166ER 166TM EC DECAY 1989AD11 08NDS 200804
166ER H TYP=FUL$AUT=CORAL M. BAGLIN$CIT=NDS 109, 1103 (2008)$CUT=1-Mar-2008$
166ER C Data are from 1989AD11, unless otherwise noted. Other measurements:
166ER2C 1995KRZX (and 1996KRZW), 1993ADZY, 1993BAZS,
166ER3C 1980PE15, 1979AD06, 1974AR28, 1961HA23, 1961GR33, 1966ZY01, 1973DE22,
166ER4C 1970RE16, 1967BU14, 1968MI13, 1959BA12, 1959BO57, 1959BR17, 1960JA08,
166ER5C 1960WI12, 1961BO15, 1962GR29, 1964PR02, 1969AR23.
166ER CE IE From intensity balance, unless otherwise noted.
166ER TG $ X-RAYS: (1980VYZZ) (RI relative to RI(778.8G)=100)
166ER2TG Energy RI Identification
166ER3TG ---------------------------------------------
166ER3TG 48.221 142.5 28 XKA2
166ER4TG 49.128 252.0 40 XKA1
166ER5TG 55.6 80.2 15 XKB1P
166ER6TG 57.1 21.0 4 XKB2P
166ER7TG
166ER8TG 1973DE22 report, for equilibrium source (166YB+166TM+166ER):
166ER9TG I(TM XK):I(82.3G, 166TM):I(ER XK):I(80.6G, 166ER):I(785.9G, 166ER)=
166ERATG 868 21:100:805 32:90.2 9:73 4.
166ER CG GG-coin: 1960WI12, 1961BO15, 1966ZY01, 1968MI13, 1979AD06.
166ER CG E,RI FROM 1989AD11, EXCEPT AS NOTED.
166ER CG M Deduced from EKC=CE(K)/IG normalized
166ER2CG to KC(778.90G)=4.79E-3 (E2 theory), CE(K) from 1979AD06, IG from
166ER3CG 1989AD11, EXCEPT AS NOTED.
166ER CG E(R) Measured EG=1119.50 4 (RI=1.35 5) is doublet, RI divided
166ER2CG by 1989AD11. EKC=0.00089 22 FOR DOUBLET (1993BAZS).
166ER CG E(L) Measured EG=194.678 15 (RI=4.34 13) is doublet, RI divided
166ER2CG by 1989AD11.
166ER CG E(T) Measured EG=646.75 4 (RI=0.117 6) is doublet, RI divided
166ER2CG by 1989AD11.
166ER CG E(Y) EG DEVIATES BY AT LEAST 5|s FROM VALUE EXPECTED FOR THIS
166ER2CG PLACEMENT. DATUM EXCLUDED FROM LEAST-SQUARES FIT.
166ER CG E(Z) if the unplaced 1641G in EC decay corresponds to the 1641G
166ER2CG deexciting a 1722 LEVEL in (N,N'G), then one should also see a 1456.6G
166ER3CG in EC decay. From IG(1456.6G)/IG(1641.2G)=0.78 16 IN (N,N'G) and
166ER4CG I(1641G)=0.127 15 IN EC DECAY, one EXPECTS IG(1456G)=0.099 24 for a
166ER5CG possible 1456.6 10 transition IN EC DECAY. This could have been
166ER6CG masked by the 1457.17G, with IG=0.35 5. However, if present, IG(1457G)
166ER7CG from the 2243.1 level in EC decay should then be decreased to 0.25 6.
166ER CL E FROM LEAST-SQUARES FIT TO EG, OMITTING THE 646.8G FROM THE
166ER2CL 2160 LEVEL AND ALL THREE PLACEMENTS FOR THE 1216.173G BECAUSE THESE
166ER3CL TRANSITIONS HAVE EG VALUES THAT DEVIATE FROM THE EXPECTED VALUE BY
166ER4CL AT LEAST 5|s.
166ER CL J From Adopted Levels.
166TM P 0.0 2+ 7.70 H 3 3038 12
166ER N 0.191 11 1.0 1.0 1.0
166ER CN NR The basis of the intensity normalization is that EC+B+
166ER2CN feeding to the ground state of 166ER IS NOT EXPECTED (DJ=2, DPI=NO), SO
166ER3CN SUMOF (TI TO GS)=100%.
166ER PN 3
166ER G 163.21 100.030 4
166ER G 228.21 7 0.121 4 M1+E2 0.22 6
166ERS G KC=0.17 7$LC=0.038 3$MC=0.0087 10$NC+=0.00227 20
166ERS G NC=0.00199 20$OC=0.000267 8$PC=1.0E-5 5
166ER CG M from EKC=0.39 10
166ER G 277.73 200.030 10(M1) 0.1641
166ERS G KC=0.1380 20$LC=0.0203 3$MC=0.00450 7$NC+=0.001210 18
166ERS G NC=0.001050 15$OC=0.0001521 22$PC=8.44E-6 12
166ER CG M from EKC=0.16 15.
166ER G 293.40 8 0.051 8 (E2) 0.0739
166ERS G KC=0.0538 8$LC=0.01550 22$MC=0.00363 5$NC+=0.000940 14
166ERS G NC=0.000831 12$OC=0.0001065 15$PC=2.76E-6 4
166ER CG M from EKC=0.16 8.
166ER G 319.883 180.233 7 M1 0.1123
166ERS G KC=0.0945 14$LC=0.01387 20$MC=0.00307 5$NC+=0.000826 12
166ERS G NC=0.000716 10$OC=0.0001038 15$PC=5.76E-6 8
166ER CG M from EKC=0.19 6.
166ER G 372.40 4 0.062 4
166ER G 477.24 200.028 7
166ER G 547.04 250.028 7
166ER G 799.74 200.023 5
166ER G 858.62 9 0.042 7
166ER G 985.53 150.052 9
166ER G 1004.99 200.028 8
166ER G 1126.807 250.380 11M1+E2 0.0036 10
166ERS G KC=0.0031 9$LC=0.00044 11$MC=9.7E-5 24$NC+=2.7E-5 7
166ERS G NC=2.3E-5 6$OC=3.3E-6 9$PC=1.8E-7 6$IPC=7.8E-7 8
166ER CG M EKC=0.0032 8 (1993BAZS).
166ER G 1388.47 5 0.22 3
166ER G 1406.6 3 0.023 8
166ER G 1495.57 180.074 12
166ER G 1562.05 9 0.068 12
166ER G 1577.5 3 0.051 20
166ER G 1641.10 200.127 15 Z
166ER G 1688.6 4 0.041 15
166ER G 1703.0 5 0.055 22
166ER G 1707.7 5 0.032 12
166ER G 1714.2 5 0.025 10
166ER G 1730.5 5 0.12 4
166ER G 1755.5 5 0.033 6
166ER G 1824.10 200.51 10
166ER G 1883.18 110.127 22
166ER G 1922.4 4 0.06 3
166ER G 1929.1 3 0.024 6
166ER G 1966.52 4 0.234 23M1,M2
166ER CG E CLOSE TO, BUT INCONSISTENT WITH, EG EXPECTED FOR A
166ER2CG 2047 TO 81 TRANSITION.
166ER CG M from EKC=0.0023 15
166ER G 1976.38 200.29 3
166ER G 1986.53 5 0.194 10M1,E2 0.0013619
166ERS G KC=0.00090 14$LC=0.000124 19$MC=2.7E-5 4$NC+=0.00031 4
166ERS G NC=6.3E-6 10$OC=9.2E-7 15$PC=5.2E-8 9$IPC=0.00031 4
166ER CG M from EKC=0.0011 6.
166ER G 2003.4 3 0.071 14
166ER G 2022.03 200.09 3
166ER G 2100.2 6 0.032 9
166ER G 2176.61 6 0.184 8 M1,E2 0.0012816
166ERS G KC=0.00074 10$LC=0.000102 14$MC=2.2E-5 3$NC+=0.00041 5
166ERS G NC=5.2E-6 7$OC=7.6E-7 11$PC=4.3E-8 7$IPC=0.00041 5
166ER CG M from EKC=0.0015 9.
166ER G 2254.5 3 0.007 3
166ER G 2257.0 3 0.0096 25
166ER G 2284.6 3 0.0087 19
166ER G 2302.85 8 0.112 10E2,M1 0.0012514
166ERS G KC=0.00066 8$LC=9.0E-5 11$MC=1.98E-5 24$NC+=0.00048 5
166ERS G NC=4.6E-6 6$OC=6.7E-7 9$PC=3.8E-8 5$IPC=0.00047 5
166ER CG M from EKC=0.9E-3 6.
166ER G 2309.3 3 0.0145 17
166ER G 2352.7 100.006 3
166ER G 2366.6 4 0.0163 24
166ER G 2398.7 4 0.014 4
166ER G 2403.05 250.0096 22
166ER G 2413.0 5 0.007 3
166ER G 2423.95 100.128 4 E2,M1 0.0012313
166ERS G KC=0.00059 6$LC=8.1E-5 9$MC=1.78E-5 20$NC+=0.00054 6
166ERS G NC=4.1E-6 5$OC=6.0E-7 7$PC=3.4E-8 4$IPC=0.00054 6
166ER CG M from EKC=0.8E-3 4.
166ER G 2435.8 5 0.019 3
166ER G 2438.6 100.0110 25
166ER G 2441.3 8 0.016 3
166ER G 2458.51 200.023 5
166ER G 2490.4 7 0.0040 9
166ER G 2494.42 200.0247 15
166ER G 2524.6 5 0.0086 20
166ER G 2536.7 100.014 3
166ER G 2560.1 5 0.029 4
166ER G 2562.8 3 0.084 4 E2,M1 0.0012312
166ERS G KC=0.00053 5$LC=7.2E-5 7$MC=1.58E-5 16$NC+=0.00061 7
166ERS G NC=3.7E-6 4$OC=5.4E-7 6$PC=3.1E-8 4$IPC=0.00061 7
166ER CG M from EKC=1.2E-3 6.
166ER G 2620.8 6 0.042 4
166ER G 2682.5 7 0.030 3
166ER G 2720.2 4 0.0102 20
166ER G 2740.26 200.0440 25
166ER G 2753.05 200.0140 25
166ER G 2795.7 7 0.0057 20
166ER G 2801.3 7 0.0042 15
166ER G 2808.5 100.0034 12
166ER G 2861.4 100.0043 15
166ER L 0.0 0+
166ER L 80.581 112+
166ER E 1.0 10 4 4 7.9 5 5 5 C
166ERS E EAV=874.9 54$CK=0.669 3$CL=0.1030 4$CM+=0.03061 13
166ER CE E EB+=1940 20 (1961GR33); =1928 20 (1961ZY02); =1936 20
166ER2CE (1963PR13).
166ER G 80.585 1560.4 32E2 6.78 C
166ERS G KC=1.671 24$LC=3.91 6$MC=0.953 14$NC+=0.241 4
166ERS G NC=0.215 3$OC=0.0251 4$PC=7.29E-5 11
166ER CG %I(80.6G)=11.5 3 ASSUMING ADOPTED NORMALIZATION.
166ER CG M from L1:L2:L3=2270 115:26700 1400:27500 1400 and
166ER2CG EKC=2.2 6; (K:L:M=0.40 4:1:0.32 3 (1966ZY01)).
166ER L 264.985 13 4+
166ER G 184.405 2585.0 18E2 0.331 C
166ERS G KC=0.205 3$LC=0.0964 14$MC=0.0230 4$NC+=0.00590 9
166ERS G NC=0.00524 8$OC=0.000642 9$PC=9.48E-6 14
166ER CG M from L1:L2:L3=330 20:580 30:500 25 and EKC=0.19 8.;
166ER2CG (K:L:M=2.1 1:1:0.36 2 (1966ZY01)).
166ER CG MR MR(E2/M3)=+0.09 10 (1985DAZV)
166ER L 545.444 16 6+
166ER G 280.461 201.47 3 E2 0.0849 C
166ERS G KC=0.0611 9$LC=0.0183 3$MC=0.00430 6$NC+=0.001112 16
166ERS G NC=0.000984 14$OC=0.0001255 18$PC=3.11E-6 5
166ER CG M from L1:L2:L3=3.1 4:3.3 4:2.3 3 and EKC=0.08 3.
166ER L 785.917 112+
166ER E 0.075 22 1.3 4 8.09 13 1.4 4
166ERS E EAV=561.5 53$CK=0.7874 14$CL=0.12263 25$CM+=0.03649 8
166ER G 520.99 4 0.998 23 E2 0.01481
166ERS G KC=0.01184 17$LC=0.00230 4$MC=0.000525 8$NC+=0.0001382 20
166ERS G NC=0.0001211 17$OC=1.644E-5 23$PC=6.58E-7 10
166ER DG E 520.65 10 (1970RE16); 521.2 10 (1967BU14)
166ER CG L1:L2=0.4 2:0.15 and EKC=0.012 5 for the doublet.
166ER CG RI,E RI IS FROM RI(521G FROM 786 LEVEL)/RI(705G)=0.0172 4
166ER2CG (2006KU03) AND I(705G). EG=520.945 15, RI=1.32 3 FOR DOUBLET IN
166ER3CG 1989AD11, SO RI(521G FROM 1596 LEVEL)=0.32 4. NOTE, HOWEVER, THAT THE
166ER4CG RESULTING 521G BRANCH FROM THE 1596 LEVEL IS SOMEWHAT SMALLER THAN THE
166ER5CG VALUE ADOPTED FROM B- DECAY (1.20E+3 Y). 1989AD11 ESTIMATED
166ER6CG EG=520.99 4, RI=0.89 9 AND EG=520.92 4, RI=0.42 7 FOR THE RESPECTIVE
166ER7CG COMPONENTS OF THE DOUBLET THEY OBSERVED.
166ER G 705.333 20 58.0 12M1+E2 -5 +3-14 0.0071613 C
166ERS G KC=0.00588 11$LC=0.000999 16$MC=0.000225 4$NC+=5.96E-5 10
166ERS G NC=5.20E-5 9$OC=7.24E-6 12$PC=3.32E-7 7
166ER CG MR from GG(|q) (1987KR12). Other: -22 +13-7 (1980BU26),
166ER2CG -7 +23-3 FROM G(|q,H,T) (1995KRZX).
166ER CG M from L1:L2:L3=7.0 7:0.7 1:0.7 1 and EKC=0.0067 14.
166ER G 785.904 15 52.5 6 E2 0.00561 C
166ERS G KC=0.00463 7$LC=0.000759 11$MC=0.0001701 24$NC+=4.52E-5 7
166ERS G NC=3.94E-5 6$OC=5.52E-6 8$PC=2.63E-7 4
166ER CG RI FROM RI(786G)/RI(705G)=0.906 10 (2006KU03) AND I(705G);
166ER2CG IN EXCELLENT AGREEMENT WITH RI=52.4 11 FROM 1989AD11.
166ER CG M from L1:L2:L3=3.3 10:1.3 4:0.5 2 and EKC=0.0046 3
166ER L 859.399 123+
166ER E 0.05 3 1.1 6 8.16 24 1.1 6
166ERS E EAV=529.0 54$CK=0.7952 13$CL=0.12403 22$CM+=0.03692 7
166ER G 73.45 2 0.5 LEM1 6.92
166ERS G KC=5.80 9$LC=0.876 13$MC=0.194 3$NC+=0.0522 8
166ERS G NC=0.0453 7$OC=0.00655 10$PC=0.000360 5
166ER CG M from L1:L2:L3=10 3:70 7:50 5.
166ER CG E,RI from 1979AD06.
166ER G 594.409 1518.3 4 E2+M1 -12 2 0.0111 7 C
166ERS G KC=0.0090 6$LC=0.00161 7$MC=0.000365 14$NC+=9.7E-5 4
166ERS G NC=8.4E-5 4$OC=1.16E-5 5$PC=5.1E-7 4
166ER CG M from L1:L2:L3=4.5 5:1.3 2:0.8 1 and EKC=0.0076 20.
166ER CG MR FROM G(|q,H,T) (1995KRZX). OTHER MR: >+31 from GG(|q)
166ER2CG (1980BU26); +5.5 +74-22 (1985DAZV); -1.3 +3-5 FROM 594G-184G(|q)
166ER3CG (1993ADZY), HOWEVER, EVALUATOR CANNOT REPRODUCE THIS VALUE USING THE
166ER4CG AUTHORS' STATED A2 AND A4 COEFFICIENTS.
166ER G 778.814 15100.0 20E2+M1 -20 +2-4 0.00580 C
166ERS G KC=0.00479 7$LC=0.000784 11$MC=0.0001758 25$NC+=4.67E-5 7
166ERS G NC=4.07E-5 6$OC=5.71E-6 8$PC=2.72E-7 4
166ER DG E 778.80 4 (1970RE16); 779.8 6 (1967BU14)
166ER CG MR FROM Adopted Gammas. DATA FROM EC DECAY: +8.4 7 from
166ER2CG GG(|q) (1980BU26); +15 +26-6 (1985DAZV), +10 +130-5 FROM 598G-778G(|q)
166ER2CG (1993ADZY), -6.2 +10-8 FROM G(|q,H,T) (1995KRZX); REASON FOR DISCREPANT
166ER4CG RESULTS IS NOT KNOWN.
166ER CG M from L1:L2:L3=11 1:2.2 3:1.0 2 (KC=4.79E-3 (E2 theory)).
166ER L 956.240 124+
166ER G 96.85 5 0.065 3 E2 3.32
166ERS G KC=1.157 17$LC=1.658 24$MC=0.403 6$NC+=0.1019 15
166ERS G NC=0.0912 13$OC=0.01069 16$PC=4.82E-5 7
166ER CG M from L1:L2:L3=3.1 4:19 2:17 2 and EKC=2.3 10.
166ER G 170.325 160.390 20E2 0.433
166ERS G KC=0.258 4$LC=0.1347 19$MC=0.0323 5$NC+=0.00824 12
166ERS G NC=0.00734 11$OC=0.000893 13$PC=1.169E-5 17
166ER CG M from L1:L2:L3=2.5 3:6.7 7:5.9 6 and EKC=0.30 11.
166ER G 410.797 160.490 10E2 0.0278 C
166ERS G KC=0.0216 3$LC=0.00481 7$MC=0.001109 16$NC+=0.000290 4
166ERS G NC=0.000255 4$OC=3.39E-5 5$PC=1.167E-6 17
166ER DG E 410.61 14 (1970RE16)
166ER CG RI(411G):RI(691G)=0.0233 5:1.85 (2006KU03).
166ER CG M from EKC=0.019 10.
166ER G 691.250 1739.1 8 E2+M1 -3.3 +12-300.0080220 C
166ERS G KC=0.00660 17$LC=0.001106 23$MC=0.000248 5$NC+=6.59E-5 14
166ERS G NC=5.75E-5 12$OC=8.03E-6 18$PC=3.76E-7 11
166ER DG E 691.21 4 (1970RE16); 691.8 5 (1967BU14)
166ER CG MR from Adopted Gammas. MR FROM EC DECAY: -3.7 5 FROM GG(|q)
166ER2CG (1980BU26); -8.50.0013
166ER L 1572.206 14(4)-
166ER E 0.052 19 10.00 16 0.052 19 1U
166ERS E CK=0.8167 2$CL=0.14059 15$CM+=0.04251 6
166ER G 114.09 E2 1.80
166ERS G KC=0.778 11$LC=0.783 11$MC=0.190 3$NC+=0.0481 7
166ERS G NC=0.0430 6$OC=0.00508 8$PC=3.26E-5 5
166ER CG E FROM 1993BAZS.
166ER CG M FROM L1/L2 AP 1 (1993BAZS).
166ER G 496.935 160.990 20E1 0.00566 C
166ERS G KC=0.00480 7$LC=0.000672 10$MC=0.0001479 21$NC+=3.94E-5 6
166ERS G NC=3.43E-5 5$OC=4.88E-6 7$PC=2.57E-7 4
166ER CG M from EKC=0.0072 35.
166ER G 615.963 150.763 17 (E1(+M2))
166ER CG M FROM Adopted Gammas.
166ER G 712.817 222.19 4 E1 0.00264 C
166ERS G KC=0.00224 4$LC=0.000308 5$MC=6.75E-5 10$NC+=1.80E-5 3
166ERS G NC=1.568E-5 22$OC=2.25E-6 4$PC=1.219E-7 17
166ER CG M from EKC=0.0032 17.
166ER G 1307.17 150.023 6
166ER L 1596.263 17(4)-
166ER E 0.040 11 10.09 12 0.040 11 1U
166ERS E CK=0.8164 2$CL=0.14089 16$CM+=0.04262 6
166ER G 520.92 4 0.32 4
166ER CG E FROM DECONVOLUTION OF A DOUBLET (1989AD11).
166ER CG RI SEE COMMENT ON 521G FROM 786 LEVEL.
166ER G 640.04 3 0.263 8
166ER G 736.832 220.721 24
166ER L 1662.32 6 1-
166ER E 0.045 13 9.12 13 0.045 13
166ERS E CK=0.8274$CL=0.13253 8$CM+=0.03961 3
166ER G 1581.8 8 0.15 6 E1(+M2) -0.027 27 8.69E-415
166ERS G KC=0.000523 11$LC=6.94E-5 15$MC=1.52E-5 4$NC+=0.000261 4
166ERS G NC=3.53E-6 8$OC=5.11E-7 11$PC=2.89E-8 7$IPC=0.000257 4
166ER CG M,MR FROM Adopted Gammas.
166ER G 1662.33 200.120 15 E1 8.77E-4
166ER CG M FROM Adopted Gammas.
166ER L 1678.77 3 (4)+
166ER E 0.012 6 9.69 22 0.012 6
166ERS E CK=0.8273$CL=0.13264 8$CM+=0.03965 3
166ER G 1413.81 4 0.310 15M1(+E2+E0)+0.35 30 0.062 21
166ERS G KC=0.00218 17$LC=0.000306 22$MC=6.7E-5 5$NC+=7.2E-5 4
166ERS G NC=1.57E-5 11$OC=2.28E-6 17$PC=1.29E-7 11$IPC=5.43E-5 20
166ER CG M FROM EKC=0.0048 16 (1993BAZS).
166ER CG CC APPROXIMATE VALUE FROM EKC x 1.3.
166ER L 1703.057 20(2,3,4)+
166ER E 0.375 25 8.17 3 0.375 25
166ERS E CK=0.8272$CL=0.13280 8$CM+=0.03970 3
166ER G 1622.45 3 2.39 6 E2,M1 0.0018 4
166ERS G KC=0.0014 3$LC=0.00019 4$MC=4.2E-5 8$NC+=0.000140 16
166ERS G NC=9.9E-6 19$OC=1.4E-6 3$PC=8.0E-8 18$IPC=0.000129 13
166ER CG M from EKC=0.0021 11.
166ER DG E 1625 1 (1967BU14)
166ER L 1813.2 3 1(+)
166ER E 0.059 9 8.90 7 0.059 9
166ERS E CK=0.8264 2$CL=0.13358 9$CM+=0.03997 4
166ER G 1731.9 5 0.12 4 (M1+E2)
166ER CG M FROM Adopted Gammas.
166ER G 1813.4 3 0.37 5 (M1) &
166ER CG M FROM Adopted Gammas.
166ER L 1830.42 4 1-
166ER E 0.016 5 9.45 14 0.016 5
166ERS E CK=0.8262 2$CL=0.1337 1$CM+=0.04002 4
166ER G 1749.78 7 0.113 8 (E1(+M2)) 0.0023 15
166ER CG M FROM Adopted Gammas.
166ER G 1830.9 5 0.050 20 (E1) 9.20E-4
166ER CG M FROM Adopted Gammas.
166ER L 1865.17 5
166ER E 0.093 8 8.66 4 0.093 8
166ERS E CK=0.8259 2$CL=0.1340 1$CM+=0.04012 4
166ER G 1784.58 4 0.489 25
166ER L 1894.364 23 2+,3+,4+
166ER E 0.027 LE 9.2 GE 0.027 LE
166ERS E CK=0.8256 2$CL=0.1342 1$CM+=0.04020 4
166ER G 1034.79 130.029 5
166ER G 1629.4 3 0.15 3 &
166ER G 1813.4 3 0.37 5 &
166ER L 1917.767 13 3-
166ER G 86.84 E2 5.05
166ERL G FL=1830.42
166ERS G KC=1.458 21$LC=2.75 4$MC=0.671 10$NC+=0.1694 24
166ERS G NC=0.1516 22$OC=0.01770 25$PC=6.18E-5 9
166ER CG E FROM 1993BAZS.
166ER CG M FROM L2/L3 AP 1 (1993BAZS).
166ER G 255.44 6 0.028 3
166ER G 345.569 152.43 6 M1+E2 -0.57 +21-250.080 8 C
166ERS G KC=0.067 7$LC=0.0106 5$MC=0.00237 9$NC+=0.00063 3
166ERS G NC=0.000552 21$OC=7.8E-5 4$PC=4.0E-6 5
166ER CG M from L1:L2=6.7 7:1.0 1 and EKC=0.10 2.
166ER CG MR FROM A2=+0.22 6, A4=-0.07 15 FOR 215G-345G(|q) (1993ADZY).
166ER2CG OTHER MR: 0.75 25 FROM ce DATA.
166ER G 404.004 134.12 10M1+E2 -0.34 +17-190.057 4 C
166ERS G KC=0.048 4$LC=0.0072 3$MC=0.00160 6$NC+=0.000429 17
166ERS G NC=0.000372 15$OC=5.36E-5 25$PC=2.91E-6 23
166ER CG M from L1:L2=7 1:0.8 3 and EKC=0.053 12.
166ER CG MR FROM A2=+0.05 8, A4=+0.08 15 FOR 215G-404G(|q) (1993ADZY).
166ER G 459.600 1513.26 26M1+E2 -0.16 4 0.0428 7 C
166ERS G KC=0.0361 6$LC=0.00525 8$MC=0.001162 18$NC+=0.000312 5
166ERS G NC=0.000271 4$OC=3.93E-5 6$PC=2.18E-6 4
166ER CG M from Adopted Gammas. M1 FROM L1:L2:L3=14 2:1.0 2:0.3 and
166ER2CG EKC=0.043 9.
166ER CG MR from Adopted Gammas. MR=-0.17 3 FROM A2=-0.28 3, A4=+0.01 7
166ER2CG FOR 215G-460G(|q) AND MR=-0.21 9 FROM A2=-0.17 5, A4=+0.06 9 FOR
166ER3CG 460G-672G(|q) (1993ADZY).
166ER DG RI IG(1652.8):IG(459.6):IG(403.9):IG(389.4):IG(345.6)=
166ER2DG 20 6:124 10:37 4:2.8 LT:15.5 15 (1967BU14)
166ER G 1131.872 251.28 3 E1 1.09E-3 C
166ERS G KC=0.000931 13$LC=0.0001249 18$MC=2.73E-5 4$NC+=1.183E-5 17
166ERS G NC=6.35E-6 9$OC=9.18E-7 13$PC=5.11E-8 8$IPC=4.50E-6 7
166ER CG M from EKC=0.0013 7.
166ER G 1652.76 3 5.60 15E1 8.75E-4 C
166ERS G KC=0.000484 7$LC=6.40E-5 9$MC=1.399E-5 20$NC+=0.000313 5
166ERS G NC=3.26E-6 5$OC=4.72E-7 7$PC=2.67E-8 4$IPC=0.000310 5
166ER CG MR <-0.03 from GG(|q) (1980BU26); -0.05 8 FROM A2=-0.10 7,
166ER2CG A4=-0.06 16 FOR 1653G-184G(|q) (1993ADZY).
166ER CG M from EKC=0.0005 2.
166ER DG E 1654.6 15 (1967BU14)
166ER G 1837.17 3 3.95 9 E1 9.22E-4 C
166ERS G KC=0.000407 6$LC=5.37E-5 8$MC=1.172E-5 17$NC+=0.000449 7
166ERS G NC=2.73E-6 4$OC=3.96E-7 6$PC=2.25E-8 4$IPC=0.000446 7
166ER CG M from EKC=5.3E-4 25.
166ER L 1938.273 15(3)+
166ER E 0.99 8 7.58 4 0.99 8
166ERS E CK=0.8250 2$CL=0.1346 2$CM+=0.04034 4
166ER G 982.00 150.051 9
166ER G 1078.876 222.51 5 M1 0.00513 C
166ERS G KC=0.00435 6$LC=0.000612 9$MC=0.0001349 19$NC+=3.63E-5 5
166ERS G NC=3.15E-5 5$OC=4.57E-6 7$PC=2.59E-7 4
166ER CG M from EKC=0.0059 20.
166ER DG E 1080 1 (1967BU14)
166ER G 1152.350 168.20 21M1 0.00438 C
166ERS G KC=0.00371 6$LC=0.000521 8$MC=0.0001148 16$NC+=3.28E-5 5
166ERS G NC=2.68E-5 4$OC=3.89E-6 6$PC=2.21E-7 3$IPC=1.94E-6 3
166ER CG M from EKC=0.0040 14 (1979AD06,1989AD11) AND 0.0033 5
166ER2CG (1993BAZS).
166ER DG RI IG(1152.3):IG(1078.9)=55 6:6.5 30 (1967BU14)
166ER G 1673.5 4 0.078 20
166ER G 1857.62 170.10 3
166ER L 1969.71 17(2,3,4)
166ER E 0.059 11 8.78 9 0.059 11
166ERS E CK=0.8246 2$CL=0.1349 2$CM+=0.04045 5
166ER G 1704.7 3 0.17 4
166ER G 1889.12 200.14 3
166ER L 1978.432 16 (4)+
166ER G 464.5 3 0.030 8
166ER G 903.01 130.029 5
166ER G 1022.175 230.294 11
166ER G 1119.50 0.68 AP @
166ERF G FLAG=R$
166ER G 1192.516 160.880 20E2 0.00236 C
166ERS G KC=0.00198 3$LC=0.000292 4$MC=6.48E-5 9$NC+=2.17E-5 3
166ERS G NC=1.505E-5 21$OC=2.15E-6 3$PC=1.130E-7 16$IPC=4.41E-6 7
166ER CG M from EKC=0.0015 8 (1979AD06) AND 0.0020 6 (1993BAZS).
166ER L 1985.644 16 3-
166ER G 389.38 3 0.254 7 M1 0.0668
166ERS G KC=0.0563 8$LC=0.00820 12$MC=0.00182 3$NC+=0.000488 7
166ERS G NC=0.000423 6$OC=6.14E-5 9$PC=3.42E-6 5
166ER CG M from EKC=0.059 23
166ER G 413.430 180.320 10E2 0.0273
166ERS G KC=0.0212 3$LC=0.00472 7$MC=0.001086 16$NC+=0.000284 4
166ERS G NC=0.000250 4$OC=3.32E-5 5$PC=1.149E-6 16
166ER CG M from EKC=0.047 18
166ER G 471.871 230.558 13M1 0.0405
166ERS G KC=0.0342 5$LC=0.00495 7$MC=0.001094 16$NC+=0.000294 5
166ERS G NC=0.000255 4$OC=3.70E-5 6$PC=2.07E-6 3
166ER CG M from EKC=0.034 10
166ER G 527.58 100.154 5
166ER G 1720.87 200.26 3 (E1) 8.89E-4
166ERS G KC=0.000453 7$LC=5.98E-5 9$MC=1.307E-5 19$NC+=0.000363 5
166ERS G NC=3.04E-6 5$OC=4.41E-7 7$PC=2.50E-8 4$IPC=0.000360 5
166ER CG M E1,E2 from EKC=0.6E-3 4
166ER G 1905.43 230.23 6
166ER L 2001.874 16(3)-
166ER E 0.53 14 7.79 12 0.53 14
166ERS E CK=0.8242 2$CL=0.1352 2$CM+=0.04056 5
166ER G 84.11 2 0.19 5 M1 4.68 C
166ERS G KC=3.92 6$LC=0.591 9$MC=0.1311 19$NC+=0.0352 5
166ERS G NC=0.0306 5$OC=0.00442 7$PC=0.000243 4
166ER CG M from L1:L2:L3=110 11:10 1:2.5. EKC=21 9 is not consistent
166ER2CG with M1; probably IG or ICE contained a typographical error.
166ER CG E,RI from 1979AD06; NOT REPORTED IN 1989AD11.
166ER G 488.19 8 0.18 4
166ER G 543.69 3 0.387 11E2,M1 0.021 8
166ERS G KC=0.017 7$LC=0.0027 7$MC=0.00061 15$NC+=0.00016 4
166ERS G NC=0.00014 4$OC=2.0E-5 6$PC=1.0E-6 5
166ER CG M from EKC=0.025 14.
166ER G 1045.648 200.901 20E1 1.26E-3
166ERS G KC=0.001075 15$LC=0.0001447 21$MC=3.17E-5 5$NC+=8.49E-6 12
166ERS G NC=7.36E-6 11$OC=1.063E-6 15$PC=5.90E-8 9
166ER CG M from EKC=0.0018 9.
166ER G 1142.45 3 0.578 13 &
166ER CG M EKC AP 0.0010, MULT=E1 FOR DOUBLET (1993BAZS).
166ER G 1216.173 17 2.5 5 @
166ERL G FL=785.917
166ERF G FLAG=Y
166ER CG RI FROM ce-G COIN DATA (1989AD11); RI=3.72 8 FOR DOUBLET.
166ER G 1737.09 200.41 2 (E1) 8.93E-4
166ERS G KC=0.000446 7$LC=5.89E-5 9$MC=1.287E-5 18$NC+=0.000375 6
166ERS G NC=2.99E-6 5$OC=4.34E-7 6$PC=2.46E-8 4$IPC=0.000372 6
166ER CG M E1,E2 from EKC=0.7E-3 4
166ER G 1921.40 150.36 3
166ER L 2021.359 16(2,3)-
166ER E 2.56 16 7.09 3 2.56 16
166ERS E CK=0.8239 2$CL=0.1355 2$CM+=0.04064 5
166ER G 563.21 3 0.318 10E2,M1 0.019 7
166ERS G KC=0.016 6$LC=0.0025 7$MC=0.00055 14$NC+=0.00015 4
166ERS G NC=0.00013 4$OC=1.8E-5 6$PC=9.E-7 4
166ER CG M from EKC=0.015 8.
166ER G 1161.955 163.78 9 E1 1.05E-3 C
166ERS G KC=0.000888 13$LC=0.0001190 17$MC=2.60E-5 4$NC+=1.721E-5 25
166ERS G NC=6.05E-6 9$OC=8.75E-7 13$PC=4.88E-8 7$IPC=1.024E-5 15
166ER CG M from EKC=0.0012 6.
166ER G 1235.433 169.8 2 E1(+M2) +0.04 +9-6 0.0009812 C
166ERS G KC=0.00081 10$LC=0.000108 16$MC=2.4E-5 4$NC+=4.35E-5 8
166ERS G NC=5.5E-6 8$OC=8.0E-7 12$PC=4.4E-8 7$IPC=3.71E-5 8
166ER CG M FROM Adopted Gammas. E1 from EKC=0.8E-3 4 (1979AD06),
166ER2CG 0.00092 20 (1993BAZS).
166ER CG MR FROM Adopted Gammas. OTHER MR: +0.1 2 (1985DAZV), +0.05 10
166ER2CG FROM G(|q,H,T) (1995KRZX).
166ER L 2022.62 12 (4+)
166ER E 0.061 7 8.71 6 0.061 7
166ERS E CK=0.8239 2$CL=0.1355 2$CM+=0.04064 5
166ER G 1758.06 200.101 9
166ER G 1941.78 150.22 3
166ER L 2046.88 4 2+,3+
166ER E 0.147 10 8.31 4 0.147 10
166ERS E CK=0.8235 2$CL=0.13574 14$CM+=0.04074 5
166ER G 1090.70 6 0.113 6
166ER G 1187.49 4 0.560 14M1(+E2) 0.0032 9
166ERS G KC=0.0027 8$LC=0.00039 10$MC=8.6E-5 21$NC+=2.7E-5 6
166ERS G NC=2.0E-5 5$OC=2.9E-6 8$PC=1.6E-7 5$IPC=4.4E-6 5
166ER CG M FROM EKC=0.0030 7 (1993BAZS).
166ER G 1781.40 150.110 12
166ER L 2076.305 22(3-)
166ER E 0.222 15 8.10 4 0.222 15
166ERS E CK=0.8230 2$CL=0.13609 15$CM+=0.04087 6
166ER G 1119.5 0.67 AP @
166ERF G FLAG=R$
166ER G 1216.173 17 @ ?
166ERL G FL=859.399
166ERF G FLAG=Y
166ER CG RI IG must be small. Placement is uncertain.
166ER G 1290.368 220.416 11
166ER G 1810.6 5 0.10 3
166ER G 1996.10 150.041 5
166ER L 2101.6 3 (4+)
166ER E 0.024 3 9.05 6 0.024 3
166ERS E CK=0.8226 3$CL=0.13641 16$CM+=0.04098 6
166ER G 1242.2 3 0.035 7
166ER G 1315.6 8 0.090 9
166ER L 2117.8 8 (2+,3,4+)
166ER E 0.067 13 8.58 9 0.067 13
166ERS E CK=0.8223 3$CL=0.13663 17$CM+=0.04106 6
166ER G 1853.1 100.25 6
166ER G 2036.8 120.100 20
166ER L 2132.951 12 3+
166ER E 59 4 5.62 4 59 4
166ERS E CK=0.8220 3$CL=0.13684 18$CM+=0.04113 6
166ER G 130.90 202.70 25E1 0.1590
166ERS G KC=0.1328 20$LC=0.0205 3$MC=0.00453 7$NC+=0.001188 18
166ERS G NC=0.001040 16$OC=0.0001414 21$PC=6.22E-6 9
166ER CG M from L1:L2:L3=14 2:2.8 3:3.0 3 and EKC=0.20 4.
166ER G 147.301 201.79 7 E1 0.1162
166ERS G KC=0.0973 14$LC=0.01482 21$MC=0.00328 5$NC+=0.000861 12
166ERS G NC=0.000753 11$OC=0.0001029 15$PC=4.63E-6 7
166ER CG M from L1:L2:L3=2.5 3:0.5 1:0.6 1 and EKC=0.083 20.
166ER G 154.508 251.08 9 M1+E2 0.75 25 0.75 4 C
166ERS G KC=0.57 6$LC=0.140 17$MC=0.032 5$NC+=0.0085 11
166ERS G NC=0.0074 10$OC=0.00098 10$PC=3.3E-5 5
166ER CG M from L1:L2:L3=14 2:2.7 3:1.4 2 and EKC=0.54 11.
166ER CG MR FROM Adopted Gammas.
166ER G 194.678 154.0 APM1 0.433 @C
166ERF G FLAG=L$
166ERS G KC=0.364 5$LC=0.0541 8$MC=0.01199 17$NC+=0.00322 5
166ERS G NC=0.00280 4$OC=0.000404 6$PC=2.24E-5 4
166ER CG M from L1:L2:L3=43 5:3.7 4:0.55 10 and EKC=0.37 8.
166ER G 215.185 1427.7 9 E1+M2 -0.09 +7-6 0.056 23 C
166ERS G KC=0.047 18$LC=0.008 4$MC=0.0017 9$NC+=0.00045 24
166ERS G NC=0.00039 21$OC=5.E-5 3$PC=2.7E-6 15
166ER CG RI FROM 1989AD11; EG=215.185 185 14, RI=28.0 9 FOR DOUBLET.
166ER CG M from L1:L2:L3=22 3:3.7 4:4.2 5 and EKC=0.034 7.
166ER CG MR from 1985DAZV. OTHER MR: -0.04 8 FROM G(|q,H,T) (1995KRZX).
166ER G 238.581 200.187 5 M1 0.248
166ERS G KC=0.208 3$LC=0.0308 5$MC=0.00683 10$NC+=0.00184 3
166ERS G NC=0.001592 23$OC=0.000230 4$PC=1.276E-5 18
166ER CG M from EKC=0.31 9
166ER G 429.885 200.410 10M1 0.0516
166ERS G KC=0.0435 6$LC=0.00632 9$MC=0.001397 20$NC+=0.000376 6
166ERS G NC=0.000326 5$OC=4.72E-5 7$PC=2.64E-6 4
166ER CG M from EKC=0.055 21
166ER G 454.20 3 0.172 20(E2) 0.0211
166ERS G KC=0.01664 24$LC=0.00349 5$MC=0.000801 12$NC+=0.000210 3
166ERS G NC=0.000184 3$OC=2.47E-5 4$PC=9.12E-7 13
166ER CG M E1,E2 from EKC=0.009 5; DPI=NO FROM LEVEL SCHEME.
166ER G 536.67 3 0.671 18E1 0.00478
166ERS G KC=0.00406 6$LC=0.000566 8$MC=0.0001244 18$NC+=3.32E-5 5
166ERS G NC=2.88E-5 4$OC=4.12E-6 6$PC=2.18E-7 3
166ER CG M from EKC=0.0038 20.
166ER G 560.77 3 0.363 12
166ER DG E 563.2 10 (1967BU14)
166ER G 604.553 151.047 23E2 0.01025
166ERS G KC=0.00832 12$LC=0.001506 21$MC=0.000341 5$NC+=9.01E-5 13
166ERS G NC=7.88E-5 11$OC=1.083E-5 16$PC=4.67E-7 7
166ER CG M from EKC=0.0086 18.
166ER G 619.49 250.015 6 &
166ER G 674.788 2213.6 3 E1 0.00295 C
166ERS G KC=0.00251 4$LC=0.000345 5$MC=7.57E-5 11$NC+=2.02E-5 3
166ERS G NC=1.757E-5 25$OC=2.52E-6 4$PC=1.359E-7 19
166ER CG M from EKC=0.002 1.
166ER G 1057.67 4 3.66 12E2 0.00300
166ERS G KC=0.00251 4$LC=0.000379 6$MC=8.43E-5 12$NC+=2.25E-5 4
166ERS G NC=1.96E-5 3$OC=2.78E-6 4$PC=1.430E-7 20
166ER CG M from EKC=0.0024 3.
166ER G 1176.704 1650.5 10M1+E2 +0.20 4 0.004107 C
166ERS G KC=0.00347 6$LC=0.000488 8$MC=0.0001074 17$NC+=3.26E-5 5
166ERS G NC=2.51E-5 4$OC=3.64E-6 6$PC=2.06E-7 4$IPC=3.70E-6 6
166ER CG M from EKC=0.0032 2.
166ER DG E 1177.8 6 (1967BU14)
166ER CG MR WEIGHTED AVERAGE OF +0.24 4 FROM 1177G-876G(|q) (1993ADZY),
166ER2CG +0.11 7 FROM 1177G-876G(|q) (1993ADZY) AND +0.16 11 (1985DAZV).
166ER G 1273.540 1678.6 16M1+E2 -0.11 8 0.003446 C
166ERS G KC=0.00290 5$LC=0.000407 7$MC=8.96E-5 15$NC+=4.18E-5 7
166ERS G NC=2.09E-5 4$OC=3.04E-6 5$PC=1.73E-7 3$IPC=1.77E-5 3
166ER CG M from EKC=0.0029 2.
166ER CG MR -0.11 8 (1985DAZV); HOWEVER, MR=+0.30 6 FROM 1273G-778G(|q)
166ER2CG (1993ADZY).
166ER DG E 1275.3 6 (1967BU14)
166ER G 1347.035 185.79 12M1 0.00304 C
166ERS G KC=0.00255 4$LC=0.000357 5$MC=7.86E-5 11$NC+=5.56E-5 8
166ERS G NC=1.83E-5 3$OC=2.67E-6 4$PC=1.516E-7 22$IPC=3.45E-5 5
166ER CG M from EKC=0.0024 3.
166ER DG E 1348.6 8 (1967BU14)
166ER G 1867.94 3 21.4 5 M1+E2 +3.49 +10-3 1.26E-3 C
166ERS G KC=0.000878 13$LC=0.0001218 18$MC=2.68E-5 4$NC+=0.000232 4
166ERS G NC=6.24E-6 9$OC=9.02E-7 13$PC=5.01E-8 7$IPC=0.000225 4
166ER CG MR from GG(THETA) (1980BU26). Others: 3.7 +57-18 (1987KR12).
166ER2CG +4.3 +10-7 FROM 1868G-184G(|q) (1993ADZY), +3.6 +24-12 FROM G(|q,H,T)
166ER3CG (1995KRZX).
166ER CG M from EKC=0.81E-3 9.
166ER G 2052.36 3 91.0 18M1+E2 +7.0 5 1.16E-3 C
166ERS G KC=0.000723 11$LC=9.96E-5 14$MC=2.19E-5 3$NC+=0.000314 5
166ERS G NC=5.09E-6 8$OC=7.37E-7 11$PC=4.12E-8 6$IPC=0.000308 5
166ER CG MR from GG(THETA) (1980BU26). Others: +9 +19-4 (1985DAZV),
166ER2CG +6.0 +76-24 FROM G(|q,H,T) (1995KRZX).
166ER DG E 2053.7 10 (1967BU14)
166ER DG RI IG(2052.4):IG(1868):IG(1346.9):IG(1273.4):IG(1176.6):
166ER2DG IG(560.8):IG(194.7):IG(154.5):IG(131.0)=770 80:145 15:32 3:
166ER3DG 610 60:390 40:9.5 20:36 4:9.5 10:27 3 (1967BU14).
166ER CG M from EKC=0.77E-3 8.
166ER L 2160.121 14 3+
166ER E 16.2 11 6.16 4 16.2 11
166ERS E CK=0.8215 3$CL=0.13723 19$CM+=0.04127 7
166ER G 158.269 250.186 9 E1 0.0961
166ERS G KC=0.0805 12$LC=0.01218 17$MC=0.00269 4$NC+=0.000708 10
166ERS G NC=0.000619 9$OC=8.49E-5 12$PC=3.87E-6 6
166ER CG M from EKC=0.13 6
166ER G 481.33 100.089 7
166ER G 587.90 160.27 5
166ER G 631.62 100.380 10(E2) 0.00924
166ERS G KC=0.00752 11$LC=0.001336 19$MC=0.000302 5$NC+=7.98E-5 12
166ERS G NC=6.98E-5 10$OC=9.63E-6 14$PC=4.23E-7 6
166ER CG M from EKC=0.009 5.
166ER G 646.75 4 0.04 AP @
166ERL G FL=1513.760
166ERF G FLAG=TY
166ER G 1084.826 171.92 4 E2 0.00285
166ERS G KC=0.00239 4$LC=0.000359 5$MC=7.96E-5 12$NC+=2.13E-5 3
166ERS G NC=1.85E-5 3$OC=2.63E-6 4$PC=1.360E-7 19
166ER CG M from EKC=0.0024 2.
166ER G 1203.873 205.49 11M1+E2 0.0031 9 C
166ERS G KC=0.0026 7$LC=0.00038 10$MC=8.3E-5 20$NC+=2.8E-5 6
166ERS G NC=1.9E-5 5$OC=2.8E-6 7$PC=1.5E-7 5$IPC=6.1E-6 6
166ER CG M from EKC=0.0026 4.
166ER G 1300.725 167.05 14M1 0.00330 C
166ERS G KC=0.00278 4$LC=0.000388 6$MC=8.55E-5 12$NC+=4.61E-5 7
166ERS G NC=1.99E-5 3$OC=2.90E-6 4$PC=1.648E-7 23$IPC=2.31E-5 4
166ER CG M from EKC=0.0028 3.
166ER DG E 1302.5 10 (1967BU14)
166ER G 1374.194 2529.6 7 M1+E2 -0.11 4 0.002905 C
166ERS G KC=0.00242 4$LC=0.000339 5$MC=7.46E-5 11$NC+=6.24E-5 9
166ERS G NC=1.74E-5 3$OC=2.53E-6 4$PC=1.438E-7 21$IPC=4.23E-5 6
166ER CG M from EKC=0.0023 2.
166ER CG MR WEIGHTED AVERAGE OF -0.18 7 (1985DAZV) AND
166ER2CG -0.09 4 FROM 1374G-785G(|q) (1993ADZY). OTHERS:
166ER3CG +0.01 14 FROM 1374G-705G(|q) (1993ADZY), -0.34 +17-12 FROM G(|q,H,T)
166ER4CG (1995KRZX).
166ER DG E 1374.9 8 (1967BU14)
166ER G 1895.12 3 6.4 20M1+E2 +2.63 4 1.27E-3 C
166ERS G KC=0.000870 13$LC=0.0001206 17$MC=2.65E-5 4$NC+=0.000248 4
166ERS G NC=6.17E-6 9$OC=8.94E-7 13$PC=4.98E-8 7$IPC=0.000240 4
166ER CG MR from GG(|q) (1980BU26) based on %E2=87.4 and
166ER2CG %M1=12.6 3. OTHER:
166ER3CG +2.3 +6-4 FROM 1895G-184G(|q) (1993ADZY)
166ER CG M from EKC=0.76E-3 10.
166ER G 2079.53 3 33.3 7 M1+E2 +5.2 +15-5 1.16E-3 C
166ERS G KC=0.000709 11$LC=9.76E-5 15$MC=2.14E-5 4$NC+=0.000328 5
166ERS G NC=4.99E-6 8$OC=7.23E-7 11$PC=4.04E-8 6$IPC=0.000322 5
166ER CG M from EKC=0.72E-3 7.
166ER CG MR from GG(THETA) (1980BU26). Others: +10+INFNT-6 (1985DAZV),
166ER2CG +10 +|@-6 FROM G(|q,H,T) (1995KRZX).
166ER DG E 2080.9 10 (1967BU14)
166ER DG RI IG(2079.6):IG(1895.3):IG(1374.1):IG(1300.6):IG(1203.8)=
166ER2DG 270 27:42 5:200 20:52 LT:52 4 (1967BU14)
166ER L 2172.757 20 3+
166ER E 2.35 18 6.98 4 2.35 18
166ERS E CK=0.8212 3$CL=0.13742 19$CM+=0.04134 7
166ER G 659.04 200.029 6
166ER G 1097.46 5 0.302 9 E2 0.00278
166ERS G KC=0.00233 4$LC=0.000350 5$MC=7.76E-5 11$NC+=2.07E-5 3
166ERS G NC=1.80E-5 3$OC=2.57E-6 4$PC=1.329E-7 19
166ER CG M from EKC=0.0035 19
166ER G 1216.173 171.2 5 @
166ERL G FL=956.240
166ERF G FLAG=Y
166ER CG RI FROM ce-G COIN DATA (1989AD11); RI=3.72 8 FOR DOUBLET.
166ER G 1313.37 3 1.13 3 M1,E2 0.0026 7
166ERS G KC=0.0022 6$LC=0.00031 7$MC=6.8E-5 16$NC+=4.2E-5 7
166ERS G NC=1.6E-5 4$OC=2.3E-6 6$PC=1.3E-7 4$IPC=2.37E-5 23
166ER CG M from EKC=0.0014 7
166ER DG E 1315.2 15 (1967BU14)
166ER G 1907.71 6 1.82 8 E2,M1 0.0014121 C
166ERS G KC=0.00098 16$LC=0.000135 22$MC=3.0E-5 5$NC+=0.00027 3
166ERS G NC=6.9E-6 11$OC=1.00E-6 17$PC=5.7E-8 10$IPC=0.00027 3
166ER CG M from EKC=0.0015 6
166ER G 2092.13 3 8.26 18M1+E2 +3.7 +19-7 1.16E-32 C
166ERS G KC=0.000709 13$LC=9.74E-5 18$MC=2.14E-5 4$NC+=0.000336 6
166ERS G NC=4.98E-6 10$OC=7.22E-7 14$PC=4.04E-8 8$IPC=0.000331 6
166ER CG M from EKC=0.99E-3 44.
166ER CG MR from GG(THETA) (1980BU26).
166ER DG E 2094.2 10 (1967BU14)
166ER DG RI IG(2093.3):IG(1907.5):IG(1313.4)=65 7:13 4:13 4 (1967BU14)
166ER L 2212.97 12
166ER E 0.054 12 8.58 10 0.054 12
166ERS E CK=0.8203 3$CL=0.13808 21$CM+=0.04157 8
166ER G 166.26 200.020 8 &
166ER G 1256.7 3 0.047 20
166ER G 1353.27 250.050 15
166ER G 1427.06 200.14 4
166ER G 1948.2 3 0.071 8 ?
166ER L 2215.972 16 2-,3-
166ER E 3.48 21 6.76 3 3.48 21
166ERS E CK=0.8203 3$CL=0.13813 21$CM+=0.04159 8
166ER G 139.64 4 0.066 4
166ER G 194.678 0.35 APM1 0.433 @
166ERF G FLAG=L$
166ERS G KC=0.364 5$LC=0.0541 8$MC=0.01199 17$NC+=0.00322 5
166ERS G NC=0.00280 4$OC=0.000404 6$PC=2.24E-5 4
166ER G 298.207 200.95 2 M1 0.1355 C
166ERS G KC=0.1140 16$LC=0.01676 24$MC=0.00371 6$NC+=0.000998 14
166ERS G NC=0.000866 13$OC=0.0001254 18$PC=6.96E-6 10
166ER CG M from EKC=0.12 3.
166ER G 385.54 4 0.076 3 E2 0.0331
166ERS G KC=0.0255 4$LC=0.00594 9$MC=0.001372 20$NC+=0.000358 5
166ERS G NC=0.000315 5$OC=4.16E-5 6$PC=1.367E-6 20
166ER CG M from EKC=0.042 5
166ER G 619.49 250.015 6 &
166ER G 643.90 100.120 6
166ER G 702.28 102.71 7 M1 0.01475
166ERS G KC=0.01247 18$LC=0.001782 25$MC=0.000393 6$NC+=0.0001058 15
166ERS G NC=9.17E-5 13$OC=1.332E-5 19$PC=7.49E-7 11
166ER CG M from EKC=0.014 4
166ER G 757.798 1712.33 25M1 0.01220 C
166ERS G KC=0.01032 15$LC=0.001471 21$MC=0.000324 5$NC+=8.73E-5 13
166ERS G NC=7.57E-5 11$OC=1.099E-5 16$PC=6.19E-7 9
166ER CG M from EKC=0.011 3.
166ER CG MR 0.03 +18-14 if JPI=2- or +0.31 9 if JPI=3- (1985DAZV).
166ER G 1356.62 4 0.09 6
166ER CG M EKC= 0.008 6 (1993BAZS).
166ER G 1430.2 3 0.86 20
166ER G 2135.36 4 0.192 8
166ER L 2243.099 23 3-
166ER E 0.324 24 7.76 4 0.324 24
166ERS E CK=0.8196 3$CL=0.13862 23$CM+=0.04176 8
166ER G 257.36 100.017 5
166ER G 646.75 4 0.08 AP @
166ERF G FLAG=T$
166ER G 729.38 3 0.45 4 M1 0.01342
166ERS G KC=0.01135 16$LC=0.001619 23$MC=0.000357 5$NC+=9.61E-5 14
166ERS G NC=8.33E-5 12$OC=1.210E-5 17$PC=6.81E-7 10
166ER CG M from EKC=0.023 13
166ER G 1287.1 3 0.023 6
166ER G 1383.5 3 0.06 3
166ER G 1457.17 5 0.35 5 Z
166ER G 1978.12 200.43 3 E1 9.71E-4
166ERS G KC=0.000361 5$LC=4.75E-5 7$MC=1.038E-5 15$NC+=0.000552 8
166ERS G NC=2.41E-6 4$OC=3.51E-7 5$PC=1.99E-8 3$IPC=0.000549 8
166ER CG M E1,E2 from EKC=1.0E-3 6
166ER DG RI IG(1977.7):IG(2162.7)=20 8:18 5 (1967BU14)
166ER G 2162.54 5 0.278 11E1 1.04E-3
166ERS G KC=0.000313 5$LC=4.11E-5 6$MC=8.98E-6 13$NC+=0.000680 10
166ERS G NC=2.09E-6 3$OC=3.04E-7 5$PC=1.730E-8 25$IPC=0.000678 10
166ER CG M from EKC=0.29E-3 17
166ER L 2260.66 3 2(+),3
166ER E 0.188 13 7.98 4 0.188 13
166ERS E CK=0.8192 4$CL=0.13895 24$CM+=0.04188 9
166ER G 1401.16 4 0.39 3
166ER G 1474.84 4 0.593 16M1,E2 0.0021 5
166ERS G KC=0.0017 4$LC=0.00024 5$MC=5.2E-5 11$NC+=8.5E-5 10
166ERS G NC=1.2E-5 3$OC=1.8E-6 4$PC=9.9E-8 24$IPC=7.1E-5 7
166ER CG M from EKC=1.8E-3 10
166ER L 2264.31 6 (1,2+)
166ER E 0.0296 23 8.78 4 0.0296 23
166ERS E CK=0.8191 4$CL=0.13902 24$CM+=0.04191 9
166ER G 2183.68 7 0.117 7 Q(+D)
166ER CG M FROM Adopted Gammas.
166ER G 2264.34 8 0.038 3
166ER L 2273.01 3 3-
166ER E 0.46 3 7.58 4 0.46 3
166ERS E CK=0.8188 4$CL=0.13920 25$CM+=0.04197 9
166ER G 112.7 ?
166ER CG E FROM 1993BAZS.
166ER CG M M1+E2 FROM L1/L2=0.25, L2/L3=1.3 (1993BAZS).
166ER2CG HOWEVER, LEVEL SCHEME REQUIRES E1. CONSEQUENTLY, PLACEMENT IS SHOWN
166ER3CG AS UNCERTAIN HERE AND TRANSITION IS OMITTED FROM Adopted Gammas.
166ER G 225.9 5 0.007 3
166ER G 287.1 3 0.006 2
166ER G 610.8 3 0.015 6 &
166ER G 814.82 200.062 12
166ER G 1487.01 150.046 8
166ER G 2008.00 4 1.21 3 E1 9.82E-4 C
166ERS G KC=0.000353 5$LC=4.64E-5 7$MC=1.012E-5 15$NC+=0.000573 8
166ERS G NC=2.36E-6 4$OC=3.42E-7 5$PC=1.95E-8 3$IPC=0.000571 8
166ER CG M from EKC=0.44E-3 25
166ER DG E 2009.3 15 (1967BU14)
166ER G 2192.43 4 1.09 3 E1 1.06E-3
166ERS G KC=0.000307 5$LC=4.02E-5 6$MC=8.78E-6 13$NC+=0.000700 10
166ERS G NC=2.04E-6 3$OC=2.97E-7 5$PC=1.693E-8 24$IPC=0.000698 10
166ER CG M from EKC=0.40E-3 23
166ER DG RI IG(2192.6):IG(2008.2)=75 20:35 10 (1967BU14)
166ER L 2282.68 5 2(+),3
166ER E 0.086 7 8.29 4 0.086 7
166ERS E CK=0.8186 4$CL=0.1394 3$CM+=0.04204 9
166ER G 824.52 110.026 7 &
166ER G 2017.67 7 0.200 20
166ER G 2202.09 6 0.238 10E1,E2
166ER CG M from EKC=0.68E-3 37
166ER L 2290.997 25(3)+
166ER E 1.36 11 7.08 4 1.36 11
166ERS E CK=0.8183 4$CL=0.1396 3$CM+=0.04210 10
166ER G 118.18 3 0.16 5 [M1] 1.765
166ERS G KC=1.481 21$LC=0.222 4$MC=0.0492 7$NC+=0.01321 19
166ERS G NC=0.01147 16$OC=0.001657 24$PC=9.13E-5 13
166ER G 312.58 200.006 3
166ER G 832.88 7 0.051 4
166ER G 1334.74 210.042 7 M1(+E2) 0.0025 6
166ERS G KC=0.0021 5$LC=0.00030 7$MC=6.6E-5 15$NC+=4.6E-5 7
166ERS G NC=1.5E-5 4$OC=2.2E-6 6$PC=1.2E-7 4$IPC=2.8E-5 3
166ER CG M FROM EKC AP 0.0048 8 (1993BAZS).
166ER G 1431.6 3 1.8 3 C
166ER DG E 1432.5 10 (1967BU14)
166ER G 1505.00 4 4.37 10M1(+E2) -0.2 +2-3 0.0023714 C
166ERS G KC=0.00194 12$LC=0.000270 16$MC=5.9E-5 4$NC+=0.000105 4
166ERS G NC=1.39E-5 8$OC=2.02E-6 12$PC=1.15E-7 8$IPC=8.9E-5 3
166ER CG M from EKC=0.0024 10.
166ER CG MR FROM 1985DAZV.
166ER DG E 1506.6 10 (1967BU14)
166ER DG RI IG(2210.6):IG(1505):IG(1430.5)=15 6:350 40:300 50 (1967BU14)
166ER G 2026.06 110.120 20 &
166ER G 2210.49 6 0.323 12
166ER L 2328.69 9 (1,2)
166ER E 0.0066 7 9.35 5 0.0066 7
166ERS E CK=0.8172 4$CL=0.1404 3$CM+=0.04240 11
166ER G 2247.90 200.0118 19
166ER G 2328.72 100.0225 21
166ER L 2352.91 8 2(+),3
166ER E 0.025 4 8.74 8 0.025 4
166ERS E CK=0.8164 5$CL=0.1410 4$CM+=0.04262 12
166ER G 824.52 110.026 7 &
166ER G 1396.8 4 0.015 8
166ER G 1493.43 160.081 12
166ER G 2272.33 150.0228 23
166ER L 2377.77 5 1+
166ER E 0.195 12 7.81 4 0.195 12
166ERS E CK=0.8155 5$CL=0.1417 4$CM+=0.04286 13
166ER G 1518.8 9 0.026 6
166ER G 1591.77 6 0.812 18E2,M1 0.0018 4
166ERS G KC=0.0014 3$LC=0.00020 4$MC=4.4E-5 9$NC+=0.000128 14
166ERS G NC=1.03E-5 20$OC=1.5E-6 3$PC=8.4E-8 19$IPC=0.000116 12
166ER CG M from EKC=0.0026 14.
166ER G 2297.26 100.079 4 E2,M1 0.0012514
166ERS G KC=0.00066 8$LC=9.1E-5 11$MC=1.99E-5 24$NC+=0.00048 5
166ERS G NC=4.6E-6 6$OC=6.8E-7 9$PC=3.8E-8 5$IPC=0.00047 5
166ER CG M from EKC=0.0014 8.
166ER G 2377.84 8 0.100 10M1 1.37E-3
166ERS G KC=0.000682 10$LC=9.36E-5 14$MC=2.06E-5 3$NC+=0.000570 8
166ERS G NC=4.80E-6 7$OC=6.99E-7 10$PC=4.00E-8 6$IPC=0.000564 8
166ER CG M from EKC=0.0010 6.
166ER L 2382.27 4 (3)+
166ER E 0.138 11 7.96 4 0.138 11
166ERS E CK=0.8153 5$CL=0.1418 4$CM+=0.04290 13
166ER G 166.26 200.020 8 &
166ER G 868.47 120.052 9
166ER G 924.21 110.063 9
166ER G 1522.85 4 0.552 21M1(+E2) 0.0019 4
166ERS G KC=0.0016 4$LC=0.00022 5$MC=4.9E-5 10$NC+=0.000101 12
166ERS G NC=1.14E-5 23$OC=1.6E-6 4$PC=9.2E-8 22$IPC=8.8E-5 9
166ER CG M from EKC=2.4E-3 9
166ER G 1596.7 5 0.045 20
166ER L 2393.14 3 2+,3+
166ER E 0.250 19 7.68 4 0.250 19
166ERS E CK=0.8149 5$CL=0.1421 4$CM+=0.04301 13
166ER G 797.02 200.023 5
166ER G 1437.3 3 0.30 4
166ER G 1533.80 190.024 6
166ER G 1607.18 3 0.79 4 E2,M1 0.0018 4
166ERS G KC=0.0014 3$LC=0.00020 4$MC=4.3E-5 9$NC+=0.000134 15
166ERS G NC=1.01E-5 20$OC=1.5E-6 3$PC=8.2E-8 18$IPC=0.000122 13
166ER CG M from EKC=2.0E-3 11.
166ER G 2128.19 5 0.088 6
166ER G 2312.57 9 0.082 4 M1 1.38E-3
166ERS G KC=0.000726 11$LC=9.98E-5 14$MC=2.19E-5 3$NC+=0.000532 8
166ERS G NC=5.12E-6 8$OC=7.46E-7 11$PC=4.27E-8 6$IPC=0.000526 8
166ER CG M from EKC=1.5E-3 9
166ER L 2413.68 8 (2,3,4)
166ER E 0.058 8 8.29 7 0.058 8
166ERS E CK=0.8140 6$CL=0.1428 4$CM+=0.04324 14
166ER G 475.36 250.055 10
166ER G 899.80 180.020 4
166ER G 1554.33 200.030 15
166ER G 1627.8 3 0.16 3
166ER CG IF THIS IS THE SAME TRANSITION AS THE 1630G IN (N,N'G),
166ER2CG MULT=^D+Q, MR=+15 +31-5.
166ER G 2148.6 3 0.012 3
166ER CG RI there is a discrepancy. RI=0.12 3 in table 1
166ER2CG but 0.01 in table 2 of 1989AD11.
166ER G 2333.11 100.0247 25
166ER L 2435.11 10 (3,4)+
166ER E 0.090 14 8.06 7 0.090 14
166ERS E CK=0.8131 6$CL=0.1435 5$CM+=0.04349 15
166ER G 1575.65 260.14 3
166ER G 1649.19 100.33 6
166ER L 2444.16 24
166ER E 0.024 5 8.62 10 0.024 5
166ERS E CK=0.8126 6$CL=0.1438 5$CM+=0.04360 16
166ER G 1658.4 3 0.097 20
166ER G 2363.3 4 0.0186 22
166ER G 2444.0 100.0086 25
166ER L 2464.52 10 1+
166ER E 0.037 3 8.40 4 0.037 3
166ERS E CK=0.8116 7$CL=0.1445 5$CM+=0.04387 17
166ER G 2383.91 100.066 6 E2,M1 0.0012413
166ERS G KC=0.00061 7$LC=8.4E-5 10$MC=1.84E-5 21$NC+=0.00052 6
166ERS G NC=4.3E-6 5$OC=6.2E-7 8$PC=3.5E-8 5$IPC=0.00052 6
166ER CG M from EKC=6.5E-4 40
166ER G 2464.7 5 0.126 10M1 1.35E-3
166ERS G KC=0.000628 9$LC=8.62E-5 12$MC=1.89E-5 3$NC+=0.000619 9
166ERS G NC=4.42E-6 7$OC=6.44E-7 9$PC=3.69E-8 6$IPC=0.000614 9
166ER CG M E2,M1 from EKC=9E-4 5; DJ=1 FROM Adopted Gammas.
166ER L 2475.40 4 (1,2+)
166ER E 0.082 7 8.04 5 0.082 7
166ERS E CK=0.8110 7$CL=0.1449 5$CM+=0.04402 18
166ER G 1017.29 6 0.077 5
166ER G 1615.88 7 0.153 11
166ER G 1690.2 4 0.043 15
166ER G 2394.81 8 0.155 7 E2,M1 0.0012413
166ERS G KC=0.00061 7$LC=8.3E-5 9$MC=1.82E-5 21$NC+=0.00053 6
166ERS G NC=4.3E-6 5$OC=6.2E-7 7$PC=3.5E-8 5$IPC=0.00052 6
166ER CG M from EKC=0.8E-3 4
166ER L 2542.88 5
166ER E 0.077 9 7.94 6 0.077 9
166ERS E CK=0.8068 9$CL=0.1481 7$CM+=0.04513 24
166ER G 946.57 8 0.038 5
166ER G 1586.68 8 0.143 24
166ER G 1683.3 3 0.08 3
166ER G 2277.88 8 0.056 2
166ER G 2462.5 5 0.085 8
166ER L 2586.07 12(3,4)+
166ER E 0.023 14 8.4 3 0.023 14
166ERS E CK=0.8033 11$CL=0.1506 9$CM+=0.0460 3
166ER G 1629.4 3 0.15 3 &
166ER G 1726.3 5 0.021 8
166ER G 2321.18 180.0122 18
166ER G 2505.58 200.0224 18
166ER L 2600.64 4 1+
166ER E 0.12 6 7.63 22 0.12 6
166ERS E CK=0.8020 12$CL=0.1516 9$CM+=0.0464 4
166ER G 1142.45 3 0.578 13 &
166ER CG M EKC AP 0.0010, MULT=E1 FOR DOUBLET (1993BAZS).
166ER G 2520.20 100.110 7
166ER G 2600.76 200.225 25M1 1.34E-3
166ERS G KC=0.000557 8$LC=7.63E-5 11$MC=1.675E-5 24$NC+=0.000694 10
166ERS G NC=3.91E-6 6$OC=5.69E-7 8$PC=3.26E-8 5$IPC=0.000690 10
166ER CG M E2,M1 from EKC=0.7E-3 4; ^D FROM Adopted Gammas.
166ER L 2613.50 17
166ER E 0.0051 6 8.97 6 0.0051 6
166ERS E CK=0.8007 13$CL=0.1526 10$CM+=0.0467 4
166ER G 2532.3 3 0.0077 13
166ER G 2613.75 200.0188 18
166ER L 2619.6 6 (2+)
166ER E 0.008 3 8.76 17 0.008 3
166ERS E CK=0.8001 14$CL=0.1530 10$CM+=0.0469 4
166ER G 2354.6 100.009 4
166ER G 2538.8 100.0145 26
166ER G 2619.7 8 0.021 14
166ER L 2624.8 3 (1,2)
166ER E 0.0057 7 8.90 6 0.0057 7
166ERS E CK=0.7995 14$CL=0.1534 10$CM+=0.0471 4
166ER G 2544.3 3 0.0146 25
166ER G 2624.4 7 0.0150 15
166ER L 2628.5 3 (1,2)
166ER E 0.0056 8 8.90 7 0.0056 8
166ERS E CK=0.7991 14$CL=0.1537 11$CM+=0.0472 4
166ER G 2547.1 100.008 3
166ER G 2628.5 3 0.0215 21
166ER L 2632.66 17(3,4)+
166ER E 0.019 6 8.35 14 0.019 6
166ERS E CK=0.7986 15$CL=0.1541 11$CM+=0.0473 4
166ER G 1846.6 3 0.08 3
166ER G 2552.12 200.0210 16
166ER L 2671.98 17
166ER E 0.0075 10 8.66 7 0.0075 10
166ERS E CK=0.7935 19$CL=0.1579 14$CM+=0.0487 5
166ER G 2591.4 3 0.013 4
166ER G 2671.95 200.0262 19
166ER L 2679.05 18 1+
166ER E 0.070 8 7.67 6 0.070 8
166ERS E CK=0.7924 20$CL=0.1586 15$CM+=0.0489 6
166ER G 2598.2 4 0.125 25
166ER G 2679.09 200.241 18M1 1.34E-3
166ERS G KC=0.000521 8$LC=7.13E-5 10$MC=1.566E-5 22$NC+=0.000737 11
166ERS G NC=3.65E-6 6$OC=5.32E-7 8$PC=3.05E-8 5$IPC=0.000733 11
166ER CG M E2,M1 from EKC=0.7E-3 4; ^D FROM Adopted Gammas.
166ER DG RI IG(2678.8):IG(2596.8)=30 7:24 6 (1967BU14).
166ER L 2729.094 20(3,4)+
166ER E 0.358 25 6.81 5 0.358 25
166ERS E CK=0.783 3$CL=0.1654 21$CM+=0.0514 8
166ER G 143.2 6 0.013 5
166ER G 743.8 5 0.037 13
166ER G 1200.66 3 1.66 5 E2,M1 0.0032 9
166ERS G KC=0.0027 7$LC=0.00038 10$MC=8.4E-5 20$NC+=2.8E-5 6
166ERS G NC=2.0E-5 5$OC=2.8E-6 7$PC=1.6E-7 5$IPC=5.7E-6 6
166ER CG M from EKC=4.3E-3 22
166ER G 1943.6 150.06 4
166ER G 2648.50 2 0.092 6 E2,M1 0.0012312
166ERS G KC=0.00049 4$LC=6.7E-5 6$MC=1.48E-5 13$NC+=0.00066 7
166ERS G NC=3.4E-6 3$OC=5.0E-7 5$PC=2.9E-8 3$IPC=0.00065 7
166ER CG M from EKC=0.9E-3 5
166ER G 2728.9 100.0065 20
166ER L 2783.69 19 1+
166ER E 0.0121 17 8.07 8 0.0121 17
166ERS E CK=0.768 5$CL=0.177 4$CM+=0.0555 13
166ER G 610.8 3 0.015 6 &
166ER G 2703.1 4 0.0202 25
166ER G 2783.8 3 0.0351 19 M1
166ER CG M E2,M1 from EKC=0.7E-3 4; ^D FROM Adopted Gammas.
166ER L 2797.5 4 (1,2)
166ER E 0.0035 5 8.55 9 0.0035 5
166ERS E CK=0.762 6$CL=0.181 4$CM+=0.0570 15
166ER G 2716.8 4 0.0139 16
166ER G 2798.2 100.0043 18
166ER L 2811.99 11 1
166ER E 0.025 LT 7.6 GT 0.025 LT
166ERS E CK=0.756 7$CL=0.186 5$CM+=0.0588 18
166ER G 2026.06 110.120 20 &
166ER G 2732.0 100.0060 20
166ER G 2811.7 100.0041 12 D
166ER CG M FROM Adopted Gammas.
166ER L 2858.17 18(1,2)
166ER E 0.0031 4 8.28 10 0.0031 4
166ERS E CK=0.724 13$CL=0.209 10$CM+=0.067 4
166ER G 2777.56 180.0126 11
166ER G 2858.1 100.0035 15