HF3CN IF JPI(PARENT)=2-, <17% EB+B+ FEEDING TO GS IS EXPECTED BASED ON 168HF4CN LOGF1UT GE 8.5 (DJ=2, DPI=YES) AND THIS IMPLIES NR=0.33 3. 168HF PN 3 168HF G 831.1 10 7.6 19 168HF CG NOT COINCIDENT WITH 262G (2007MC08). 168HF G 838.6 10 3.8 13 A 168HF G 1063.0 12 5.7 3 A 168HF G 1440.5 13 2.4 8 A ? 168HF L 0.0 0+ 25.95 M 20 A 168HF CL T FROM Adopted Levels. 168HF E 9 8 ? 168HF L 124.10 5 2+ A 168HF E 26 3 5.4 7 6.2 31 4 168HFS E EAV=2669 19$CK=0.1458 24$CL=0.0230 4$CM+=0.00700 12 168HF G 124.10 5 100 3 E2 1.548 BC 168HFS G KC=0.591 9$LC=0.728 11$MC=0.181 3$NC+=0.0474 7 168HFS G NC=0.0420 6$OC=0.00536 8$PC=3.59E-5 5 168HF CG %IG=33 3 ASSUMING RECOMMENDED NORMALIZATION. 168HF L 385.92 6 4+ A 168HF E 6.5 8 1.6 2 6.7 8.1 10 168HF CE IF JPI(168TA)=2-, LOGF1UT=8.7. 168HFS E EAV=2545 19$CK=0.162 3$CL=0.0256 5$CM+=0.00779 13 168HF G 261.85 5 63.2 18 E2 0.1201 BC 168HFS G KC=0.0794 12$LC=0.0312 5$MC=0.00756 11$NC+=0.00201 3 168HFS G NC=0.001764 25$OC=0.000237 4$PC=5.52E-6 8 168HF CG M (262G)(124G)(|q): A2=+0.104 10, A4=+0.006 14 (2007MC08). 168HF L 757.27 7 6+ A 168HF E 0.55 13 0.16 4 7.7 0.71 17 ? 168HF CE TI no feeding is expected if JPI(PARENT)=2- or 3+. 168HFS E EAV=2371 19$CK=0.189 4$CL=0.0299 6$CM+=0.00912 16 168HF G 371.36 6 4.0 4 E2 0.0426 BC 168HF CG OTHER EG (RI): 370.0 7 (11.7 9) (1989HI04). 168HFS G KC=0.0313 5$LC=0.00872 13$MC=0.00208 3$NC+=0.000556 8 168HFS G NC=0.000486 7$OC=6.75E-5 10$PC=2.32E-6 4 168HF L 875.94 6 2+ B 168HF CL J=2 FROM (752G)-(124G)(|q) (2007MC08). 168HF E 6.2 6 2.0 2 6.6 8.2 8 168HFS E EAV=2315 19$CK=0.199 4$CL=0.0315 6$CM+=0.00959 17 168HF G 490 0.10 LT ? 168HF G 751.81 8 23.0 18E2+M1 -10 +3-9 0.0075415 C 168HF CG OTHER RI: 20.6 16 (1989HI04). 168HFS G KC=0.00612 12$LC=0.001095 19$MC=0.000251 5$NC+=6.86E-5 12 168HFS G NC=5.93E-5 10$OC=8.76E-6 15$PC=4.78E-7 10 168HF CG M (752G)(124G)(|q): A2=-0.004 32, A4=+0.29 4 (2007MC08). 168HF G 875.95 9 12.8 5 C 168HF L 942.09 8 0+ C 168HF CL J 818G-124G(|q) INDICATES A 0-2-0 CASCADE 168HF2CL ESTABLISHING J=0 FOR 942 LEVEL AND J=2 FOR 124 LEVEL. 168HF E 1.6 2 0.52 7 7.1 2.1 3 168HF CE LOGF1UT=9.0 if JPI(PARENT)=2-. No feeding is 168HF2CE expected if JPI(PARENT)=3+. 168HFS E EAV=2284 19$CK=0.205 4$CL=0.0324 6$CM+=0.00987 18 168HF G 817.98 7 6.4 7 (E2) 0.00620 9 BC 168HFS G KC=0.00507 7$LC=0.000880 13$MC=0.000201 3$NC+=5.50E-5 8 168HFS G NC=4.76E-5 7$OC=7.06E-6 10$PC=3.96E-7 6 168HF CG M (818G)(124G)(|q): A2=+0.33 3, A4=+1.08 5 (2007MC08). 168HF L 1030.93 6 3+ B 168HF CL J=3 FROM (907G)-(124G)(|q) AND 645G-262G(|q) (2007MC08). 168HF E 3.7 4 1.3 2 6.7 5.0 6 168HFS E EAV=2242 19$CK=0.213 4$CL=0.0337 6$CM+=0.01026 18 168HF G 645.05 10 2.6 3 E2+M1 10 GT 0.0105617 C 168HFS G KC=0.00846 14$LC=0.001624 24$MC=0.000375 6$NC+=0.0001021 15 168HFS G NC=8.85E-5 13$OC=1.293E-5 20$PC=6.57E-7 11 168HF CG M,MR (645G)(262G)(|q): A2=-0.02 4, A4=-0.22 4 (2007MC08) 168HF2CG MR >+10 or <-20 FROM GG(|q). 168HF G 906.81 7 17.7 14E2+M1 +11 +13-4 0.0050410 C 168HF CG OTHER RI: 14.0 19 (1989HI04). 168HF DG E DE=9.5 quoted in table 3 of 1989HI04 seems to be a misprint; 168HF2DG most likely it is 0.95 KEV. Other: EG=907.2 10 (1976LE14) 168HFS G KC=0.00415 9$LC=0.000693 13$MC=0.000158 3$NC+=4.33E-5 8 168HFS G NC=3.74E-5 7$OC=5.58E-6 10$PC=3.24E-7 7 168HF CG M (907G)(124G)(|q): A2=-0.14 3, A4=-0.12 3 (2007MC08). 168HF L 1058.62 6 2+ C 168HF CL J=2 FROM 935G-124G(|q) (2007MC08). 168HF E 6.2 4 2.2 1 6.5 8.4 5 C 168HFS E EAV=2229 19$CK=0.216 4$CL=0.0341 6$CM+=0.01038 19 168HF G 117 0.20 LT ? 168HF G 183 0.10 LT ? 168HF G 672.75 8 7.2 6 (E2) 0.0095314 C 168HFS G KC=0.00766 11$LC=0.001444 21$MC=0.000333 5$NC+=9.07E-5 13 168HFS G NC=7.86E-5 11$OC=1.152E-5 17$PC=5.96E-7 9 168HF CG M (673G)(262G)(|q): A2=+0.19 2, A4=+0.05 3 (2007MC08). 168HF G 934.51 10 6.0 6 E2+M1 -8 +4-10 0.0047724 C 168HF CG OTHER IG: 4.7 13 (1989HI04). 168HFS G KC=0.00393 20$LC=0.00065 3$MC=0.000148 6$NC+=4.06E-5 17 168HFS G NC=3.50E-5 15$OC=5.24E-6 23$PC=3.08E-7 17 168HF CG M (935G)(124G)(|q): A2=+0.02 4, A4=+0.27 7 (2007MC08). 168HF G 1058.60 10 11.8 8 C 168HF L 1160.72 9 4(+) B 168HF CL J=4 FROM 775G-262G(|q) (2007MC08). 168HF E 2.4 3 0.90 11 6.87 6 3.3 4 168HF DE LOGF1UT=8.7. 168HFS E EAV=2182 19$CK=0.225 4$CL=0.0357 7$CM+=0.01086 20 168HF G 130 0.25 LT ? 168HF G 285 0.2 LT ? 168HF G 403 0.1 LT ? 168HF G 774.80 9 9.7 9 (M1+E2) +0.8 +6-4 0.0123 24 C 168HFS G KC=0.0103 21$LC=0.0016 3$MC=0.00036 6$NC+=9.9E-5 16 168HFS G NC=8.5E-5 14$OC=1.30E-5 22$PC=8.4E-7 18 168HF CG M (775G)(262G)(|q): A2=-0.078 20, A4=+0.046 20 (2007MC08). 168HF G 1037 0.30 LT ? 168HF L 1284.64 9(4+) C 168HF E 1.8 2 0.72 9 7.0 2.5 3 168HF DE LOGF1UT=8.8. 168HFS E EAV=2124 19$CK=0.238 5$CL=0.0377 7$CM+=0.01147 21 168HF G 226 0.40 LT ? 168HF G 409 0.10 LT ? 168HF G 527.4 1 0.88 11 C 168HF G 898.8 2 0.42 8 C 168HF G 1160.5 1 5.6 7 C 168HF L 1373.11 8 (2) 168HF E 3.5 3 1.5 1 6.6 5.0 4 168HF DE LOGF1UT=8.5 168HFS E EAV=2082 19$CK=0.247 5$CL=0.0392 7$CM+=0.01193 22 168HF G 987.21 9 8.4 7 C 168HF G 1248.98 10 5.7 6 C 168HF L 1386.37 9 (4+,5,6+) 168HF E 0.59 6 0.26 2 7.4 0.85 8 168HF DE LOGF1UT=9.2. 168HFS E EAV=2076 19$CK=0.249 5$CL=0.0394 7$CM+=0.01200 22 168HF G 629.1 9 0.47 6 C 168HF G 1000.46 9 1.9 2 C 168HF L 1401.54 7 168HF E 1.36 11 0.59 5 7.0 1.95 15 168HF DE LOGF1UT=8.9. 168HFS E EAV=2069 19$CK=0.250 5$CL=0.0397 8$CM+=0.01208 22 168HF G 370.62 8 1.9 2 C 168HF G 525.6 1 0.86 12 C 168HF G 1277.4 1 2.7 3 C 168HF L 1408.30 11 (4) 168HF E 1.7 2 0.76 9 6.9 2.5 3 168HF DE LOGF1UT=8.7. 168HFS E EAV=2066 19$CK=0.251 5$CL=0.0398 8$CM+=0.01212 22 168HF G 1284.2 1 7.1 8 C 168HF L 1411.82 7 (LE4) 168HF E 3.4 3 1.5 1 6.6 4.9 4 168HF DE LOGF1UT=8.4. 168HFS E EAV=2064 19$CK=0.252 5$CL=0.0399 8$CM+=0.01213 22 168HF G 380.88 8 1.7 2 C 168HF G 535.88 7 7.8 6 C 168HF G 1287.7 2 4.1 5 C 168HF DG 1283.4 15 11 3 168HF L 1497.22 9 (4-) 168HF E 0.64 6 0.30 3 7.3 0.94 9 168HF DE LOGF1UT=9.1. 168HFS E EAV=2025 19$CK=0.261 5$CL=0.0414 8$CM+=0.01261 23 168HF G 739.98 11 0.83 10 C 168HF G 1111.29 8 1.8 2 C 168HF L 1551.38 8 (6+) 168HF E 1.17 13 0.56 6 7.0 1.73 19 168HF DE LOGF1UT=8.8. 168HF CE NO FEEDING EXPECTED TO 6+. 168HFS E EAV=1999 19$CK=0.268 5$CL=0.0424 8$CM+=0.01291 24 168HF G 390.65 10 0.33 3 C 168HF G 520.5 1 1.5 3 C 168HF G 1165.4 1 3.0 4 C 168HF L 1568.50 8 (3) 168HF E 2.00 14 0.97 7 6.8 2.97 21 168HF DE LOGF1UT=8.6. 168HFS E EAV=1992 19$CK=0.270 5$CL=0.0427 8$CM+=0.01301 24 168HF G 1182.57 8 4.0 3 C 168HF DG 1181.9 15 7 5 168HF G 1444.42 10 4.3 4 C 168HF L 1618.00 7 (LE4) 168HF E 1.58 11 0.78 6 6.9 2.36 16 168HF DE LOGF1UT=8.7. 168HFS E EAV=1969 19$CK=0.276 5$CL=0.0437 8$CM+=0.01331 24 168HF G 559.4 1 0.68 8 C 168HF G 742.0 1 1.9 2 C 168HF G 1493.92 8 4.0 3 C 168HF L 1644.21 11 (LE4) ? 168HF E 0.69 8 0.35 4 7.2 1.04 12 ? 168HF DE LOGF1UT=9.0. 168HFS E EAV=1956 19$CK=0.279 5$CL=0.0442 8$CM+=0.01346 25 168HF G 1520.1 1 2.9 3 C ? 168HF L 1671.41 8 (1+,2+) 168HF E 0.78 5 0.40 3 7.1 1.18 8 168HFS E EAV=1944 19$CK=0.282 5$CL=0.0448 8$CM+=0.01363 25 168HF G 612.8 1 0.95 9 C 168HF G 640.5 1 0.90 10 C 168HF G 729.3 1 0.69 9 C 168HF G 795.4 2 0.76 9 168HF L 1734.02 7 (2+,3,4+) 168HF E 0.94 10 0.51 6 7.0 1.45 16 168HF DE LOGF1UT=8.8. 168HFS E EAV=1915 19$CK=0.290 6$CL=0.0460 9$CM+=0.0140 3 168HF G 858.03 8 1.1 1 C 168HF G 1348.1 1 0.56 7 C 168HF G 1610.0 1 2.4 4 C 168HF L 1797.22 15 (4) 168HF E 0.39 8 0.22 5 7.4 0.61 13 168HF DE LOGF1UT=9.2. 168HFS E EAV=1885 19$CK=0.298 6$CL=0.0473 9$CM+=0.0144 3 168HF G 1411.4 2 1.0 3 JC 168HF DG 1408.3 10 12 3 168HF G 1673.0 2 0.7 2 JC 168HF L 1799.52 15 (2+,3,4+) 168HF E 1.1 2 0.61 11 6.9 1.7 3 168HF DE LOGF1UT=8.7. 168HFS E EAV=1884 19$CK=0.299 6$CL=0.0474 9$CM+=0.0144 3 168HF G 1413.5 2 1.8 4 JC 168HF G 1675.5 2 3.0 7 JC 168HF L 1966.63 12 ? 168HF E 0.21 3 0.13 2 7.6 0.34 5 ? 168HF DE LOGF1UT=9.3. 168HFS E EAV=1807 19$CK=0.322 6$CL=0.0511 10$CM+=0.0156 3 168HF G 1580.7 1 0.95 12 C ? 168HF L 2047.92 14 ? 168HF E 0.049 11 0.033 8 8.2 0.082 19 ? 168HF DE LOGF1UT=9.9. 168HFS E EAV=1769 19$CK=0.334 6$CL=0.0530 10$CM+=0.0161 3 168HF G 887.2 1 0.23 5 C ? 168HF L 2108.70 11 (2+,3,4+) 168HF E 0.40 7 0.28 5 7.2 0.68 12 168HF DE LOGF1UT=9.0. 168HFS E EAV=1741 19$CK=0.343 7$CL=0.0545 10$CM+=0.0166 3 168HF G 1722.8 1 0.5 1 C 168HF G 1984.5 2 1.4 3 C 168HF L 2353.04 9 168HF E 0.22 3 0.19 3 7.3 0.41 6 168HF DE LOGF1UT=9.1. 168HFS E EAV=1629 19$CK=0.382 7$CL=0.0607 11$CM+=0.0185 4 168HF G 1322.0 1 0.42 8 C 168HF G 1477.2 1 0.72 13 C