135LA 135CE EC DECAY (17.7 H) 1975HE21,1981AB08,1974NA1108NDS 200803 135LA H TYP=FUL$AUT=BALRAJ SINGH, ALEXANDER A. RODIONOV and YURI L. KHAZOV$ 135LA2 H CIT=NDS 109, 517 (2008)$CUT=22-Jan-2008$ 135LA C 1975HE21: measured EG, IG, GG, CE 135LA C 1981AB08: measured EG, IG, CE 135LA C 1974NA11: measured EG, IG, GG(THETA), CE, CEG coin, CEG(T) 135LA C Others: 135LA C G: 1973MO22, 1969GR32, 1968AB03 (also 1969ABZX), 1967RE08, 1967GO16, 135LAxC 1965BA46, 1964TA10 135LA C GG: 1968AB03, 1964TA10 135LA C B+: 1948CH03, 1951ST03 135LA C CE: 1973MO22, 1968AB03, 1966AB05, 1965BA46, 1964TA10, 1963DZ02, 135LAxC 1958DZ10, 1958DA13 135LA C (ce)(ce) coin: 1965DZ08 135LA C (ce)G(T): 1973MO22, 1972AF03, 1972BE77, 1972AK01, 1970NA10 135LA C (ce)(ce)(T): 1972BE77 135LA C GGG coin: 1981SA09 135LA C GG(THETA): 1981BUZW, 1972ZH03 135LA C T1/2(135CE ISOTOPE): 1948CH03, 1951ST03, 1958DZ10, 1958AN39, 1959GR23, 135LA2C 1960LA07, 1963DZ02, 1964TA10, 1965BA46, 1967GO16, 1974DZZY, 1976GE10 135LA C Total decay energy of 2044 KEV 34 calculated (by ^RADLIST code) 135LA2C from level scheme agrees with the expected value of 2026 KEV 5 135LA CE Total IB+=0.38% 5 (1981SA09) 135LA CE TI$From G-ray intensity balance 135LA CG E$From 1975HE21, except as noted 135LA CG RI$Weighted average of 1981AB08, 1975HE21 and 1974NA11 135LA CG E(A)$Observed in GG coincidence spectra (1975HE21), 135LA2CG EG from level scheme 135LA CG RI(A)$From coincidence data (1975HE21) 135LA CG RI(D)$RI,ICE: average of 1981AB08 and 1975MO12 135LA CG E(B)$Observed by 1981AB08 in CE spectra only. EG from level scheme 135LA CG E(K)$Not observed by 1981AB08 135LA CG E(E)$From CE data of 1981AB08 only 135LA CG M$From ECC 135LA CG MR(D)$From subshell ratios 135LA CG ICE: weighted average of 1981AB08, 1975HE21 and 1974NA11. 135LA2CG These intensities are normalized to CEK(265.56G)=100, thus 135LA3CG should be multiplied by 0.0625 (KC(265.56G)) to scale these to 135LA4CG GAMMA-ray intensities 135LA CG ECC=ICE/RI normalized to KC(265.56)=0.0618 (^Br^Icc code) 135LA CG For penetration parameters, see 1975MO12 (also 1973MO22) 135LA CG Relative to RI(265.56G)=100, I(XKA2)=58.4 23, 135LA2CG I(XKA1)=106 3, I(XKB1)=30.9 15, I(XKB2)=7.5 3 (1981AB08) 135LA CG I(518.05G)/I(G+-)=17.7 18 (1981SA09) 135LA CL J$From adopted levels 135CE P 0.0 1/2(+) 17.7 H 3 2026 5 135LA N 0.418 7 1.0 1.0 135LA CN NR$from |S(TI of G's to GS)=100. No direct EC feeding to GS 135LA2CN (DJ=2,DPI=no) is expected 135LA PN 3 135LA G 65.0 3 0.014 5 K ? 135LA G 123.8 3 0.013 7 K ? 135LA G 278.2 135LA CG CEK=0.14 4 (1981AB08) 135LA G 312.9 4 0.09 5 (D,E2) 135LA DG CEK=0.028 10 135LA CG EKC=0.020 12 135LA G 357.7 E 135LA CG CEK=0.028 10 (1981AB08) 135LA G 455.1 E 135LA CG CEK=0.021 10 (1981AB08) 135LA G 571.0 2 0.23 5 M1,E2 0.0088 16 135LAS G KC=0.0075 14$LC=0.00102 13$MC=0.000213 25$NC+=5.5E-5 7 135LAS G NC=4.7E-5 6$OC=7.5E-6 10$PC=5.6E-7 12 135LA DG CEK=0.035 11 135LA CG EKC=0.010 4 135LA G 590.0 8 0.09 5 135LA G 750.8 2 0.018 5 135LA G 924.8 E 135LA CG CEK=0.014 4 (1981AB08) 135LA G 969.0 E 135LA CG CEK AP 0.011 (1981AB08) 135LA G 1258.4 6 0.09 5 135LA G 1376.7 4 0.016 5 135LA G 1541.9 7 0.015 7 135LA L 0.0 5/2+ 135LA L 119.534 14 7/2+ 4.0 NS 1 135LA CL T$average of 4.12 NS 10 (1974NA11) and 3.9 NS 1 (1972BE77). 135LA2CL Other: 4.8 NS 8 (1972AF03) 135LA G 119.52 2 3.1 2 M1+E2 0.22 1 0.670 DC 135LAS G KC=0.563 8$LC=0.0845 15$MC=0.0177 3$NC+=0.00454 8 135LAS G NC=0.00388 7$OC=0.000619 11$PC=4.32E-5 6 135LA DG CEK=29.0 20, CEL1=3.6 2, CEL2=0.49 3, CEL3=0.31 3 135LA CG EKC=0.59 5, EL1C=0.073 7, EL2C=0.0099 9, EL3C=0.0062 7 135LA DG PENETRATION PARAMETER LAMBDA(M1)=2.5 50 (1975MO12). 135LA L 206.504 11 5/2+ 0.52 NS 3 135LA CL T$average of 0.55 NS 5 (1974NA11) and 0.48 NS 3 (1972BE77). 135LA2CL Other: 0.68 NS 14 (1972AF03) 135LA G 86.97 3 1.00 3 M1+E2 0.53 3 1.98 5 D 135LAS G KC=1.476 23$LC=0.395 20$MC=0.086 5$NC+=0.0212 11 135LAS G NC=0.0184 9$OC=0.00274 13$PC=0.0001049 15 135LA CG MR$from simultaneous fitting of EKC, EL3C and K/L2 (1975MO12) 135LA2CG with EKC=1.26 9, EL2C=0.112 9, EL3C=0.118 10 135LA DG CEK=23.3 15, CEL2=2.09 15, CEL3=2.18 15 135LA DG AVERAGE CE'S GIVE EKC=1.46 9, EL2C=0.130 10, EL3C=0.136 10 135LA2DG IN AGREEMENT WITH VALUES FROM 1975MO12 135LA CG E$86.87 5 (1974NA11) 135LA CG Penetration parameter LAMBDA(M1)=14.5 55 (1975MO12). 135LA2CG Other: 1973MO22 135LA G 206.50 2 18.6 5 M1+E2 +0.30 4 0.1446 C 135LAS G KC=0.1226 18$LC=0.0174 4$MC=0.00363 8$NC+=0.000933 19 135LAS G NC=0.000796 17$OC=0.0001280 25$PC=9.36E-6 14 135LA DG CEK=36.7 15 135LA CG EKC=0.124 9; L1/L2=9.7 10, L1/L3=16.9 25, 135LA2CG L2/L3=1.74 30 (1974NA11); K/L=6.9 10, K/M=32 7 (1975HE21) 135LA CG MR$from GG(THETA) (1972ZH03,1981BUZW) and subshell ratios 135LA DG PENETRATION PARAMETER LAMBDA(M1)=2.5 35 (1975MO12). 135LA L 265.546 11 3/2+ 0.08 NS LT 135LA CL T from 1974NA11. Other: 1972BE77 135LA E 0.027 LT 2.7 LT 7.6 GT 2.7 LT ? 135LAS E EAV=338.2 22 $CK=0.8283 $CL=0.1156 $CM+=0.03255 135LA CE IB$0.019 +8-19 (1981SA09) from G(G+-) triple coin. 135LA G 59.038 20 0.20 1 M1+E2 0.19 4 5.25 16 135LAS G KC=4.24 6$LC=0.80 10$MC=0.169 22$NC+=0.043 6 135LAS G NC=0.037 5$OC=0.0057 7$PC=0.000327 5 135LA DG CEK=12.0 15, CEL1=1.8 4, CEL2=0.42 11 135LA CG E$from 1974NA11. EG=59.03 5 (1975HE21) 135LA CG EKC=3.8 6, EL1C=0.55 10, EL2C=0.13 3 135LA CG MR$from subshell ratios (1981AB08). MR LT 0.05 from 135LA2CG L1/L2 GT 11 (1974NA11) 135LA CG RI$from 1981AB08. RI=0.055 9 (1975HE21) 135LA G 145.97 4 0.02 AP(E2) 0.525 135LAS G KC=0.375 6$LC=0.1177 17$MC=0.0257 4$NC+=0.00630 9 135LAS G NC=0.00548 8$OC=0.000799 12$PC=2.19E-5 3 135LA DG CEK=0.12 4 135LA CG M$EKC AP 0.4 gives M1,E2; adopted DJPI requires E2 135LA CG E$from 1981AB08 135LA G 265.56 2 100 3 M1+E2 +0.32 3 0.0726 C 135LAS G KC=0.0618 9$LC=0.00854 13$MC=0.00178 3$NC+=0.000458 7 135LAS G NC=0.000390 6$OC=6.30E-5 10$PC=4.72E-6 7 135LA DG CEK=100.0 20 135LA CG L1/L2=11.1 6, L1/L3=22.4 20, L2/L3=2.0 3 (1974NA11); 135LA2CG K/L=7.9 9, K/M=25 3 (1975HE21) 135LA CG MR$from GG(THETA) (1972ZH03,1981BUZW) and subshell ratios 135LA DG PENETRATION PARAMETER LAMBDA(M1)=4 5 (1975MO12). 135LA L 300.053 11 1/2+ 0.08 NS LT 135LA CL T$from 1974NA11. Other: 1972BE77 135LA E 1727 3 0.36 6 14.4 9 6.80 3 14.7 9 135LAS E EAV=323.2 22 $CK=0.8313 $CL=0.1161 $CM+=0.03270 135LA CE E$EB=705 3 (1976GAZI), 694 13 (1981SA09) 135LA CE IB$0.36% +7-5 (1981SA09) from G(G+-) triple coin. 135LA G 34.508 17 3.9 3 M1(+E2) 0.013 13 3.55 8 D 135LAS G LC=2.81 6$MC=0.585 14$NC+=0.151 4 135LAS G NC=0.129 3$OC=0.0208 5$PC=0.001593 23 135LA CG E$from 1974NA11. EG=34.52 3 (1975HE21) 135LA DG CEL=190 15 135LA CG ELC=3.0 3; L1/L2=11.5 8, L1/L3=39 12, L2/L3=3.4 11 (1974NA11) 135LA G 93.5 0.004 2 B 135LA CG RI$from CEK=0.11 4, and mult=[E2] 135LA G 300.07 2 56.3 8 E2 0.0469 C 135LAS G KC=0.0379 6$LC=0.00710 10$MC=0.001512 22$NC+=0.000379 6 135LAS G NC=0.000327 5$OC=5.00E-5 7$PC=2.53E-6 4 135LA DG CEK=35.0 7 135LA CG EKC=0.039 1; L1/L2=2.56 12, L1/L3=3.23 12, 135LA2CG L2/L3=1.26 5 (1974NA11); K/L=5.1 7, K/M=20 3 (1975HE21) 135LA CG M$from subshell ratios, MR(E2/M1) GT 5 135LA L 583.9 5 9/2+ ? 135LA G 583.9 5 0.11 3 ? 135LA L 604.564 13 3/2+,5/2+ 135LA E 0.26 16 8.4 3 0.26 16 ? 135LAS E CK=0.8451 $CL=0.1191 $CM+=0.03356 135LA G 304.58 4 0.15 1 M1,E2 0.048 4 C 135LAS G KC=0.040 4$LC=0.0062 5$MC=0.00131 13$NC+=0.00033 3 135LAS G NC=0.000286 24$OC=4.51E-5 25$PC=2.9E-6 5 135LA DG CEK=0.11 4 135LA CG EKC=0.046 17 135LA G 339.1 0.06 2 B ? 135LA CG RI$from CEK=0.032 10 and mult=[M1] 135LA G 398.05 5 1.19 4 M1(+E2) 1.5 LT 0.0235 20 C 135LAS G KC=0.0199 20$LC=0.00280 7$MC=0.000585 11$NC+=0.000150 4 135LAS G NC=0.000128 3$OC=2.06E-5 8$PC=1.49E-6 19 135LA DG CEK=0.38 3 135LA CG EKC=0.020 2 135LA G 485.02 6 0.50 5 M1,E2 0.0133 22 C 135LAS G KC=0.0113 20$LC=0.00159 14$MC=0.00033 3$NC+=8.5E-5 8 135LAS G NC=7.2E-5 6$OC=1.16E-5 12$PC=8.4E-7 18 135LA DG CEK=0.088 18 135LA CG EKC=0.011 2 135LA G 604.56 3 6.7 3 M1,E2 0.0076 14 C 135LAS G KC=0.0065 13$LC=0.00088 12$MC=0.000183 23$NC+=4.7E-5 7 135LAS G NC=4.0E-5 5$OC=6.5E-6 9$PC=4.8E-7 11 135LA DG CEK=0.9 2 135LA CG EKC=0.008 3 135LA L 665.557 17 5/2+ 135LA E 0.4 LT 8.2 GT 0.4 LT ? 135LAS E CK=0.8458 $CL=0.1194 $CM+=0.03367 135LA G 60.9 0.027 6 E2(+M1) 0.6 GT 9 3 135LAF G FLAG=BD$ 135LAS G KC=4.3 3$LC=4.0 20$MC=0.9 5$NC+=0.21 11 135LAS G NC=0.19 10$OC=0.026 13$PC=0.000260 25 135LA CG CEK=1.6 3, CEL1=0.18 4, CEL2 GT 0.3 (1981AB08) 135LA CG RI$from CEK and MR(E2/M1) 135LA G 365.3 0.07 3 B ? 135LA CG RI$from CEK=0.021 7 and mult=[E2] 135LA G 400.02 8 0.76 3 E2(+M1) 1 GT 0.020915 C 135LAS G KC=0.0175 14$LC=0.00270 6$MC=0.000568 10$NC+=0.000144 3 135LAS G NC=0.0001237 24$OC=1.95E-5 6$PC=1.25E-6 14 135LA DG CEK=0.21 1 135LA CG EKC=0.017 2 135LA G 459.08 4 0.28 3 M1,E2 0.0154 24 C 135LAS G KC=0.0131 22$LC=0.00185 14$MC=0.000386 25$NC+=9.9E-5 8 135LAS G NC=8.4E-5 6$OC=1.35E-5 12$PC=9.7E-7 20 135LA DG CEK=0.049 11 135LA CG EKC=0.012 3 135LA DG RI$ 10% UNCERTAINTY ASSIGNED BY EVALUATOR 135LA DG RI$ RI(459.08G+459.1G)=0.31 3 IN SINGLES (1975HE11) 135LA G 546.00 3 1.56 6 M1(+E2) 0.35 LT 0.0113125 C 135LAS G KC=0.00971 22$LC=0.001265 23$MC=0.000262 5$NC+=6.77E-5 13 135LAS G NC=5.76E-5 11$OC=9.39E-6 18$PC=7.41E-7 18 135LA DG CEK=0.27 2 135LA CG EKC=0.0108 11 135LA G 665.6 0.5 1 M1,E2 0.0060 11 AC 135LAS G KC=0.0051 10$LC=0.00069 10$MC=0.000143 20$NC+=3.7E-5 6 135LAS G NC=3.1E-5 5$OC=5.1E-6 8$PC=3.8E-7 9 135LA DG CEK=0.053 18 135LA CG EKC=0.007 3 135LA DG RI$ RI(665.6G+665.79G)=7.8 5 IN SINGLES (1975HE11) 135LA L 712.35 9 (3/2-,5/2-) 135LA G 712.35 9 0.072 12 C 135LA L 783.601 11 3/2+ 135LA E 0.0052 6 30.1 9 6.21 2 30.1 9 135LAS E EAV=110.0 23 $CK=0.8460 $CL=0.1200 $CM+=0.03386 135LA G 118.03 2 0.90 5 M1+E2 0.27 5 0.704 15 DC 135LAS G KC=0.587 10$LC=0.093 6$MC=0.0195 13$NC+=0.0050 3 135LAS G NC=0.0042 3$OC=0.00067 4$PC=4.47E-5 7 135LA DG CEK=8.4 4, CEL1=1.23 14, CEL2=0.21 4, CEL3 AP 0.11 135LA CG EKC=0.58 5, EL1C=0.087 10, EL2C=0.015 3, EL3C AP 0.008; 135LA2CG L1/L2=10.5 40 (1974NA11) 135LA DG PENETRATION PARAMETER LAMBDA(M1)=5 9 (1975MO12). 135LA G 179.05 4 0.07 1 M1,E2 0.235 25 C 135LAS G KC=0.188 8$LC=0.037 14$MC=0.008 3$NC+=0.0020 7 135LAS G NC=0.0017 7$OC=0.00026 9$PC=1.30E-5 11 135LA DG CEK=0.21 4 135LA CG EKC=0.19 4 135LA G 483.58 3 4.45 12M1(+E2) 0.4 LT 0.0153 4 C 135LAS G KC=0.0131 4$LC=0.00172 3$MC=0.000356 7$NC+=9.20E-5 17 135LAS G NC=7.82E-5 14$OC=1.274E-5 24$PC=1.00E-6 3 135LA DG CEK=1.05 7 135LA CG EKC=0.015 2 135LA G 518.05 2 32.6 12M1+E2 +0.46 3 0.0124419 C 135LAS G KC=0.01066 17$LC=0.001413 21$MC=0.000293 5$NC+=7.56E-5 11 135LAS G NC=6.44E-5 10$OC=1.046E-5 16$PC=8.08E-7 13 135LA DG CEK=6.1 3, CEL=0.78 7, CEM=0.15 2 135LA CG EKC=0.0117 7, ELC=0.00150 14, EMC=0.00029 4 135LA CG MR$from GG(THETA) (1981BUZW) and EKC 135LA G 577.09 2 12.3 4 M1+E2 -0.30 1 0.00978 C 135LAS G KC=0.00840 12$LC=0.001094 16$MC=0.000227 4$NC+=5.86E-5 9 135LAS G NC=4.98E-5 7$OC=8.12E-6 12$PC=6.39E-7 9 135LA DG CEK=1.74 9 135LA CG EKC=0.0088 6 135LA CG MR$from GG(THETA) (1972ZH03,1981BUZW) and EKC 135LA G 663.8 2 0.21 5 (E2) 0.00492 135LAS G KC=0.00417 6$LC=0.000595 9$MC=0.0001243 18$NC+=3.18E-5 5 135LAS G NC=2.71E-5 4$OC=4.33E-6 6$PC=3.01E-7 5 135LA DG CEK LE 0.014 135LA CG M$EKC LE 0.004 gives E2, E1; adopted DJPI requires E2 135LA G 783.59 2 25.4 8 M1(+E2) 0.25 LT 0.004748 C 135LAS G KC=0.00408 7$LC=0.000523 9$MC=0.0001080 18$NC+=2.80E-5 5 135LAS G NC=2.38E-5 4$OC=3.88E-6 7$PC=3.10E-7 6 135LA DG CEK=1.77 9 135LA CG EKC=0.0044 3; K/L=7.7 10, K/M=42 21 (1975HE21) 135LA L 786.8 6 11/2- ? 135LA G 202.9 2 0.08 2 E1 0.0336 ? 135LAS G KC=0.0288 5$LC=0.00378 6$MC=0.000781 12$NC+=0.000199 3 135LAS G NC=0.0001702 25$OC=2.72E-5 4$PC=1.91E-6 3 135LA DG CEK=0.07 2 135LA CG MR$EKC=0.054 20 gives MR(M2/E1)=0.2 1. G(THETA) in (HI,XNG) 135LA2CG indicates DJ=1, dipole 135LA L 828.372 13 3/2+ 135LA E 5.2 2 6.93 2 5.2 2 135LAS E CK=0.8458 $CL=0.1202 $CM+=0.03393 135LA G 115.7 2 0.052 7 E1 0.1571 ? 135LAS G KC=0.1342 20$LC=0.0182 3$MC=0.00377 6$NC+=0.000953 15 135LAS G NC=0.000816 13$OC=0.0001284 19$PC=8.36E-6 13 135LA DG CEK=0.11 4 135LA CG EKC=0.13 5 135LA G 162.5 2 0.06 1 M1,E2 0.32 5 C 135LAS G KC=0.251 16$LC=0.054 22$MC=0.011 5$NC+=0.0029 12 135LAS G NC=0.0025 11$OC=0.00038 14$PC=1.71E-5 13 135LA DG CEK=0.28 7 135LA CG EKC=0.29 8 135LA G 223.8 0.05 AP AC 135LA G 528.35 3 0.30 2 M1 0.01247 C 135LAS G KC=0.01072 15$LC=0.001389 20$MC=0.000287 4$NC+=7.44E-5 11 135LAS G NC=6.32E-5 9$OC=1.032E-5 15$PC=8.20E-7 12 135LA DG CEK=0.062 10 135LA CG EKC=0.013 2 135LA G 562.79 4 0.35 3 M1,E2 0.0091 16 C 135LAS G KC=0.0077 15$LC=0.00106 13$MC=0.000221 25$NC+=5.7E-5 7 135LAS G NC=4.8E-5 6$OC=7.8E-6 11$PC=5.8E-7 13 135LA DG CEK=0.045 7 135LA CG EKC=0.008 2 135LA G 621.85 2 0.94 6 M1(+E2) 1.2 LT 0.0076 8 C 135LAS G KC=0.0065 7$LC=0.00086 7$MC=0.000179 13$NC+=4.6E-5 4 135LAS G NC=3.9E-5 3$OC=6.4E-6 6$PC=4.9E-7 6 135LA DG CEK=0.099 5 135LA CG EKC=0.0066 7 135LA G 828.38 2 12.3 4 M1(+E2) 0.4 LT 0.0041011 C 135LAS G KC=0.00353 10$LC=0.000452 11$MC=9.35E-5 22$NC+=2.42E-5 6 135LAS G NC=2.06E-5 5$OC=3.36E-6 8$PC=2.68E-7 8 135LA DG CEK=0.74 3 135LA CG EKC=0.0037 2. K/L=7.0 10, K/M=28 14 (1975HE21) 135LA L 872.313 13 (1/2)+ 135LA E 33.7 9 6.09 2 33.7 9 135LAS E CK=0.8455 $CL=0.1205 $CM+=0.03400 135LA G 43.9 0.09 1 M1+E2 0.13 3 12.2 4 B 135LAS G KC=9.91 14$LC=1.83 23$MC=0.39 6$NC+=0.098 13 135LAS G NC=0.084 11$OC=0.0131 15$PC=0.000779 12 135LA CG CEK=14.0 18, CEL1=1.8 4, CEL2=0.42 11 (1981AB08) 135LA CG RI$from CEK and MR(E2/M1) 135LA G 88.71 2 1.39 4 M1+E2 0.07 3 1.531 23 D 135LAS G KC=1.303 19$LC=0.181 5$MC=0.0377 11$NC+=0.0097 3 135LAS G NC=0.00827 24$OC=0.00134 4$PC=0.0001014 15 135LA DG CEK=31.5 15, CEL1=3.7 4, CEL2=0.40 7, CEL3=0.10 4 135LA CG EKC=1.42 9, EL1C=0.166 17, EL2C=0.018 3, EL3C=0.0045 18 135LA DG PENETRATION PARAMETER LAMBDA(M1)=2.5 45 (1975MO12). 135LA G 267.76 3 1.49 9 E2(+M1) 1.3 GT 0.0683 12 C 135LAS G KC=0.0553 16$LC=0.0102 5$MC=0.00218 12$NC+=0.00055 3 135LAS G NC=0.000471 24$OC=7.2E-5 3$PC=3.76E-6 23 135LA DG CEK=1.2 2 135LA CG EKC=0.049 8 135LA G 572.26 2 24.8 8 M1 0.01024 C 135LAS G KC=0.00880 13$LC=0.001137 16$MC=0.000235 4$NC+=6.09E-5 9 135LAS G NC=5.18E-5 8$OC=8.45E-6 12$PC=6.72E-7 10 135LA DG CEK=3.6 3 135LA CG M$EKC=0.0091 8 gives MR(E2/M1) LT 0.6 (assuming no E0), DJPI 135LA2CG requires M1 135LA CG (572G)(300G)(THETA): A2=+0.005 17 (1974NA11) 135LA G 606.76 2 45.0 13M1+E2 -0.37 2 0.0085413 C 135LAS G KC=0.00734 11$LC=0.000957 14$MC=0.000198 3$NC+=5.12E-5 8 135LAS G NC=4.35E-5 7$OC=7.09E-6 11$PC=5.57E-7 9 135LA DG CEK=5.5 4 135LA CG EKC=0.0076 7 135LA CG MR$from GG(THETA) (1972ZH03,1981BUZW) and EKC 135LA G 665.79 6 7.2 5 E2 0.00489 C 135LAS G KC=0.00414 6$LC=0.000591 9$MC=0.0001233 18$NC+=3.15E-5 5 135LAS G NC=2.69E-5 4$OC=4.30E-6 6$PC=2.99E-7 5 135LA DG CEK=0.49 7 135LA CG EKC=0.0043 6. K/L=7.1 10, K/M=49 20 (1975HE21) 135LA CG M$from GG(THETA) and EKC 135LA L 984.359 14 3/2+ 135LA E 2.78 8 7.08 2 2.78 8 135LAS E CK=0.8447 $CL=0.1211 $CM+=0.03422 135LA G 112.0 0.020 7 B 135LA CG RI$from CEK=0.21 7 and mult=[M1] 135LA G 156.0 0.02 APM1,E2 0.36 6 AC 135LAS G KC=0.284 20$LC=0.06 3$MC=0.013 6$NC+=0.0033 15 135LAS G NC=0.0029 13$OC=0.00044 18$PC=1.93E-5 14 135LA DG CEK=0.12 4 135LA CG EKC AP 0.4 2 135LA G 200.76 4 0.114 10(M1,E2) 0.165 11 C 135LAS G KC=0.1336 23$LC=0.025 8$MC=0.0053 17$NC+=0.0013 4 135LAS G NC=0.0011 4$OC=0.00018 5$PC=9.3E-6 10 135LA DG CEK=0.42 7 135LA CG M$EKC=0.23 6 exceeds KC(M1) and KC(E2) 135LA G 318.82 8 0.083 9 C 135LA G 379.79 3 3.7 1 M1(+E2) 0.7 LT 0.0277 11 C 135LAS G KC=0.0236 11$LC=0.00321 5$MC=0.000668 10$NC+=0.000172 3 135LAS G NC=0.0001466 21$OC=2.37E-5 4$PC=1.79E-6 11 135LA DG CEK=1.5 1, CEL=0.20 3 135LA CG EKC=0.025 2, ELC=0.0034 6 135LA G 684.33 3 0.91 4 M1(+E2) 1 LT 0.0061 6 C 135LAS G KC=0.0052 5$LC=0.00069 5$MC=0.000142 10$NC+=3.7E-5 3 135LAS G NC=3.12E-5 21$OC=5.1E-6 4$PC=4.0E-7 4 135LA DG CEK=0.080 8 135LA CG EKC=0.0055 7 135LA G 718.82 3 0.97 4 M1+E2 +0.18 5 0.00582 C 135LAS G KC=0.00501 8$LC=0.000644 10$MC=0.0001331 20$NC+=3.44E-5 6 135LAS G NC=2.93E-5 5$OC=4.78E-6 8$PC=3.81E-7 6 135LA DG CEK=0.075 7 135LA CG EKC=0.0048 5 135LA CG MR$from GG(THETA) (1981BUZW) and EKC 135LA G 777.89 3 0.87 5 M1+E2 0.9 +13-6 0.0042 6 C 135LAS G KC=0.0036 5$LC=0.00047 6$MC=9.8E-5 11$NC+=2.5E-5 3 135LAS G NC=2.15E-5 25$OC=3.5E-6 5$PC=2.7E-7 5 135LA DG CEK=0.050 7 135LA CG EKC=0.0036 5 135LA G 984.30 3 0.20 2 E2(+M1) 2.5 GT 0.002037 C 135LAS G KC=0.00174 6$LC=0.000231 7$MC=4.78E-5 14$NC+=1.23E-5 4 135LAS G NC=1.05E-5 3$OC=1.70E-6 5$PC=1.28E-7 5 135LA DG CEK=0.0049 6 135LA CG EKC=0.0015 3 135LA L 993.43 6 1/2+,3/2+,5/2+ 135LA E 0.011 6 9.3 2 0.011 6 ? 135LAS E CK=0.8446 $CL=0.1212 $CM+=0.03424 135LA G 281 0.01 AP A? ? 135LA G 693.4 0.02 AP A? 135LA G 727.9 0.15 AP(M1,E2) 0.0048 9 AC 135LAS G KC=0.0041 8$LC=0.00055 9$MC=0.000114 17$NC+=2.9E-5 5 135LAS G NC=2.5E-5 4$OC=4.0E-6 7$PC=3.1E-7 7 135LA DG CEK LT 0.007 135LA CG M$EKC LT 0.003 gives ^D,E2; but adopted DPI requires M1,E2 135LA DG RI$ RI(727.9G+727.1G+727.0G+728.5G)=0.25 3 IN SINGLES (1975HE11) 135LA G 993.4 0.03 AP AC 135LA DG RI$ RI(993.4G+994.7G)=0.051 IN SINGLES (1975HE11) 135LA L 1038.52 2 3/2+,5/2+ 135LA E 0.09 3 8.6 2 0.09 3 ? 135LAS E CK=0.8442 $CL=0.1215 $CM+=0.03434 135LA G 210.2 0.03 AP AC 135LA G 326.2 0.03 AP AC 135LA G 434.0 0.02 AP AC 135LA G 738.46 6 0.095 9 (M1,E2) 0.0047 9 C 135LAS G KC=0.0040 8$LC=0.00053 8$MC=0.000110 16$NC+=2.8E-5 5 135LAS G NC=2.4E-5 4$OC=3.9E-6 7$PC=3.0E-7 7 135LA DG CEK=0.011 4 135LA CG M$EKC=0.007 3 exceeds KC(M1) and KC(E2) 135LA G 773.0 0.31 3 (M1,E2) 0.0042 8 AC 135LAS G KC=0.0036 7$LC=0.00047 8$MC=9.8E-5 15$NC+=2.5E-5 4 135LAS G NC=2.2E-5 4$OC=3.5E-6 6$PC=2.7E-7 6 135LA DG CEK=0.07 1 135LA CG EKC AP 0.005 135LA DG CEK: 773-KEV MULTIPLET 135LA DG RI$ 10% UNCERTAINTY ASSIGNED BY EVALUATOR 135LA G 832.1 2 0.09 3 C 135LA G 1038.48 4 0.12 2 M1 0.00247 C 135LAS G KC=0.00213 3$LC=0.000270 4$MC=5.57E-5 8$NC+=1.443E-5 21 135LAS G NC=1.226E-5 18$OC=2.01E-6 3$PC=1.611E-7 23 135LA DG CEK=0.0052 6 135LA CG EKC=0.0027 5 135LA DG RI$ RI(773.0G+773.9G)=0.85 5 IN SINGLES (1975HE11) 135LA L 1171.418 11 3/2+ 135LA E 8.5 3 6.41 2 8.5 3 135LAS E CK=0.8427 $CL=0.1226 $CM+=0.03471 135LA G 132.88 3 0.27 3 M1 0.484 C 135LAS G KC=0.413 6$LC=0.0558 8$MC=0.01159 17$NC+=0.00299 5 135LAS G NC=0.00255 4$OC=0.000414 6$PC=3.22E-5 5 135LA DG CEK=1.65 7 135LA CG M,MR$from EKC=0.38 5. L1/L2 GT 12 and L1/L3 GT 12 (1974NA11) 135LA G 177.99 6 0.14 1 M1,E2 0.24 3 C 135LAS G KC=0.191 8$LC=0.038 14$MC=0.008 3$NC+=0.0021 8 135LAS G NC=0.0018 7$OC=0.00027 9$PC=1.32E-5 12 135LA DG CEK=0.42 7 135LA CG EKC=0.19 3; K/L1=4 1 135LA G 187.21 9 0.05 1 M1,E2 0.205 18 C 135LAS G KC=0.164 5$LC=0.032 11$MC=0.0068 24$NC+=0.0017 6 135LAS G NC=0.0015 5$OC=0.00023 7$PC=1.14E-5 11 135LA DG CEK=0.11 4 135LA CG EKC=0.14 5 135LA CG E$from 1981AB08. EG=188.0 2 (1975HE21) 135LA G 299.11 3 3.0 3 M1,E2 0.050 3 C 135LAS G KC=0.042 4$LC=0.0066 6$MC=0.00139 14$NC+=0.00035 3 135LAS G NC=0.00030 3$OC=4.8E-5 3$PC=3.0E-6 5 135LA DG CEK=0.21 4 135LA CG EKC=0.044 9 135LA G 343.01 4 0.25 2 M1(+E2) 1.8 LT 0.0348 25 C 135LAS G KC=0.029 3$LC=0.00430 11$MC=0.00090 3$NC+=0.000230 6 135LAS G NC=0.000197 6$OC=3.14E-5 5$PC=2.2E-6 3 135LA DG CEK=0.12 1 135LA CG EKC=0.030 3 135LA G 387.81 3 1.45 3 M1(+E2) 0.3 LT 0.0269 5 C 135LAS G KC=0.0231 4$LC=0.00305 5$MC=0.000633 9$NC+=0.0001634 23 135LAS G NC=0.0001390 20$OC=2.26E-5 4$PC=1.77E-6 4 135LA DG CEK=0.57 4, CEL=0.07 2 135LA CG EKC=0.025 2, ELC=0.003 1 135LA G 459.1 0.03 AP AC 135LA G 505.92 8 0.126 10(M1) 0.01389 C 135LAS G KC=0.01193 17$LC=0.001549 22$MC=0.000321 5$NC+=8.29E-5 12 135LAS G NC=7.05E-5 10$OC=1.151E-5 17$PC=9.13E-7 13 135LA DG CEK=0.042 13 135LA CG M$EKC=0.021 6 exceeds KC(M1) 135LA G 566.87 2 1.45 6 M1(+E2) 1 LT 0.0097 8 C 135LAS G KC=0.0083 8$LC=0.00110 7$MC=0.000229 13$NC+=5.9E-5 4 135LAS G NC=5.0E-5 3$OC=8.2E-6 6$PC=6.3E-7 7 135LA DG CEK=0.20 2 135LA CG EKC=0.0086 9 135LA G 871.35 2 7.9 3 M1(+E2) 1.3 LT 0.0034 4 C 135LAS G KC=0.0029 4$LC=0.00037 4$MC=7.7E-5 7$NC+=2.00E-5 19 135LAS G NC=1.70E-5 16$OC=2.8E-6 3$PC=2.2E-7 3 135LA DG CEK=0.37 3 135LA CG EKC=0.0029 3 135LA G 905.87 2 3.85 13M1(+E2) -0.04 2 0.00339 C 135LAS G KC=0.00292 4$LC=0.000372 6$MC=7.69E-5 11$NC+=1.99E-5 3 135LAS G NC=1.692E-5 24$OC=2.77E-6 4$PC=2.22E-7 4 135LA DG CEK=0.21 3, CEL=0.022 5 135LA CG EKC=0.0034 5, ELC=0.00036 8 135LA CG MR$from GG(THETA) (1981BUZW) and ECC 135LA G 964.89 3 0.79 4 E2(+M1) 2 GT 0.0021510 C 135LAS G KC=0.00184 8$LC=0.000244 10$MC=5.06E-5 19$NC+=1.30E-5 5 135LAS G NC=1.11E-5 5$OC=1.80E-6 7$PC=1.36E-7 7 135LA DG CEK=0.023 3 135LA CG EKC=0.0018 3 135LA G 1051.90 3 0.16 2 E2 1.72E-3 C 135LAS G KC=0.001471 21$LC=0.000194 3$MC=4.01E-5 6$NC+=1.033E-5 15 135LAS G NC=8.80E-6 13$OC=1.425E-6 20$PC=1.077E-7 15 135LA DG CEK=0.0035 3 135LA CG EKC=0.0014 2 135LA G 1171.42 3 0.47 2 M1,E2 0.0016 3 135LAS G KC=0.00140 22$LC=0.00018 3$MC=3.7E-5 6$NC+=1.29E-5 14 135LAS G NC=8.1E-6 12$OC=1.32E-6 20$PC=1.04E-7 18$IPC=3.36E-6 7 135LA DG CEK=0.011 2 135LA CG EKC=0.0015 3 135LA L 1439.485 18 3/2+ 135LA E 0.80 4 7.10 3 0.80 4 135LAS E CK=0.8375 $CL=0.1265 $CM+=0.03600 4 135LA G 401.0 0.02 AP M1,E2 0.022 3 AC 135LAS G KC=0.019 3$LC=0.00272 9$MC=0.000569 14$NC+=0.000146 5 135LAS G NC=0.000124 4$OC=1.99E-5 11$PC=1.4E-6 3 135LA DG CEK=0.02 1 135LA CG EKC AP 0.06 3 135LA G 611.2 2 0.05 2 C 135LA G 655.9 0.01 AP A? 135LA G 727.1 0.02 AP AC 135LA G 773.9 0.52 5 (M1,E2) 0.0042 8 AC 135LAS G KC=0.0036 7$LC=0.00047 8$MC=9.8E-5 15$NC+=2.5E-5 4 135LAS G NC=2.1E-5 4$OC=3.5E-6 6$PC=2.7E-7 6 135LA DG CEK=0.07 1 135LA CG EKC AP 0.005 135LA DG CEK: 773-KEV MULTIPLET 135LA DG RI$ 10% UNCERTAINTY ASSIGNED BY EVALUATOR 135LA G 834.90 4 0.26 4 C 135LA G 1139.43 3 0.21 2 M1(+E2) 1 LT 0.0018614 C 135LAS G KC=0.00160 12$LC=0.000204 14$MC=4.2E-5 3$NC+=1.23E-5 8 135LAS G NC=9.3E-6 7$OC=1.51E-6 11$PC=1.20E-7 10$IPC=1.417E-6 23 135LA DG CEK=0.0060 5 135LA CG EKC=0.0018 3 135LA G 1173.92 3 0.44 3 M1(+E2) 1 LT 0.0017413 C 135LAS G KC=0.00150 12$LC=0.000190 13$MC=3.9E-5 3$NC+=1.37E-5 7 135LAS G NC=8.6E-6 6$OC=1.41E-6 10$PC=1.13E-7 9$IPC=3.54E-6 6 135LA DG CEK=0.012 2 135LA CG EKC=0.0017 3 135LA G 1232.98 3 0.23 2 M1(+E2) 1.5 LT 0.0015316 C 135LAS G KC=0.00131 14$LC=0.000166 16$MC=3.4E-5 4$NC+=1.92E-5 8 135LAS G NC=7.5E-6 7$OC=1.23E-6 12$PC=9.8E-8 11$IPC=1.031E-5 17 135LA DG CEK=0.0056 10 135LA CG EKC=0.0015 3 135LA G 1439.57 8 0.14 1 E2(+M1) 1 GT 0.001037 135LAS G KC=0.00084 6$LC=0.000106 8$MC=2.20E-5 15$NC+=6.36E-5 10 135LAS G NC=4.8E-6 4$OC=7.9E-7 6$PC=6.2E-8 5$IPC=5.80E-5 9 135LA DG CEK=0.0015 3 135LA CG EKC=0.0007 2 135LA L 1449.636 17 1/2+,3/2+ 135LA E 2.04 7 6.65 2 2.04 7 135LAS E CK=0.8373 $CL=0.1267 $CM+=0.03607 4 135LA G 465.2 2 0.22 5 E2(+M1) 1.5 GT 0.0133 8 C 135LAS G KC=0.0112 7$LC=0.00169 5$MC=0.000355 9$NC+=9.0E-5 3 135LAS G NC=7.74E-5 21$OC=1.22E-5 4$PC=8.0E-7 6 135LA DG CEK=0.032 10 135LA CG EKC=0.009 3 135LA G 577.3 0.12 5 M1,E2 0.0085 15 B ? 135LAS G KC=0.0073 14$LC=0.00099 12$MC=0.000207 24$NC+=5.3E-5 7 135LAS G NC=4.5E-5 6$OC=7.3E-6 10$PC=5.4E-7 12 135LA CG RI$from I(CEK) 135LA DG CEK=0.018 7 135LA CG EKC=0.009 4 135LA G 666.0 0.1 AP AC 135LA G 845.06 3 0.31 3 E2(+M1) 0.8 GT 0.0031 4 C 135LAS G KC=0.0027 4$LC=0.00036 4$MC=7.4E-5 8$NC+=1.91E-5 20 135LAS G NC=1.63E-5 17$OC=2.6E-6 3$PC=2.0E-7 3 135LA DG CEK=0.013 2 135LA CG EKC=0.0026 5 135LA G 1149.58 2 1.60 6 M1(+E2) 0.9 LT 0.0018413 C 135LAS G KC=0.00158 11$LC=0.000201 13$MC=4.2E-5 3$NC+=1.26E-5 7 135LAS G NC=9.1E-6 6$OC=1.49E-6 10$PC=1.19E-7 9$IPC=1.90E-6 3 135LA DG CEK=0.042 4 135LA CG EKC=0.0017 2 135LA G 1184.09 3 2.6 1 M1+E2 0.0015925 C 135LAS G KC=0.00136 22$LC=0.000174 25$MC=3.6E-5 6$NC+=1.38E-5 13 135LAS G NC=7.9E-6 12$OC=1.29E-6 19$PC=1.02E-7 18$IPC=4.47E-6 9 135LA DG CEK=0.072 3, CEL=0.0075 9, CEM=0.0021 5 135LA CG EKC=0.00173 10, ELC=0.00018 2, EMC=0.000038 9 135LA CG MR$-0.12 3 if J=1/2 or +0.49 5 if J=3/2 from GG(THETA) 135LA2CG (1981BUZW). CE data support M1 135LA G 1243.1 0.01 AP AC 135LA G 1449.6 2 0.019 4 135LA L 1479.66 3 1/2+,3/2+ 135LA E 0.29 3 7.47 5 0.29 3 135LAS E CK=0.8363 $CL=0.12739 13 $CM+=0.03631 5 135LA G 495.3 4 0.05 2 C 135LA G 651.2 2 0.021 4 C 135LA G 875.1 0.14 AP AC 135LA G 1179.49 6 0.086 15 C 135LA G 1214.13 3 0.24 3 M1(+E2) 1 LT 0.0016212 C 135LAS G KC=0.00139 10$LC=0.000176 12$MC=3.64E-5 25$NC+=1.72E-5 7 135LAS G NC=8.0E-6 6$OC=1.31E-6 9$PC=1.04E-7 9$IPC=7.78E-6 12 135LA DG CEK=0.0006 2 135LA CG EKC=0.0018 5 135LA G 1273.5 2 0.045 15 C 135LA G 1361.0 9 0.09 5 135LA G 1479.6 2 0.014 5 135LA L 1568.9 2 ? 135LA E 0.033 13 8.3 2 0.033 13 ? 135LAS E CK=0.8326 $CL=0.13013 19 $CM+=0.03722 7 135LA G 696.6 2 0.08 3 C 135LA L 1599.25 3 1/2+,3/2+ 135LA E 0.26 3 7.29 6 0.26 3 135LAS E CK=0.8310 $CL=0.13136 22 $CM+=0.03763 8 135LA G 560.7 0.02 AP AC 135LA G 727.0 0.03 AP AC 135LA G 771.4 2 0.10 3 C 135LA G 815.56 6 0.077 13 C 135LA G 933.76 6 0.08 2 C 135LA G 994.7 0.02 AP AC 135LA G 1299.18 3 0.17 2 M1,E2 0.0013219 C 135LAS G KC=0.00112 17$LC=0.000142 20$MC=2.9E-5 4$NC+=2.87E-5 10 135LAS G NC=6.4E-6 9$OC=1.05E-6 15$PC=8.3E-8 14$IPC=2.11E-5 4 135LA DG CEK=0.0028 6 135LA CG EKC=0.0010 3 135LA G 1334.7 5 0.09 5 C 135LA G 1392.8 4 0.022 5 C 135LA G 1599.3 8 0.019 3 135LA L 1766.98 2 3/2+ 135LA E 0.60 3 6.44 3 0.60 3 135LAS E CK=0.8137 10 $CL=0.1443 7 $CM+=0.04197 24 135LA G 728.5 0.05 AP AC 135LA G 782.6 0.05 AP AC 135LA G 894.63 5 0.096 9 C 135LA G 938.5 2 0.037 9 C 135LA G 983.4 0.02 AP AC 135LA G 1101.45 8 0.055 10M1,E2 0.0019 3 C 135LAS G KC=0.0016 3$LC=0.00021 3$MC=4.2E-5 7$NC+=1.13E-5 17 135LAS G NC=9.3E-6 14$OC=1.52E-6 24$PC=1.19E-7 22$IPC=3.93E-7 9 135LA DG CEK=0.0014 4 135LA CG EKC=0.0016 5 135LA G 1466.90 3 0.51 3 E2(+M1) 1 GT 0.001007 C 135LAS G KC=0.00081 6$LC=0.000102 7$MC=2.11E-5 14$NC+=7.22E-5 11 135LAS G NC=4.6E-6 3$OC=7.6E-7 6$PC=6.0E-8 5$IPC=6.68E-5 10 135LA DG CEK=0.0063 8 135LA CG EKC=0.00078 10 135LA G 1501.38 8 0.14 2 M1,E2 0.0010312 C 135LAS G KC=0.00082 11$LC=0.000104 13$MC=2.1E-5 3$NC+=8.41E-5 15 135LAS G NC=4.7E-6 6$OC=7.7E-7 10$PC=6.1E-8 9$IPC=7.86E-5 12 135LA DG CEK=0.0023 4 135LA CG EKC=0.0010 2 135LA G 1560.49 5 0.18 2 (E2) 8.75E-4 C 135LAS G KC=0.000668 10$LC=8.46E-5 12$MC=1.746E-5 25$NC+=0.0001042 15 135LAS G NC=3.84E-6 6$OC=6.25E-7 9$PC=4.91E-8 7$IPC=9.97E-5 14 135LA DG CEK=0.0014 3 135LA CG EKC=0.0005 1 gives E2 but somewhat uncertain due 135LA2CG to discrepant mult for 1767G from EKC 135LA G 1767.00 4 0.29 3 135LA DG CEK=0.0015 3 135LA CG M$EKC=0.00032 8 gives E1 but adopted DJPI requires M1 or E2 135LA L 1797.15 7 1/2+,3/2 135LA E 0.038 3 7.5 1 0.038 3 135LAS E CK=0.8073 13 $CL=0.1491 10 $CM+=0.0436 4 135LA G 1497.0 3 0.006 3 135LA G 1531.58 7 0.050 5 C 135LA G 1797.4 3 0.035 4 D,E2 135LA DG CEK=0.00024 11 135LA CG EKC=0.0004 2 135LA L 1850.74 15 1/2,3/2 135LA E 0.041 4 7.2 1 0.041 4 135LAS E CK=0.789 3 $CL=0.1630 19 $CM+=0.0483 7 135LA G 1066.9 3 0.016 4 ? 135LA G 1550.7 3 0.024 4 C 135LA G 1585.3 2 0.056 5 C 135LA G 1850 1 0.0011 3