145SM 145EU EC DECAY 1986AD06 09NDS 200902 145SM H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 110, 507 (2009)$ 145SM2 H CUT=1-Oct-2008$ 145SM C Measured: GAMMA 145SM2C (1986Ad06,1984Me09,1982De26,1978VyZX,1977BaZP,1973Ne01,1968Ad04, 145SM2C \1967Dr01,1967Hi05), GG (1986Ad06,1978VyZX,1977BaZP,1973Ne01), CEG, BG 145SM3C (1968Ad04), G(THETA) from oriented nuclei (1983Va02,1982De26), CE 145SM4C (1978VyZX,1977BaZP,1967Hi05), BG(T) (1976Be09), GG(THETA) 145SM5C (1978VyZX,1977BaZP,1976Be09,1975BuZA,1967Ob03,1966Go08), probability 145SMxC of EC (1983Sc28,1983BeZF) 145SM C 1998OM01: MEASURED G, CE, GG, GG(THETA). AUTHORS REPORT only WEAK G'S 145SM C Decay scheme, EG, RI are from 1986Ad06 with additional weaker 145SM2C transitions reported by 1998OM01 145SM C 1996Vy01 give level feedings and level JPI assignments and a few 145SM2C multipolarities. No IG given. 1996OmZZ (perhaps the same group) give 145SM3C several EG, IG, I(CE) but no decay scheme. 145SM CE E,IE ECK(1658 level)=0.841 24, ECK(1996 level)=0.835 15 145SM2CE (1983BeZF), ECK(2508+2513)/ECK(1997)=0.941 17, Q-=2647 +14-10 from 145SM3CE ECK(2425)/ECK(1997) (1983Sc28) 145SM CE IE(A) IE deduced from balance of IG is too large and LOGFT=9.9 145SM2CE too small for DJ=2, DPI=no. Expected for such transitions 145SM3CE LOGFT GT 12.8 145SM CE E(B),IB(B)$EB+=1688 15 (IB=1.00) (1968Ad04), 1724 30 (1967Hi05), 145SM2CE 1740 40 (IB=1.00) (1966Zh01), 1670 50 (IB=1.00) (1967Ob03) 145SM CE E(D),IE(D)$EB+=794 15 (IB=0.24 10) (1968Ad04), 786 40 (1967Hi05), 145SM2CE 800 40 (IB=0.33 6) (1966Zh01), 780 50 (IB=0.32 11) (1967Ob03) 145SM DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr. 145SM CG E(A),RI(A)$FROM 1998OM01 145SM CG E(B)$ALSO REPORTED IN 1998OM01 145SM CG E(C)$PLACEMENT IN 1998OM01 DIFFERS FROM EARLIER PLACEMENT 145SM CG E,RI For additional questionable G's see 1978VyZX 145SM CG M EKC from RI (1986Ad06) and CE (1978VyZX) normalized to KC 145SM2CG of G's: 542, 653, 764, 894, 1423, 1658, 1804 with mult known from 145SM3CG G(THETA) in oriented nuclei (1982De26) 145SM CG G+-/894G=0.066 5 (1973Ne01) 145SM CG MR From G(THETA) in decay of oriented nuclei (1982De26) 145SM CL E(A)$LEVEL FROM 1996OM01,1998OM01 145EU P 0.0 5/2+ 5.93 D 4 2659.3 27 145SM N 0.0657 25 1 1.0 145SM PN 3 145SM CN NR From SUMOF IG(g.s)+(EC+B+)(g.s)=100%, B(893)/B(0)=0.24 10, 145SM2CN B(893)/CEK(893G)=2.1 3 (1968Ad04). NR=0.0695 if direct branch to gs 145SM3CN is 2% as given by 1996VY01 based perhaps on XKA1=80.7 21, XKA2=45.0 7, 145SM4CN XKB1=24.8 2, XKB2=6.3 1 145SM G 136.325 700.05 1 145SM G 225.44 220.06 1 B 145SM G 309.7 3 0.005 2 A 145SM G 368.15 230.05 2 145SM G 564.86 150.05 1 145SM G 959.97 200.011 3 A 145SM G 1063.5 4 0.077 4M1 A 145SMS G CC=0.00340 5$KC=0.00291 4$LC=0.000387 6$MC=8.25E-5 12$NC+=2.17E-5 3 145SMS G NC=1.87E-5 3$OC=2.82E-6 4$PC=1.80E-7 3 145SM CG M$FROM ICE(K)=0.082 12 (1998OM01) 145SM G 1266.64 140.19 3 145SM G 2129.9 4 0.018 3 A 145SM G 2422.0 4 0.007 1 A 145SM L 0.0 7/2- 145SM E 1.54 3 5.71 10 8.66 1 B 145SMS E EAV=740.1 14 $CK=0.6803 8 $CL=0.09863 12 $CM+=0.02841 4 145SM L 893.788183/2- 145SM E 0.37 4 43 4 7.43 4 D 145SMS E EAV=345.0 14 $CK=0.8272 $CL=0.1218 $CM+=0.03515 145SM G 893.73 3 1000 50E2 145SMS G CC=0.00316 5$KC=0.00267 4$LC=0.000385 6$MC=8.29E-5 12$NC+=2.16E-5 3 145SMS G NC=1.87E-5 3$OC=2.76E-6 4$PC=1.586E-7 23 145SM CG M EKC=0.00248 20 (normalization); K/L=5.9 5 in 1961An04 145SM L 1423.24 39/2- 145SM E 0.12 2 10.41 8 1U 145SMS E CK=0.8377 $CL=0.1258 $CM+=0.03641 145SM G 1423.19 5 5.5 3M1+E2 +0.48 +6-3 145SMS G CC=0.00169 3$KC=0.00140 3$LC=0.000184 4$MC=3.93E-5 8$NC+=6.46E-5 10 145SMS G NC=8.92E-6 17$OC=1.343E-6 25$PC=8.56E-8 17$IPC=5.43E-5 8 145SM CG M EKC=0.00145 25. Other: 0.00153 19 (1978VyZX) 145SM L 1436.364251/2+ 145SM G 542.57 3 68 4E1 145SMS G CC=0.00359 5$KC=0.00308 5$LC=0.000406 6$MC=8.65E-5 13$NC+=2.26E-5 4 145SMS G NC=1.95E-5 3$OC=2.90E-6 4$PC=1.752E-7 25 145SM CG M ECK=0.00322 32 (normalization value) 145SM L 1547.302233/2+ 145SM E 19.3 8 7.37 2 145SMS E CK=0.8368 $CL=0.1265 $CM+=0.03668 145SM G 110.943 2429.2 16M1+E2 -1.98 6 1.538 145SMS G KC=0.924 13$LC=0.477 8$MC=0.1097 19$NC+=0.0273 5 145SMS G NC=0.0241 4$OC=0.00309 5$PC=4.45E-5 7 145SM CG M EKC=0.87 6. Other: 0.81 4 (1978VyZX) 145SM G 653.512 25229 11E1 145SMS G CC=0.00240 4$KC=0.00206 3$LC=0.000270 4$MC=5.74E-5 8$NC+=1.502E-5 21 145SMS G NC=1.297E-5 19$OC=1.93E-6 3$PC=1.182E-7 17 145SM CG M EKC=0.00213 12 (normalization). Other: 0.00215 15 (1978VyZX) 145SM G 1547.30 8 0.82 6M2+E3 +0.62 +12-10 B 145SMS G CC=0.00292 11$KC=0.00245 9$LC=0.000338 12$MC=7.25E-5 25$NC+=5.81E-5 10 145SMS G NC=1.64E-5 6$OC=2.47E-6 9$PC=1.54E-7 6$IPC=3.90E-5 6 145SM CG M EKC=0.0032 7. Other: 0.0010 2 (1978VyZX). 145SM2CG ICE(K)=0.103 22, RI=0.108 13 (1998OM01) 145SM L 1607.28 31/2- 145SM E 0.047 15 10.53 14 1U 145SMS E CK=0.8362 $CL=0.1270 $CM+=0.03683 145SM G 713.48 5 3.57 19M1 145SMS G CC=0.00888 13$KC=0.00759 11$LC=0.001020 15$MC=0.000218 3$NC+=5.74E-5 8 145SMS G NC=4.95E-5 7$OC=7.45E-6 11$PC=4.72E-7 7 145SM CG M EKC=0.0077 10. Other: 0.0081 9 (1978VyZX) 145SM L 1627.74 43/2+ 145SM E 0.65 4 8.77 3 145SMS E CK=0.8360 $CL=0.1272 $CM+=0.03689 145SM G 80.46 100.22 2 145SM G 191.38 3 9.1 5M1+E2 +0.084 16 0.272 145SMS G KC=0.231 4$LC=0.0326 5$MC=0.00700 10$NC+=0.00184 3 145SMS G NC=0.001586 23$OC=0.000238 4$PC=1.466E-5 21 145SM CG M EKC=0.183 12. Other: 0.224 7 (1978VyZX) 145SM G 733.5 4 0.014 5 E1,M2 0.012 11 A 145SMS G KC=0.010 9$LC=0.0015 13$MC=0.0003 3$NC+=9.E-5 8 145SMS G NC=7.E-5 7$OC=1.1E-5 10$PC=7.E-7 6 145SM CG M$FROM 1996VY01 BASED ON EKC 145SM L 1658.562205/2- 145SM CL J$1996VY01 GIVE 3/2- 145SM E 16.4 10 7.3 1 145SMS E CK=0.8356 $CL=0.1274 $CM+=0.03698 145SM G 764.74 4 25.6 13M1+E2 +0.16 7 145SMS G CC=0.00742 13$KC=0.00634 12$LC=0.000852 15$MC=0.000182 3$NC+=4.79E-5 8 145SMS G NC=4.13E-5 7$OC=6.22E-6 11$PC=3.94E-7 7 145SM CG M EKC=0.0065 6. Other: 0.0069 4 (1978VyZX) 145SM G 1658.53 5227 12E2+M1 -2.07 6 145SMS G CC=0.001107 16$KC=0.000830 12$LC=0.0001095 16$MC=2.33E-5 4$NC+=0.000143 145SMS G NC=5.28E-6 8$OC=7.93E-7 12$PC=4.98E-8 8$IPC=0.0001377 20 145SM CG M EKC=0.00082 8. Other: 0.00087 5 (1978VyZX) 145SM L 1780.32 99/2- 145SM E 0.011 2 10.84 8 1U 145SMS E CK=0.8340 $CL=0.1286 $CM+=0.03739 145SM G 1780.27 100.23 3 145SM L 1804.24 45/2+ 145SM E 1.17 6 8.35 2 145SMS E CK=0.8336 $CL=0.1289 $CM+=0.03749 145SM G 176.62 90.12 1 B 145SM G 256.89 7 0.33 3M1 0.1223 145SMS G KC=0.1039 15$LC=0.01446 21$MC=0.00310 5$NC+=0.000816 12 145SMS G NC=0.000704 10$OC=0.0001056 15$PC=6.58E-6 10 145SM CG M EKC=0.118 12. Other: 0.107 25 (1978VyZX) 145SM G 910.47 111.04 6E1 145SMS G CC=0.001233 18$KC=0.001059 15$LC=0.0001367 20$MC=2.90E-5 4$NC+=7.61E-6 145SMS G NC=6.57E-6 10$OC=9.82E-7 14$PC=6.12E-8 9 145SM CG M EKC=0.0032 7. Other: 0.0028 6 (1978VyZX) 145SM G 1804.26 516.3 8E1 145SMS G CC=0.000804 12$KC=0.000318 5$LC=4.01E-5 6$MC=8.50E-6 12$NC+=0.000438 7 145SMS G NC=1.92E-6 3$OC=2.89E-7 4$PC=1.85E-8 3$IPC=0.000436 6 145SM CG M EKC=0.00031 4 (normalization). Other: 0.00023 4 (1978VyZX) 145SM L 1848.1 39/2+ 145SM G 1848.12 260.11 3 145SM L 1857.69 37/2+ 145SM E 0.603 23 8.58 2 145SMS E CK=0.8327 $CL=0.1296 $CM+=0.03772 145SM G 199.14 30.45 5 145SM G 434.43 4 2.58 14E1 145SMS G CC=0.00596 9$KC=0.00510 8$LC=0.000680 10$MC=0.0001450 21$NC+=3.78E-5 6 145SMS G NC=3.27E-5 5$OC=4.84E-6 7$PC=2.87E-7 4 145SM CG M EKC=0.0050 9 145SM G 963.8 3 0.010 3 A 145SM G 1857.66 56.0 3E1 145SMS G CC=0.000827 12$KC=0.000303 5$LC=3.82E-5 6$MC=8.10E-6 12$NC+=0.000477 7 145SMS G NC=1.83E-6 3$OC=2.76E-7 4$PC=1.765E-8 25$IPC=0.000475 7 145SM CG M EKC=0.00035 5. Other: 0.00045 5 (1978VyZX) 145SM L 1876.64 47/2- 145SM E 1.33 7 8.21 2 145SMS E CK=0.8323 $CL=0.1299 $CM+=0.03782 145SM G 218.11 90.14 2 145SM G 249.5 6 A 145SM CG ICE(K)=0.09 5 (1998OM01) 145SM G 269.1 3 0.004 2 A 145SM CG M$E2 IN 1996VY01 BASED ON EKC IS IN CONFLICT WITH JPI ASSIGNMENT 145SM G 453.42 6 0.54 4M1+(E2) +0.03 12 0.0276 5 145SMS G KC=0.0235 4$LC=0.00321 5$MC=0.000688 11$NC+=0.000181 3 145SMS G NC=0.0001560 24$OC=2.34E-5 4$PC=1.47E-6 3 145SM CG M EKC=0.019 3. Other: 0.022 4 (1978VyZX) 145SM G 982.62 160.03 1 145SM G 1876.67 620.3 10E2+M1 -1.29 +6-7 145SMS G CC=0.001039 16$KC=0.000685 11$LC=8.95E-5 14$MC=1.91E-5 3$NC+=0.000246 4 145SMS G NC=4.32E-6 7$OC=6.50E-7 10$PC=4.13E-8 7$IPC=0.000241 4 145SM CG M EKC=0.00067 8. Other: 0.00072 7 (1978VyZX) 145SM L 1950.81 9- A 145SM CL J$1996VY01 GIVE 5/2-,7/2- 145SM G 292.25 9 0.037 4 A 145SM G 1950.76 210.019 2 M1 A 145SMS G CC=0.001143 16$KC=0.000728 11$LC=9.48E-5 14$MC=2.02E-5 3$NC+=0.000301 5 145SMS G NC=4.58E-6 7$OC=6.91E-7 10$PC=4.45E-8 7$IPC=0.000295 5 145SM CG M$FROM ICE(K)=0.0008 2 (1998OM01) 145SM L 1963.30181/2+,3/2+ A 145SM G 355.2 4 0.010 5 E1 A 145SMS G CC=0.00966 14$KC=0.00825 12$LC=0.001111 16$MC=0.000237 4$NC+=6.17E-5 9 145SMS G NC=5.34E-5 8$OC=7.87E-6 12$PC=4.59E-7 7 145SM CG M$FROM ICE(K)=0.0008 2 (1998OM01) 145SM L 1972.719213/2- 145SM E 0.611 26 8.43 2 145SMS E CK=0.8301 $CL=0.1315 $CM+=0.03837 145SM G 314.13 3 0.69 4M1+(E2) +0.04 +27-290.0715 22 145SMS G KC=0.0608 22$LC=0.00842 12$MC=0.00181 3$NC+=0.000475 7 145SMS G NC=0.000409 6$OC=6.15E-5 10$PC=3.84E-6 17 145SM CG M EKC=0.065 10. Other: 0.061 10 (1978VyZX) 145SM G 344.92 100.14 2 145SM G 365.51 5 0.76 5M1+E2 -2.2 +7-13 0.0339 24 145SMS G KC=0.0275 23$LC=0.00501 13$MC=0.001101 24$NC+=0.000283 7 145SMS G NC=0.000247 6$OC=3.50E-5 12$PC=1.58E-6 17 145SM CG M EKC=0.036 5. Other: 0.031 5 (1978VyZX) 145SM G 425.48 7 0.28 2E1 145SMS G CC=0.00626 9$KC=0.00535 8$LC=0.000715 10$MC=0.0001524 22$NC+=3.98E-5 6 145SMS G NC=3.44E-5 5$OC=5.08E-6 8$PC=3.01E-7 5 145SM CG M EKC=0.0045 27. Other: 0.006 3 (1978VyZX) 145SM G 536.15 100.40 9 145SM G 1078.91 3 6.6 4M1+E2 +0.04 1 145SMS G CC=0.00329 5$KC=0.00281 4$LC=0.000373 6$MC=7.97E-5 12$NC+=2.10E-5 3 145SMS G NC=1.81E-5 3$OC=2.72E-6 4$PC=1.738E-7 25 145SM CG M EKC=0.0031 7. Other: 0.0034 7 (1978VyZX) 145SM G 1972.77 41.47 9E2 145SMS G CC=0.000935 13$KC=0.000566 8$LC=7.38E-5 11$MC=1.570E-5 22$NC+=0.000280 145SMS G NC=3.56E-6 5$OC=5.34E-7 8$PC=3.37E-8 5$IPC=0.000276 4 145SM CG M EKC=0.00101 14. Other: 0.00118 15 (1978VyZX), G(THETA) 145SM L 1996.959245/2- 145SM E 7.4 4 7.31 2 145SMS E CK=0.8295 $CL=0.1320 $CM+=0.03854 145SM G 120.44 80.26 10 145SM G 338.37 3 0.81 5M1+E2 +1.9 +14-8 0.043 5 145SMS G KC=0.035 5$LC=0.00647 16$MC=0.00142 3$NC+=0.000366 9 145SMS G NC=0.000319 7$OC=4.51E-5 18$PC=2.0E-6 4 145SM CG M EKC=0.049 5. Other: 0.040 4 (1978VyZX) 145SM G 449.7 4 A 145SM CG ICE(K)=0.18 7 (1998OM01) 145SM G 560.40 170.016 5 C 145SM G 573.55 120.10 2 145SM G 1103.22 120.09 1 B 145SM G 1997.00 4109 6M1+E2 +0.241 11 145SMS G CC=0.001115 16$KC=0.000683 10$LC=8.90E-5 13$MC=1.89E-5 3$NC+=0.000323 5 145SMS G NC=4.30E-6 6$OC=6.48E-7 10$PC=4.17E-8 6$IPC=0.000318 5 145SM CG M EKC=0.00068 8. Other: 0.00073 8 (1978VyZX) 145SM L 2110.60 55/2-,7/2-,9/2- 145SM E 0.036 3 9.45 4 145SMS E CK=0.8256 $CL=0.1349 $CM+=0.03954 145SM G 674.33 170.004 2 M2 0.0289 A 145SMS G KC=0.0243 4$LC=0.00362 5$MC=0.000784 11$NC+=0.000206 3 145SMS G NC=0.0001780 25$OC=2.66E-5 4$PC=1.634E-6 23 145SM CG M$FROM 1996VY01 BASED ON EKC 145SM G 2110.58 50.60 4M1 145SMS G CC=0.001094 16$KC=0.000611 9$LC=7.95E-5 12$MC=1.693E-5 24$NC+=0.000386 145SMS G NC=3.84E-6 6$OC=5.80E-7 9$PC=3.74E-8 6$IPC=0.000381 6 145SM CG M EKC=0.00072 37. Other: 0.00091 5 (1978VyZX) 145SM L 2133.420253/2- 145SM E 0.465 16 8.30 2 145SMS E CK=0.8246 $CL=0.1356 $CM+=0.03980 145SM G 160.70 60.24 2 145SM G 474.89 100.38 5 B 145SM G 526.10 4 1.47 9M1+E2 +0.31 +10-9 0.0183 5 145SMS G KC=0.0155 5$LC=0.00214 5$MC=0.000458 10$NC+=0.000120 3 145SMS G NC=0.0001038 23$OC=1.56E-5 4$PC=9.7E-7 3 145SM CG M EKC=0.0161 14. Other: 0.0156 11 (1978VyZX) 145SM G 586.06 90.31 5 B 145SM G 1239.60 4 1.84 10M1+E2 -0.61 +7-9 145SMS G CC=0.00218 6$KC=0.00185 5$LC=0.000246 6$MC=5.26E-5 13$NC+=2.51E-5 5 145SMS G NC=1.19E-5 3$OC=1.79E-6 5$PC=1.13E-7 3$IPC=1.124E-5 17 145SM CG M EKC=0.0018 4. Other: 0.0021 5 (1978VyZX) 145SM G 2133.42 93.35 17E2 145SMS G CC=0.000924 13$KC=0.000491 7$LC=6.37E-5 9$MC=1.354E-5 19$NC+=0.000356 5 145SMS G NC=3.07E-6 5$OC=4.61E-7 7$PC=2.92E-8 4$IPC=0.000353 5 145SM CG M EKC=0.00029 8. Other: 0.00033 9 (1978VyZX) 145SM L 2155.50 5(5/2-,7/2-) 145SM E 0.127 7 8.83 3 145SMS E CK=0.8235 $CL=0.1364 $CM+=0.04007 145SM G 497.32 430.06 1 B 145SM G 1261.90 170.06 1 145SM G 2155.46 51.82 10M1 145SMS G CC=0.001086 16$KC=0.000584 9$LC=7.59E-5 11$MC=1.615E-5 23$NC+=0.000410 145SMS G NC=3.66E-6 6$OC=5.53E-7 8$PC=3.57E-8 5$IPC=0.000406 6 145SM CG M EKC=0.0012 2. Other: 0.0012 2 (1978VyZX) 145SM L 2192.99 55/2-,7/2-,9/2- 145SM E 0.036 2 9.30 3 145SMS E CK=0.8214 $CL=0.1380 $CM+=0.04061 5 145SM G 388.95 180.018 5 A 145SM CG M$M1,E2 FROM EKC=0.035 24 IN CONFLICT WITH PLACEMENT. 145SM2CG Other: EKC=0.021 14 (1978VyZX) 145SM G 2192.96 50.54 3M1 145SMS G CC=0.001081 16$KC=0.000562 8$LC=7.30E-5 11$MC=1.555E-5 22$NC+=0.000430 145SMS G NC=3.53E-6 5$OC=5.32E-7 8$PC=3.43E-8 5$IPC=0.000426 6 145SM CG M EKC=0.0014 7 (1978VyZX) 145SM L 2276.55 45/2+ 145SM CL J$1996VY01 GIVE 5/2-,7/2-,9/2- 145SM E 0.135 7 8.54 2 145SMS E CK=0.8150 $CL=0.14273 22 $CM+=0.04224 8 145SM G 729.09 140.41 5 145SM G 2276.54 41.61 9E1+(M2) +0.067 30 145SMS G CC=0.001026 15$KC=0.000224 6$LC=2.81E-5 7$MC=5.95E-6 15$NC+=0.000768 11 145SMS G NC=1.35E-6 4$OC=2.03E-7 5$PC=1.31E-8 4$IPC=0.000766 11 145SM CG M EKC=0.00025 11. Other: 0.00028 12 (1978VyZX) 145SM L 2292.82129/2+ 145SM CL J$1996VY01 GIVE 5/2-,7/2- 145SM E 0.0054 7 9.89 6 A 145SMS E CK=0.8134 $CL=0.14394 24 $CM+=0.04265 9 145SM G 869.6 3 0.008 4 A 145SM CG M$MULT=M1,E2, FROM ICE(K)=0.022 5, SUGGESTED BY 1998OM01 IS IN 145SM2CG CONFLICT WITH JPI 145SM G 2292.80 130.08 1 145SM CG M EKC=0.0015 9. Other: 0.0022 15 (1978VyZX) 145SM L 2329.30 95/2-,7/2-,3/2- 145SM E 0.192 10 8.24 3 145SMS E CK=0.8091 $CL=0.1472 3 $CM+=0.04377 11 145SM G 2329.28 92.87 15E2,(M1) 145SMS G CC=0.00100 8$KC=0.00046 4$LC=5.9E-5 5$MC=1.26E-5 11$NC+=0.00048 3 145SMS G NC=2.85E-6 25$OC=4.3E-7 4$PC=2.8E-8 3$IPC=0.00047 3 145SM CG M EKC=0.00042 7. Other: 0.00046 7 (1978VyZX) 145SM L 2340.62 7 145SM CL J$1996VY01 GIVE 5/2+,7/2+,9/2+ FROM 463G E1 TO 7/2- 145SM E 0.029 20 9.0 3 145SMS E CK=0.8075 $CL=0.1483 4 $CM+=0.04417 12 145SM G 185.2 4 0.009 5 A 145SM G 230.0 20.05 1 145SM G 463.7 6 0.026 11E1 A 145SMS G CC=0.00512 8$KC=0.00438 7$LC=0.000583 9$MC=0.0001242 18$NC+=3.24E-5 5 145SMS G NC=2.80E-5 4$OC=4.15E-6 6$PC=2.48E-7 4 145SM CG M$FROM 1996VY01 BASED ON EKC. MULT NOT CONSISTENT WITH SUGGESTED PI=- 145SM2CG FOR 2340 LEVEL IN 1996VY01 145SM G 560.24 130.06 1 145SM G 917.13 200.018 7 A 145SM G 2340.64 90.32 3 145SM L 2346.39 35/2- 145SM E 0.456 17 7.81 2 145SMS E CK=0.8066 $CL=0.1490 4 $CM+=0.04439 12 145SM G 212.94 6 0.32 2E2 0.1693 B 145SMS G KC=0.1237 18$LC=0.0355 5$MC=0.00803 12$NC+=0.00202 3 145SMS G NC=0.001777 25$OC=0.000237 4$PC=6.22E-6 9 145SM CG M EKC=0.126 11. Other: 0.039 22 (1978VyZX) 145SM G 349.43 5 0.42 3M1 0.0541 145SMS G KC=0.0460 7$LC=0.00635 9$MC=0.001360 19$NC+=0.000358 5 145SMS G NC=0.000308 5$OC=4.63E-5 7$PC=2.90E-6 4 145SM CG M EKC=0.051 5. Other: 0.059 6 (1978VyZX) 145SM G 373.68 4 0.95 5M1+(E2) -0.19 +21-410.045 4 145SMS G KC=0.038 4$LC=0.00529 20$MC=0.00113 4$NC+=0.000298 11 145SMS G NC=0.000257 9$OC=3.86E-5 18$PC=2.4E-6 3 145SM CG M EKC=0.032 4. Other: 0.042 5 (1978VyZX) 145SM G 469.66 100.39 14M1 0.0252 145SMS G KC=0.0215 3$LC=0.00293 5$MC=0.000628 9$NC+=0.0001652 24 145SMS G NC=0.0001425 20$OC=2.14E-5 3$PC=1.348E-6 19 145SM CG M EKC=0.027 10 145SM G 687.83 6 0.45 4M1 B 145SMS G CC=0.00972 14$KC=0.00830 12$LC=0.001118 16$MC=0.000239 4$NC+=6.29E-5 9 145SMS G NC=5.42E-5 8$OC=8.16E-6 12$PC=5.17E-7 8 145SM CG M EKC=0.0056 29. Other: 0.088 50 (1978VyZX) 145SM G 923.15 190.09 2 145SM G 1452.60 5 1.07 7(M1) B 145SMS G CC=0.001713 24$KC=0.001413 20$LC=0.000186 3$MC=3.96E-5 6$NC+=7.53E-5 11 145SMS G NC=8.98E-6 13$OC=1.354E-6 19$PC=8.69E-8 13$IPC=6.49E-5 9 145SM CG M EKC=0.0026 7. Other: 0.0032 10 (1978VyZX). 145SM2CG ICE(K)=0.11 3 (1998OM01) 145SM G 2346.42 102.99 16M1+E2 +0.81 +18-10 145SMS G CC=0.001019 20$KC=0.000457 10$LC=5.91E-5 13$MC=1.26E-5 3$NC+=0.000491 9 145SMS G NC=2.85E-6 7$OC=4.30E-7 10$PC=2.76E-8 7$IPC=0.000487 9 145SM CG M EKC=0.00041 6. Other: 0.00047 7 (1978VyZX) 145SM L 2385.89 43/2+ 145SM E 0.342 15 7.80 2 145SMS E CK=0.7996 $CL=0.1542 5 $CM+=0.04621 17 145SM G 422.40 190.008 5 A 145SM G 581.60 120.30 3 145SM G 727.34 100.75 17 145SM G 758.13 6 0.71 6M1,E2 145SMS G CC=0.0061 16$KC=0.0052 14$LC=0.00073 16$MC=0.00016 4$NC+=4.1E-5 9 145SMS G NC=3.5E-5 8$OC=5.3E-6 12$PC=3.2E-7 9 145SM CG M EKC=0.0056 19. Other: 0.0067 45 (1978VyZX) 145SM G 778.60 70.55 5 145SM G 838.61 4 1.62 10M1 145SMS G CC=0.00600 9$KC=0.00513 8$LC=0.000686 10$MC=0.0001465 21$NC+=3.85E-5 6 145SMS G NC=3.32E-5 5$OC=5.00E-6 7$PC=3.18E-7 5 145SM CG M EKC=0.0061 7. Other: 0.039 25 (1978VyZX) 145SM G 949.53 5 1.17 6M1 145SMS G CC=0.00445 7$KC=0.00381 6$LC=0.000507 8$MC=0.0001083 16$NC+=2.85E-5 4 145SMS G NC=2.46E-5 4$OC=3.70E-6 6$PC=2.36E-7 4 145SM CG M EKC=0.0041 11. Other: 0.0040 2 (1978VyZX) 145SM G 2385.2 3 0.008 2 A 145SM L 2387.61 7(-) 145SM CL J$1996VY01 GIVE 3/2+,5/2+ 145SM E 0.0315 21 8.83 4 145SMS E CK=0.7992 $CL=0.1545 5 $CM+=0.04631 17 145SM G 965.1 30.06 1 145SM G 2387.55 70.41 3(M1) 145SMS G CC=0.001075 15$KC=0.000467 7$LC=6.06E-5 9$MC=1.289E-5 18$NC+=0.000535 8 145SMS G NC=2.92E-6 4$OC=4.41E-7 7$PC=2.85E-8 4$IPC=0.000531 8 145SM CG M EKC=0.0007 3. Other: 0.00037 18 (1978VyZX) 145SM L 2425.95 35/2- 145SM E 0.56 20 7.43 16 145SMS E CK=0.7894 10 $CL=0.1618 7 $CM+=0.04885 25 145SM G 270.5 3 0.04 1(E2) 0.0778 145SMS G KC=0.0596 9$LC=0.01419 21$MC=0.00318 5$NC+=0.000805 12 145SMS G NC=0.000706 11$OC=9.62E-5 14$PC=3.15E-6 5 145SM CG M EKC=0.044 28. Other: 0.047 37 (1978VyZX) 145SM G 292.47 4 0.38 3M1 0.0865 145SMS G KC=0.0735 11$LC=0.01019 15$MC=0.00219 3$NC+=0.000575 8 145SMS G NC=0.000496 7$OC=7.44E-5 11$PC=4.65E-6 7 145SM CG M EKC=0.083 8. Other: 0.09 1 (1978VyZX) 145SM CG MR -5.97 LE MR LE +0.12 145SM G 429.25 150.10 2 145SM G 549.34 120.25 5E2,M1,(E1) 145SM CG M EKC=0.014 7 145SM G 621.79 80.08 1 145SM G 1002.77 100.16 3 145SM G 1532.14 7 5.2 3M1 145SMS G CC=0.001554 22$KC=0.001251 18$LC=0.0001642 23$MC=3.50E-5 5$NC+=0.000103 145SMS G NC=7.94E-6 12$OC=1.198E-6 17$PC=7.69E-8 11$IPC=9.43E-5 14 145SM CG M EKC=0.00151 21. Other: 0.00164 24 (1978VyZX) 145SM G 2425.96 62.05 11M1 145SMS G CC=0.001078 15$KC=0.000452 7$LC=5.85E-5 9$MC=1.245E-5 18$NC+=0.000555 8 145SMS G NC=2.82E-6 4$OC=4.26E-7 6$PC=2.75E-8 4$IPC=0.000552 8 145SM CG M EKC=0.00060 9. Other: 0.00067 9 (1978VyZX) 145SM L 2482.15 6 145SM CL J$1996VY01 GIVE 3/2+,5/2+,7/2+ FROM 485G E1 TO 5/2- 145SM E 0.0603 31 8.10 3 145SMS E CK=0.7645 20 $CL=0.1802 15 $CM+=0.0553 5 145SM G 485.1 6 0.09 5E1 A 145SMS G CC=0.00462 7$KC=0.00395 6$LC=0.000525 8$MC=0.0001118 16$NC+=2.92E-5 5 145SMS G NC=2.52E-5 4$OC=3.74E-6 6$PC=2.24E-7 4 145SM CG M$FROM 1996VY01 BASED ON EKC 145SM G 823.3 5 0.006 2M2 0.01658 A 145SMS G KC=0.01400 20$LC=0.00203 3$MC=0.000438 7$NC+=0.0001153 17 145SMS G NC=9.95E-5 14$OC=1.492E-5 21$PC=9.24E-7 13 145SM CG M$FROM 1996VY01 BASED ON EKC. 145SM2CG SUGGESTED MULT=E1 FOR 485G IN CONFLICT WITH MULT=M2 FOR 823G 145SM G 1058.75 120.18 2 145SM G 1588.42 200.17 3 B 145SM G 2482.17 60.55 3 145SM CG M EKC=0.00079 19. Other: 0.00089 20 (1978VyZX) 145SM L 2508.31 75/2-,7/2- 145SM CL J$1996VY01 GIVE 3/2+,5/2+,7/2+ 145SM E 0.0402 33 8.10 5 145SMS E CK=0.744 3 $CL=0.1954 23 $CM+=0.0607 8 145SM G 1614.67 150.14 4 B 145SM CG M$D,E2 FROM EKC=0.010 5. Other: 0.0088 47 (1978VyZX) 145SM2CG MULT=(M2) IN 1996VY01 BASED ON EKC IS IN CONFLICT WITH JPI 145SM G 2508.24 80.46 3M1+E2 145SMS G CC=0.00102 7$KC=0.00039 3$LC=5.1E-5 4$MC=1.08E-5 8$NC+=0.00057 4 145SMS G NC=2.45E-6 18$OC=3.7E-7 3$PC=2.37E-8 19$IPC=0.00056 4 145SM CG M EKC=0.00084 27. Other: 0.00086 28 (1978VyZX) 145SM L 2512.98 9- 145SM CL J$1996VY01 GIVE 5/2-,7/2- 145SM E 0.0221 20 8.33 5 145SMS E CK=0.739 4 $CL=0.1989 25 $CM+=0.0620 9 145SM G 172.4 4 0.015 5 A 145SM G 2512.95 90.33 3E2,M1 145SMS G CC=0.00102 7$KC=0.00039 3$LC=5.1E-5 4$MC=1.08E-5 8$NC+=0.00057 4 145SMS G NC=2.44E-6 18$OC=3.7E-7 3$PC=2.36E-8 19$IPC=0.00057 4 145SM CG M EKC=0.00051 23. Other: 0.00059 25 (1978VyZX) 145SM L 2558.8810 145SM CL J$1996VY01 GIVE 3/2+,5/2+,7/2+ 145SM E 0.0012720 9.10 8 145SMS E CK=0.650 11 $CL=0.265 8 $CM+=0.086 3 145SM G 218.19 110.011 2 A 145SM G 425.50 140.024 4 C 145SM G 2559.4 40.019 3 145SM CG M EKC=0.0025 13. Other: 0.00272 190 (1978VyZX)