168YB 168LU EC DECAY (6.7 M) 1999BA65,1970AR16,1970CH2810NDS 201008
168YB H TYP=FUL$AUT=CORAL M. BAGLIN$CIT=NDS 111, 1807 (2010)$CUT=15-Jun-2010$
168YB C OTHERS: 1960Wi09, 1961Me05, 1969Wi08, 1966Ha23,
168YB2C 1972Ch44, 1973Ch28, 2005DU23 (OBSERVED 15 TRANSITIONS; NOT DETAILS
168YB3C GIVEN).
168YB C 1999BA65: CHEMICALLY-SEPARATED SOURCES FROM 156GD(16O,4N), E<100 MEV;
168YB2C >99% 156GD TARGET; He JET TRANSFER FOR ON-LINE CHEMICAL SEPARATION;
168YB3C REACTION PRODUCTS DISSOLVED IN ^HF AND SEPARATED USING THREE
168YB4C RESIN SEPARATION COLUMNS TO PRODUCE HIGH PURITY 168LU(JPI=3+) SOURCE;
168YB5C THREE HPGe DETECTORS (ONE PLANAR, FWHM=0.5 KEV AT 122 KEV, AND TWO
168YB6C COAXIAL); MEASURED EG, IG, GG COIN; PLACED 162 OF THE 177 TRANSITIONS
168YB7C OBSERVED.
168YB C 1970Ar16: source from the decay of spallation-produced 168HF (JPI=0+)
168YB2C should contain mainly 168LU(6.7 MIN) (JPI=3+);
168YB3C measured EB, IB (mag spect), EG, IG (GELI).
168YB C 1970Ch28: sources from 169TM(A,5N), E(A)=54 MEV contain both isomers;
168YB2C measured EG, IG (GELI), EB, IB, ECE, ICE (SILI, FWHM=4), GG coin,
168YB3C BG coin.
168YB C The adopted decay scheme is that of 1999BA65. STRONG COINCIDENCES
168YB2C ONLY ARE INDICATED; PLEASE SEE 1999BA65 FOR WEAK COINCIDENCE DATA.
168YB3C THIS scheme for the 6.7-min isomer is reasonably complete.
168YB CE TI EC feedings are from intensity imbalance
168YB2CE at each level and the assumption that IE=0 for GS feeding (DJ=3,
168YB3CE DPI=NO TRANSITION); IG+-0.5IG WAS ASSIGNED TO UNCERTAINLY-PLACED OR
168YB4CE DOUBLY-PLACED TRANSITIONS WITH UNDIVIDED INTENSITY.
168YB4CE Agreement with B+ data (1961Me05,1970Ar16,1972Ch44) is poor.
168YB CG E From 1999BA65, except as noted.
168YB CG RI From 1999BA65; AUTHORS EMPLOYED A HIGH-PURITY SOURCE FOR
168YB2CG THIS STUDY. IG FOR THE STRONGEST LINES ARE IN SATISFACTORY
168YB3CG AGREEMENT WITH THOSE FROM 1970AR16; IN THAT STUDY, contamination from
168YB4CG 168LU(5.5 MIN) appears to be very low, as evidenced by absence of
168YB5CG or low IG for G rays peculiar to 168LU EC decay (5.5 MIN).
168YB CG M From EKC values BASED ON ICE(K) DATA IN 1970Ch28, EXCEPT AS
168YB2CG NOTED. 1970Ch28 normalized their G and CE intensity scales by
168YB3CG assuming pure E2 for the following transitions: 87.7G, 198.8G,
168YB4CG 298.8G, 884.6G, 896.1G, 979.2G+983.8G. HOWEVER, THE 885G, 896G AND
168YB5CG 979G ARE NOT DJ=2 TRANSITIONS, SO MAY HAVE A ^D ADMIXTURE. 1999BA65
168YB6CG RECOMMEND USING ONLY THE 299G FOR NORMALIZATION; THIS WOULD GIVE
168YB7CG EKC VALUES 24% HIGHER THAN DEDUCED IN 1970CH28. IF, INSTEAD, ONLY
168YB8CG THE 199G WERE USED, NO ADJUSTMENT OF EKC FROM 1970CH28 WOULD BE
168YB9CG CALLED FOR. 1970CH28 DO NOT GIVE ICE(K) FOR THE 88G. BOTH THE 199G
168YBACG AND 299G HAVE WEAK TRANSITIONS FROM 6.7-min 168LU DECAY NEARBY; THESE
168YBBCG MIGHT NOT HAVE BEEN RESOLVED BY 1970CH28, BUT THEIR IMPACT ON EKC
168YBCCG VALUES WHOSE UNCERTAINTIES ARE AT LEAST 20% PROBABLY IS NOT IMPORTANT.
168YBDCG THE EVALUATOR QUOTES EKC FROM 1970CH28 BELOW BUT, WHEN MAKING
168YBECG MULTIPOLARITY ASSIGNMENTS, TAKES INTO ACCOUNT THE POSSIBILITY THAT
168YBFCG EKC MAY BE SYSTEMATICALLY LOW BY ABOUT 10%.
168YB CG E(B),RI(AB)$From 1970Ar16.
168YB CG E(AH) Unplaced G FROM 1970CH28. Parent isomer unknown, BUT ABSENCE
168YB2CG OF G IN 168LU EC DECAY (6.7 M) STUDY IN 1999BA65 FAVORS ASSIGNMENT
168YB3CG TO 168LU EC DECAY (5.5 M).
168YB CL E FROM LEAST-SQUARES FIT TO EG.
168YB CL J FROM Adopted Levels.
168YB CL T From GG(T) OR GX(t) (1973Ch28), except as noted.
168LU P 202.81 12 3+ 6.7 M 4 4510 50
168YB N 0.166 22 0.166 220.996 41.0
168YB PN 3
168YB CN NR From total TI to GS=100%; EC+B+ FEEDING OF 0+ GS FROM 3+
168YB2CN PARENT IS EXPECTED TO BE INSIGNIFICANT.
168YB G 17.7 5 0.50 25
168YB G 114 2 5 2 B
168YB G 126 2 4 2 B
168YB G 135.7 H
168YB G 227 1 3 B
168YB G 268.0 4 7 2 A
168YB G 286.6 H
168YB G 310.5 4 2 A
168YB G 313.5 6 0.19 10
168YB G 331.80 13 1.4 3
168YB G 347.1 3 0.45 20
168YB G 550.67 23 1.3 3
168YB G 624 2 9 2 B
168YB G 960.7 H
168YB G 1025.7 4 H
168YB G 1215.4 4 H
168YB G 1289 2 2 2 B
168YB G 1434.4 3 1.7 3
168YB G 1439.1 5 0.8 3
168YB G 1449.6 5 H
168YB G 1521.1 6 0.76 22
168YB G 1529 2 2 2 B
168YB G 1622.2 7 0.69 20
168YB G 1669.210 H
168YB G 1711.8 18 0.31 18
168YB G 1793.5 8 0.52 24
168YB G 1853.7 8 0.78 23
168YB G 1897.6 10 H
168YB G 1902.5 H
168YB G 1956.5 10 H
168YB G 2031.5 12 H
168YB G 2042.3 15 H
168YB G 2054.0 15 H
168YB G 2336.5 11 0.9 3
168YB G 2355 2 7 3 B
168YB L 0.0 0+ STABLE
168YB L 87.765 25 2+ 1.49 NS 4
168YB CL T adopted value; T=1.4 NS 5 (GG(T), 1970Ch28).
168YB G 87.77 3 82 12E2 5.34 C
168YBS G KC=1.315 19$LC=3.07 5$MC=0.758 11$NC+=0.193 3
168YBS G NC=0.1728 25$OC=0.0197 3$PC=5.81E-5 9
168YB CG M FROM K:L2:L3:M:N=~140:210:230:110:30 (1966HA23).
168YB CG %IG=13.5 5 ASSUMING ADOPTED NORMALIZATION.
168YB L 286.60 3 4+
168YB G 198.90 3 190 30E2 0.274 C
168YBS G KC=0.1676 24$LC=0.0813 12$MC=0.0197 3$NC+=0.00506 7
168YBS G NC=0.00451 7$OC=0.000543 8$PC=7.82E-6 11
168YB CG M FROM K:L2:L3:M=62:21:12:11 (1966HA23).
168YB L 585.35 5 6+
168YB G 298.77 4 12.6 20E2 0.0748 C
168YBS G KC=0.0533 8$LC=0.01655 24$MC=0.00393 6$NC+=0.001023 15
168YBS G NC=0.000906 13$OC=0.0001138 16$PC=2.72E-6 4
168YB CG M FROM Adopted Gammas.
168YB L 984.00 3 2+
168YB E 3.72E+3 30 1 1 2 3 6.6 6 3 4 ?
168YBS E EAV=1223 23$CK=0.523 11$CL=0.0818 18$CM+=0.0246 6
168YB CE E from EB+=2.70E+3 30 (mag spect, 1970Ar16).
168YB G 697.6 4 0.93 25 C
168YB G 896.261 24 100 E2 0.00465 C
168YBS G KC=0.00385 6$LC=0.000625 9$MC=0.0001411 20$NC+=3.78E-5 6
168YBS G NC=3.30E-5 5$OC=4.58E-6 7$PC=2.16E-7 3
168YB CG M EKC=0.0037 7 (1970CH28).
168YB G 983.99 4 78 13(E2) 0.00383 C
168YBS G KC=0.00318 5$LC=0.000504 7$MC=0.0001134 16$NC+=3.04E-5 5
168YBS G NC=2.65E-5 4$OC=3.70E-6 6$PC=1.79E-7 3
168YB CG M EKC=0.0030 5 (1970CH28) FOR 984G+979G.
168YB CG %IG=12.9 25 ASSUMING ADOPTED NORMALIZATION.
168YB L 1067.15 3 (3)+
168YB E 1 2 2 3 6.6 8 3 5 ?
168YBS E EAV=1186 23$CK=0.541 11$CL=0.0846 18$CM+=0.0255 6
168YB G 84.0 6 0.24 14[M1,E2] 6.0 5
168YBS G KC=3.0 17$LC=2.2 16$MC=0.5 4$NC+=0.14 10
168YBS G NC=0.13 9$OC=0.015 10$PC=0.00017 11
168YB CG OTHER RI: 4 2 IN 1970AR16.
168YB G 780.61 5 26 4E2 0.00625 C
168YBS G KC=0.00513 8$LC=0.000872 13$MC=0.000198 3$NC+=5.28E-5 8
168YBS G NC=4.61E-5 7$OC=6.36E-6 9$PC=2.88E-7 4
168YB CG M EKC=0.0048 14 (1970CH28).
168YB G 979.379 24 128 20(E2) 0.00387 C
168YBS G KC=0.00321 5$LC=0.000510 8$MC=0.0001146 16$NC+=3.07E-5 5
168YBS G NC=2.68E-5 4$OC=3.74E-6 6$PC=1.81E-7 3
168YB CG M EKC=0.0030 5 (1970CH28) FOR 984G+979G.
168YB L 1155.2 7(0+) ?
168YB G 1066.8 9 0.2 LT ?
168YB G 1156 E0 H
168YB CG EKC GT 0.075 deduced from ICE(K) AP 0.03 and
168YB2CG detection limit (=0.4) for 1156-KEV photons (1970Ch28);
168YB3CG TI(1156G) is insignificant.
168YB L 1159.4 6 (1-) ?
168YB G 1071.9 10 1 LT ?
168YB G 1159.2 7 0.2 LT ?
168YB L 1171.38 3 (4)+
168YB E 1 1 3 2 6.4 4 4 3 ?
168YBS E EAV=1138 23$CK=0.563 11$CL=0.0882 18$CM+=0.0265 6
168YB G 104.8 9 0.08 7[M1,E2] 2.82 17
168YBS G KC=1.7 8$LC=0.9 5$MC=0.21 13$NC+=0.05 3
168YBS G NC=0.05 3$OC=0.006 3$PC=9.E-5 6
168YB G 187.34 19 0.43 11[E2] 0.335
168YBS G KC=0.199 3$LC=0.1042 16$MC=0.0253 4$NC+=0.00650 10
168YBS G NC=0.00579 9$OC=0.000694 11$PC=9.14E-6 13
168YB G 586.4 9 0.34 20 C
168YB G 884.807 24 84 13E2 0.00478 C
168YBS G KC=0.00395 6$LC=0.000645 9$MC=0.0001455 21$NC+=3.89E-5 6
168YBS G NC=3.40E-5 5$OC=4.72E-6 7$PC=2.22E-7 4
168YB CG M EKC=0.0038 7 (1970CH28).
168YB G 1083.58 3 41 7(E2) 0.00315 C
168YBS G KC=0.00263 4$LC=0.000407 6$MC=9.12E-5 13$NC+=2.45E-5 4
168YBS G NC=2.13E-5 3$OC=3.00E-6 5$PC=1.481E-7 21
168YB CG M EKC AP 0.0020 (1970CH28).
168YB L 1231.5 3 (1-) ?
168YB G 1231.3 4 1.0 6 ?
168YB L 1233.1 3 2+
168YB G 74.0 5 0.4 LT ?
168YB CG OTHER RI: 7 3 IN 1970AR16.
168YB G 166.3 5 0.22 9
168YB G 1144.9 6 0.6 3 (E0+E2)
168YB CG M EKC AP 0.03 (1970CH28).
168YB CG Contribution to TI from E0 portion insignificant
168YB2CG (ICE(K) AP 0.06 cf. IG AP 2 IN 1970Ch28). E=1146.0 IN 1970CH28.
168YB G 1233.46 7 3 3[E2] 0.00245 @
168YBS G KC=0.00205 3$LC=0.000308 5$MC=6.88E-5 10$NC+=2.72E-5 4
168YBS G NC=1.610E-5 23$OC=2.27E-6 4$PC=1.151E-7 17$IPC=8.72E-6 13
168YB CG RI 21 2 (1970CH28) FOR DOUBLET.
168YB L 1279.0 4(2+)
168YB E 0.09 3 0.22 7 7.48 15 0.31 10
168YBS E EAV=1090 23$CK=0.587 11$CL=0.0920 18$CM+=0.0277 6
168YB G 1191.2 8 1.3 4
168YB CG OTHER RI: 5 2 IN 1970AR16.
168YB G 1279.0 4 0.6 3
168YB L 1302.40 6 (5)+
168YB G 130.90 6 1.30 23[M1,E2] 1.37 20
168YBS G KC=0.9 4$LC=0.35 15$MC=0.08 4$NC+=0.021 10
168YBS G NC=0.019 9$OC=0.0024 9$PC=5.E-5 3
168YB G 235.6 5 0.23 16[E2] 0.1571 25
168YBS G KC=0.1036 16$LC=0.0410 7$MC=0.00985 17$NC+=0.00255 5
168YBS G NC=0.00226 4$OC=0.000277 5$PC=5.03E-6 8
168YB G 717.28 20 2.5 5 C
168YB CG M EKC<0.008 (1970CH28).
168YB G 1015.86 7 11.4 17 E2 0.00359 C
168YBS G KC=0.00299 5$LC=0.000469 7$MC=0.0001055 15$NC+=2.83E-5 4
168YBS G NC=2.47E-5 4$OC=3.45E-6 5$PC=1.682E-7 24
168YB CG M EKC=0.0026 9 (1970CH28).
168YB L 1390.12 13(4+)
168YB E 0.11 4 0.30 12 7.31 18 0.41 16 ?
168YBS E EAV=1040 23$CK=0.611 11$CL=0.0958 18$CM+=0.0288 6
168YB G 405.9 5 0.34 15 &
168YB G 804.90 16 0.94 25 C
168YB G 1102.9 3 1.9 4 (E0+E2) C
168YB CG M EKC AP 0.04 (1970CH28).
168YB CG Contribution to TI from E0 component insignificant
168YB2CG (ICE(K) AP 0.08 cf. IG AP 2 IN 1970Ch28).
168YB G 1302.4 3 1.6 4
168YB L 1407.86 17 (2-) ?
168YB G 176.3 3 0.22 10 ?
168YB G 1320.12 18 3.0 6 ?
168YB L 1451.76 4 (3)+
168YB E 0.50 25 1.5 8 6.60 22 2.0 10
168YBS E EAV=1012 23$CK=0.624 11$CL=0.0980 18$CM+=0.0295 6
168YB G 280.5 3 0.39 10[M1,E2] 0.14 5
168YBS G KC=0.11 5$LC=0.0223 15$MC=0.00515 18$NC+=0.00137 8
168YBS G NC=0.00120 6$OC=0.000161 18$PC=6.E-6 4
168YB CG OTHER RI: 8 3 FOR UNCERTAIN G IN 1970AR16.
168YB G 384.80 7 6.9 11E2 0.0359 C
168YBS G KC=0.0271 4$LC=0.00679 10$MC=0.001591 23$NC+=0.000417 6
168YBS G NC=0.000368 6$OC=4.75E-5 7$PC=1.441E-6 21
168YB CG M FROM Adopted Gammas; EKC=0.0029 9 (1970CH28) FOR
168YB2CG DOUBLY-PLACED G.
168YB G 467.90 5 6.4 11M1,E2 0.035 14 C
168YBS G KC=0.029 13$LC=0.0048 13$MC=0.0011 3$NC+=0.00029 8
168YBS G NC=0.00026 7$OC=3.6E-5 10$PC=1.7E-6 8
168YB CG M EKC=0.028 11 (1970CH28).
168YB G 1165.21 16 4.4 7 C
168YB G 1363.90 4 23 4 C
168YB CG M EKC AP 0.0012 (1970CH28).
168YB L 1472.6 5 (4+)
168YB E 0.054 20 0.17 6 7.55 17 0.22 8
168YBS E EAV=1002 23$CK=0.628 11$CL=0.0987 18$CM+=0.0297 6
168YB G 300.2 8 0.26 14
168YB G 405.9 5 0.34 15 &
168YB G 887.6 5 0.9 4
168YB L 1479.99 9 3-
168YB E 0.2 1 0.7 3 6.93 20 0.9 4
168YBS E EAV=999 23$CK=0.630 11$CL=0.0989 18$CM+=0.0298 6
168YB G 27.1 5 0.50 25[E1] 2.23 13 C
168YBS G LC=1.73 10$MC=0.396 22$NC+=0.099 6
168YBS G NC=0.088 5$OC=0.0099 5$PC=0.000260 12
168YB G 89.6 4 0.46 16[E1] 0.456 9
168YBS G KC=0.375 7$LC=0.0630 12$MC=0.0141 3$NC+=0.00368 7
168YBS G NC=0.00324 6$OC=0.000422 8$PC=1.63E-5 3
168YB G 1193.4 3 3.2 6
168YB G 1392.19 13 5.0 9 C
168YB L 1551.33 4(4)+
168YB G 99.60 3 3.1 5[M1,E2] 3.34 10 C
168YBS G KC=1.9 10$LC=1.1 7$MC=0.26 17$NC+=0.07 4
168YBS G NC=0.06 4$OC=0.007 4$PC=0.00011 7
168YB G 248.7 3 0.47 15
168YB G 380.11 6 4.5 7[M1,E2] 0.060 24 C
168YBS G KC=0.049 22$LC=0.0088 17$MC=0.0020 4$NC+=0.00053 10
168YBS G NC=0.00047 9$OC=6.4E-5 15$PC=2.9E-6 14
168YB G 484.32 18 1.6 3 &
168YB G 567.41 15 2.3 5
168YB G 1264.68 5 14.6 23 C
168YB CG M EKC=0.0020 9 (1970CH28) FOR 1257G+1265G
168YB2CG (WHERE I(1257G):I(1265G)=15 2:32 3); this favors MULT=M1,E2 but does
168YB3CG NOT RULE OUT E1 FOR ONE OF THE TRANSITIONS.
168YB G 1463.47 10 12.4 20 C
168YB CG M EKC<0.0018 (1970CH28).
168YB L 1597.89 7 (-)
168YB G 530.1 7 1.2 5 &
168YB G 1012.9 3 0.58 22(M2) 0.01728
168YBS G KC=0.01438 21$LC=0.00225 4$MC=0.000506 7$NC+=0.0001369 20
168YBS G NC=0.0001190 17$OC=1.702E-5 24$PC=9.07E-7 13
168YB CG M EKC AP 0.011 (1970CH28).
168YB CG E WEIGHTED AVERAGE OF 1012.9 3 (1970CH28) AND 1013.0 6
168YB2CG (1999BA65).
168YB G 1311.27 11 5.9 9(E1) 9.91E-4 C
168YBS G KC=0.000784 11$LC=0.0001063 15$MC=2.34E-5 4$NC+=7.72E-5 11
168YBS G NC=5.49E-6 8$OC=7.85E-7 11$PC=4.25E-8 6$IPC=7.09E-5 10
168YB CG M EKC<0.0014 (1970CH28).
168YB G 1510.00 13 5.4 9 C
168YB CG OTHER RI: 12 4 (1970CH28).
168YB L 1604.5 6 (2+)
168YB E 0.036 11 0.13 4 7.60 14 0.17 5 ?
168YBS E EAV=943 23$CK=0.656 11$CL=0.1031 17$CM+=0.0310 5
168YB G 1516.7 6 0.83 25
168YB G 1605.2 20 0.2 1
168YB L 1650.66 21 (2,3,4)-
168YB E 0.064 18 0.26 7 7.31 13 0.32 9
168YBS E EAV=922 23$CK=0.665 11$CL=0.1046 17$CM+=0.0315 5
168YB G 479.3 8 0.31 16
168YB G 583.50 21 1.6 4E1 0.00435
168YBS G KC=0.00368 6$LC=0.000520 8$MC=0.0001152 17$NC+=3.09E-5 5
168YBS G NC=2.69E-5 4$OC=3.80E-6 6$PC=1.95E-7 3
168YB CG M EKC<0.005 (1970CH28).
168YB L 1674.20 5 (5+)
168YB G 122.95 6 1.25 21[M1,E2] 1.67 20 C
168YBS G KC=1.1 5$LC=0.44 21$MC=0.11 6$NC+=0.028 14
168YBS G NC=0.025 12$OC=0.0030 13$PC=6.E-5 4
168YB G 222.55 17 0.90 19[E2] 0.189 C
168YBS G KC=0.1218 18$LC=0.0515 8$MC=0.01239 18$NC+=0.00320 5
168YBS G NC=0.00285 4$OC=0.000347 5$PC=5.84E-6 9
168YB G 1089.0 10 0.3 3
168YB CG E FROM 1999BA65. OTHER EG: 1089.3 4 IN 1970CH28 (BY WHOM
168YB2CG NEARBY 1091.6G WAS NOT REPORTED).
168YB G 1387.43 12 6.8 11 C
168YB CG M EKC<0.0016 (1970CH28) FOR DOUBLET.
168YB L 1730.48 25 (1,2+)
168YB G 497.40 20 0.8 4
168YB G 1642.1 12 0.44 17
168YB G 1730.8 6 0.6 3 ?
168YB L 1917.8 4 ?
168YB G 1631.2 4 1.9 4 ?
168YB L 1972.8 3 (2+)
168YB E 0.014 8 0.10 5 7.64 24 0.11 6 ?
168YBS E EAV=778 23$CK=0.725 9$CL=0.1145 15$CM+=0.0345 5
168YB G 375.0 4 0.53 19
168YB G 521.7 7 0.30 17
168YB G 1686.3 3 0.2 2 ?
168YB CG EVALUATOR ASSIGNS PLACEMENT AS UNCERTAIN BECAUSE G IS VERY
168YB2CG WEAK AND A 1686G APPEARS TO DEEXCITE A SEPARATE LEVEL IN 5.5-min
168YB3CG EC DECAY.
168YB L 2011.39 7 (2+,3,4+)
168YB G 621.6 8 0.4 2
168YB G 944.42 25 1.8 6
168YB G 1027.44 20 2.8 6
168YB G 1724.6 7 0.84 22
168YB L 2055.88 4 (2+,3+,4+)
168YB G 884.8 5 1.0 5
168YB G 988.96 18 6.3 11 C
168YB G 1071.94 5 15.7 25(M1,E2) 0.0046 15 C
168YBS G KC=0.0039 12$LC=0.00057 16$MC=0.00013 4$NC+=3.5E-5 10
168YBS G NC=3.0E-5 9$OC=4.3E-6 13$PC=2.3E-7 8
168YB CG M EKC AP 0.0035 (1970CH28).
168YB G 1967.7 14 0.6 3 C
168YB L 2065.08 22 (2+,3,4+)
168YB E 0.028 16 0.23 13 7.2 3 0.26 15
168YBS E EAV=737 23$CK=0.740 8$CL=0.1170 14$CM+=0.0353 4
168YB G 53.2 5 1 LT ?
168YB G 147.08 8 0.61 25 &
168YB G 674.6 5 0.9 4 &
168YB G 998.7 7 0.6 3
168YB G 1977.6 9 0.69 21
168YB L 2135.34 12 (3+,4+)
168YB E 0.19 4 1.8 4 6.31 10 2.0 4
168YBS E EAV=706 23$CK=0.750 8$CL=0.1188 13$CM+=0.0358 4
168YB G 683.4 6 0.63 20
168YB G 832.1 3 1.2 4
168YB G 964.19 15 4.7 8
168YB G 1068.0 9 1.3 8
168YB G 1151.0 9 0.49 20
168YB G 1848.74 25 2.9 5
168YB G 2047.6 4 1.9 4
168YB L 2158.56 5 (4+)
168YB E 0.35 7 3.5 6 6.01 9 3.9 7
168YBS E EAV=696 23$CK=0.754 8$CL=0.1194 13$CM+=0.0360 4
168YB G 147.08 8 0.61 25 &
168YB G 484.32 18 1.6 3 &
168YB G 560.0 5 0.46 22 C
168YB G 607.22 9 8.5 14 C
168YB G 706.83 17 3.1 6 C
168YB G 768.4 7 0.62 23
168YB G 856.3 10 0.8 3
168YB G 987.34 15 8.2 14
168YB G 1091.58 19 3.0 7
168YB G 1573.0 20 0.5 5
168YB G 1871.8 4 1.9 4 C
168YB G 2070.9 4 2.0 4 C
168YB L 2180.28 19 4+
168YB E 0.037 13 0.38 13 6.97 15 0.42 14
168YBS E EAV=686 23$CK=0.757 8$CL=0.1200 13$CM+=0.0361 4
168YB G 449.7 4 0.65 22
168YB G 1113.6 8 0.5 4 &
168YB G 1594.2 4 1.4 3
168YB G 1894.1 10 0.36 21
168YB G 2093.1 4 1.9 4
168YB L 2204.00 4 (4)+ 0.14 NS LT
168YB E 2.49E+3 10 3.4 7 38 6 4.97 9 41 7
168YBS E EAV=676 23$CK=0.760 7$CL=0.1205 12$CM+=0.0363 4
168YB CE E from EB+=1.47E+3 10 (BG coin, 1972Ch44). Other: 1.5E+3 3
168YB2CE (mag spect, 1970Ar16).
168YB G 68.0 5 0.3 LT ?
168YB G 148.16 4 4.2 7[M1,E2] 0.93 18 C
168YBS G KC=0.7 3$LC=0.21 8$MC=0.050 19$NC+=0.013 5
168YBS G NC=0.012 5$OC=0.0015 4$PC=3.6E-5 20
168YB CG M 5