118TE 118I B+ DECAY (13.7 M) 1985STZU 95NDS 199509 118TE H TYP=FUL$AUT=K. KITAO$CIT=NDS 75,99 (1995)$CUT=1-Feb-1993$ 118TE C 1985Sh04, 1985Sh16, 1985St29: 93NB(32S,X), 93NB(34S,X) E=175 MEV; 118TE2C on-line low temperature nuclear orientation, GG(THETA), GG coin. 118TE C 1985StZU: EG and IG from the 13.7-min+8.5-min combined source. No 118TE2C experimental details were given, but these are the same as the 118TE3C procedure described in the above references. 118TE C 1987Wa17, 1987WaZL: CE 118TE C Others: 1965An05, 1967La18, 1969Ha08, 1969La17, 1969Sp07, 1970LaZX, 118TExC 1985RiZV 118TE C The decay scheme has been extracted by evaluator from the 118TE2C 13.7-min+8.5-min combined decay scheme proposed by 1985StZU. The 118TE3C following assumptions are made in separating the two decays: 118TE4C (1) levels deexciting to 0+ levels (GS and 957.3 KEV) and 2+ 118TE5C levels (605.6 and 1150.7 KEV) are populated by feedings from the 2- 118TE6C parent, and not from the (7-) parent. 118TE7C (2) the JPI values of levels at 1820, 2150, 2573, 3000, and 3400 KEV 118TE8C are adopted as proposed in (A,2NG). These levels are populated by 118TE9C feedings from the (7-) parent, and not from the 2- parent. 118TEAC (3) levels deexciting to 6+ levels (1820 and 2150 KEV) are 118TEBC populated by feedings from the (7-) parent, and not from the 2- 118TECC parent. 118TE CE EB measurements: EB+=7000 from absorption (1965An05), 118TE2CE EB+=5500 from scin singles spectrum; also reported from GB+ coin: 118TE3CE (4300B+)(612G), (4900B+)(600G), (5450B+ 150)(605G) (1968La18), 118TE4CE (5440B+ 100)(605G) (1970BeYT) 118TE CL E From a least-squares fit to E(G's) 118TE CL J From adopted levels 118TE CG E From 1985StZU; uncertainty of 0.3 KEV was assumed (evaluator) 118TE CG E(Y) Isomeric assignment is uncertain 118TE CG E(Z) Reported in 1985Sh16 only. No intensity was given by authors 118TE CG E(W) Reported in 1985Sh16 and 1985St29. No intensity was given by 118TE2CG authors 118TE CG RI From 1985StZU. Relative to I(605.6G)=100 for the combined 118TE2CG source, unless otherwise noted. Uncertainty of 10% was assumed 118TE3CG (evaluator) 118TE CG RI(A) From IG=IG(1985StZU)-IG(8.5 MIN activity) 118TE CG TI(B) Calculated by ICE(E0)=icek(K)(E0)(1.12) for a correction 118TE2CG L1-shell contribution. Values are relative to I(606.5G)=100 118TE CG M From on-line nuclear orientation (1985StZU) unless 118TE2CG otherwise noted 118TE CG M(B) Mult confirmed by EKC value for a spurious, hypothetical 118TE2CG G in corresponding energy region: the value is greater than the 118TE3CG theoretical M2 (1987Wa17). 118I P 0.0 2- 13.7 M 5 7040 80 118TE N 0.957 5 0.957 5 1.0 1.0 118TE CN NR From I(EC+B+ to GS)=18.0 % assumed based on systematics 118TE2CN of LOGF1UT value for feeding from 2- parent to 0+ GS 118TE PN 3 118TE G 874.1 Z 118TE G 1231.2 Z 118TE G 2327.3 Z 118TE G 2648.1 W 118TE G 2769.3 Z 118TE G 2854.2 Z 118TE G 2932.9 Z 118TE L 0.0 0+ 118TE E 16.7 1.27 9.3 18.0 1U 118TES E EAV=2769 38 $CK=0.0604 24 $CL=0.0079 4 $CM+=0.00209 9 118TE L 605.56192+ 118TE E 32.8 14 1.54 9 6.87 4 34.3 15 118TES E EAV=2504 39 $CK=0.0385 17 $CL=0.00501 22 $CM+=0.00132 6 118TE CE E(B+)=5440 100 (1970BeYT), 5450 150 (1968La18) 118TE G 605.6 3 81.1 E2 A 118TE L 957.33240+ 118TE E 1.1 3 0.14 4 10.02 12 1.2 3 1U 118TES E EAV=2318 38 $CK=0.099 5 $CL=0.0130 6 $CM+=0.00342 16 118TE G 351.7 3 2.43 25 118TE G 957 0.023 3 E0 0.023 3 B 118TE CG E$1987Wa17 deduced intensity of 957G: RI=0.3 1 and EKC=0.08 2; 118TE2CG KC(M2)=0.0044. However, existence of the 957G has not been 118TE3CG confirmed by other authors 118TE L 1150.66192+ 118TE E 6.2 11 0.40 7 7.38 9 6.6 12 118TES E EAV=2243 39 $CK=0.0517 25 $CL=0.0067 4 $CM+=0.00177 9 118TE G 545.0 3 10.5 11M1+E2 +17 +27-7 118TE CG M,MR from G-linear pol (1985RiZV) 118TE G 1150.6 3 3.9 4 E2 A 118TE L 1206.25234+ 118TE E 3.9 8 0.26 5 7.55 9 4.2 8 118TES E EAV=2216 39 $CK=0.053 3 $CL=0.0070 4 $CM+=0.00183 9 118TE CE E(B+)=4900 from (B+)(600G) coin (1968La18) 118TE G 600.6 3 8.4 8 E2 A 118TE L 1481.96191+,2+ 118TE E 5.9 6 0.47 5 7.26 6 6.4 6 118TES E EAV=2084 39 $CK=0.063 4 $CL=0.0082 4 $CM+=0.00215 11 118TE G 331.0 3 0.30 3 118TE G 524.4 3 0.88 10 118TE G 876.4 3 5.86 60M1+E2 -0.58 +5-6 118TE CG M,MR from G-linear pol (1985RiZV) 118TE G 1482.0 3 0.72 7 118TE L 1517.2 3 0+ 118TE E 0.51 4 0.041 4 8.31 5 0.55 4 118TES E EAV=2067 39 $CK=0.064 4 $CL=0.0083 5 $CM+=0.00220 11 118TE G 366.5 3 0.25 3 118TE G 560 0.010 2 E0 0.010 2 B 118TE CG E$1987Wa17 deduced intensity of 560G: RI=0.3 1 and EKC=0.026 8; 118TE2CG KC(M2)=0.019. However, existence of the G has not been confirmed by 118TE3CG other authors 118TE G 911.6 3 0.32 3 118TE G 1517 0.0009 5 E0 0.0009 5 B 118TE CG E$1987Wa17 deduced intensity of 1517G: RI=0.13 4 and EKC=0.006 3; 118TE2CG KC(M2)=0.0014. However, existence of the G has not been confirmed 118TE3CG by other authors 118TE L 1661.4 4 118TE E 0.32 4 0.029 4 8.45 7 0.35 4 118TES E EAV=1999 38 $CK=0.070 4 $CL=0.0091 5 $CM+=0.00240 13 118TE G 1055.8 3 0.37 4 118TE L 1702.9 3(4)+ 118TE E 2.37 17 0.217 19 7.56 5 2.59 18 118TES E EAV=1979 38 $CK=0.072 4 $CL=0.0094 5 $CM+=0.00247 13 118TE G 496.8 3 0.82 8 M1+E2 +1.0 +3-2 A 118TE CG MR from (A,2NG) 118TE G 551.8 3 1.55 16E2 A 118TE G 1097.5 3 0.34 3 A 118TE L 1862.92241,2+ 118TE E 2.15 19 0.219 23 7.53 6 2.37 21 118TES E EAV=1903 38 $CK=0.080 5 $CL=0.0104 6 $CM+=0.00273 15 118TE G 712.5 3 0.45 5 118TE G 905.7 3 0.25 3 118TE G 1257.0 3 2.10 20 118TE L 1891.7 3(3)+ 118TE E 1.95 14 0.203 18 7.56 5 2.15 15 118TES E EAV=1889 38 $CK=0.081 5 $CL=0.0106 6 $CM+=0.00278 15 118TE G 685.2 3 0.42 4 A 118TE G 741.2 3 1.38 14M1+E2 -9.5 A 118TE CG M,MR from (A,2NG), DMR=+40-190 118TE G 1286.3 3 0.45 5 A 118TE L 1944.34253- 118TE E 7.26 6 0.79 4 6.96 4 8.05 5 118TES E EAV=1864 38 $CK=0.084 5 $CL=0.0109 6 $CM+=0.00288 16 118TE G 738.1 3 0.35 LT A 118TE G 793.7 3 0.09 LT A 118TE G 1338.8 3 8.11 LTE1+M2 +0.03 +5-7 A 118TE CG M from G-linear pol (1985RiZV) and EKC 118TE CG MR from G-linear pol. Other: -0.025 35 from GG(THETA) 118TE2CG (1985Sh04) 118TE CG $EKC=0.0002 1 (1985Sh04) 118TE L 1976.1 3 (4+) 118TE E 1.19 9 0.132 12 7.73 6 1.32 10 118TES E EAV=1849 38 $CK=0.086 5 $CL=0.0112 7 $CM+=0.00294 16 118TE G 770.0 3 0.44 4 A 118TE G 1370.4 3 0.94 9 A 118TE L 2020.4 3 118TE E 1.70 15 0.194 21 7.55 6 1.89 17 118TES E EAV=1828 38 $CK=0.088 5 $CL=0.0115 7 $CM+=0.00303 17 118TE G 869.7 3 0.30 3 118TE G 1414.9 3 1.67 17 118TE L 2229.6 3(4)+ 118TE E 0.60 5 0.080 9 7.90 6 0.68 6 118TES E EAV=1729 38 $CK=0.102 6 $CL=0.0133 8 $CM+=0.00349 20 118TE G 528.4 3 0.13 1 ? 118TE G 1023.2 3 0.56 6 118TE G 1079.0 3 0.15 2 118TE L 2285.2 4 118TE E 0.22 3 0.031 4 8.31 7 0.25 3 118TES E EAV=1703 38 $CK=0.106 6 $CL=0.0138 8 $CM+=0.00363 21 118TE G 1679.6 3 0.26 3 118TE L 2322.2 3 118TE E 0.55 4 0.079 7 7.89 5 0.63 4 118TES E EAV=1686 38 $CK=0.108 7 $CL=0.0141 9 $CM+=0.00372 22 118TE G 840.0 3 0.32 3 118TE G 1171.7 3 0.34 3 118TE L 2352.6 4 118TE E 0.17 3 0.026 4 8.37 8 0.20 3 118TES E EAV=1671 38 $CK=0.111 7 $CL=0.0144 9 $CM+=0.00381 23 118TE G 1747.0 3 0.21 3 118TE L 2372.7 4 118TE E 0.79 9 0.12 1 7.70 7 0.91 10 118TES E EAV=1662 38 $CK=0.112 7 $CL=0.0146 9 $CM+=0.00386 23 118TE G 1767.1 3 0.95 10 118TE L 2422 ? 118TE G 719.6 3 0.34 LT Y ? 118TE L 2438.0 4 118TE E 0.31 LT 0.049 LT 8.1 GT 0.36 LT 118TES E EAV=1631 38 $CK=0.118 7 $CL=0.0153 10 $CM+=0.00404 25 118TE G 1231.7 3 0.38 LT Y 118TE L 2500.6725 118TE E 1.43 10 0.239 22 7.37 6 1.67 11 118TES E EAV=1601 38 $CK=0.123 8 $CL=0.0161 10 $CM+=0.0042 3 118TE G 1018.0 3 0.36 4 118TE G 1350.3 3 0.75 8 118TE G 1895.5 3 0.63 6 118TE L 2531.5 4 118TE E 0.28 LT 0.048 LT 8.1 GT 0.33 LT 118TES E EAV=1587 38 $CK=0.126 8 $CL=0.0164 10 $CM+=0.0043 3 118TE G 1325.2 3 0.34 LT Y 118TE L 2571.0 3 118TE E 0.45 LT 0.080 LT 7.8 GT 0.53 LT 118TES E EAV=1568 38 $CK=0.129 8 $CL=0.0169 11 $CM+=0.0045 3 118TE G 626.7 3 0.14 LT Y 118TE G 1364.7 3 0.41 LT Y 118TE L 2611.4 4 118TE E 0.606 8 0.112 7 7.68 5 0.718 4 118TES E EAV=1549 38 $CK=0.133 9 $CL=0.0174 11 $CM+=0.0046 3 118TE G 1460.7 3 0.75 118TE L 2622.3 4 118TE E 0.35 3 0.066 8 7.91 6 0.42 4 118TES E EAV=1544 38 $CK=0.134 9 $CL=0.0176 11 $CM+=0.0046 3 118TE G 2016.7 3 0.44 4 118TE L 2730.3 4 118TE E 0.20 LT 0.041 LT 8.1 GT 0.24 LT 118TES E EAV=1494 38 $CK=0.146 10 $CL=0.0190 12 $CM+=0.0050 4 118TE G 1524.0 3 0.25 LT Y 118TE L 2762.0 4 118TE E 0.24 2 0.050 6 8.00 7 0.29 3 118TES E EAV=1479 38 $CK=0.149 10 $CL=0.0195 13 $CM+=0.0051 4 118TE G 2156.4 3 0.30 3 118TE L 2813.3 6 ? 118TE G 1662.6 3 0.27 3 ? 118TE L 2852.2 4 118TE E 0.54 6 0.12 2 7.59 7 0.66 7 118TES E EAV=1436 38 $CK=0.160 11 $CL=0.0209 14 $CM+=0.0055 4 118TE G 2246.6 3 0.69 7 118TE L 2862.6 4 118TE E 0.24 2 0.054 7 7.94 7 0.29 3 118TES E EAV=1432 38 $CK=0.161 11 $CL=0.0211 14 $CM+=0.0056 4 118TE G 2257.0 3 0.30 3 118TE L 3253.3325 118TE E 1.03 7 0.36 3 7.04 6 118TES E EAV=1249 38 $CK=0.220 15 $CL=0.0288 20 $CM+=0.0076 6 118TE G 1390.4 3 0.32 3 118TE G 1771.8 3 0.44 4 118TE G 2102.2 3 0.69 7 118TE L 3438.8 4 118TE E 0.35 4 0.15 2 7.38 7 0.50 5 118TES E EAV=1167 37 $CK=0.254 18 $CL=0.0333 23 $CM+=0.0088 6 118TE G 2288.1 3 0.52 5 118TE L 3602.2 6 ? 118TE G 2120.2 3 0.28 3 ?