183OS 183IR EC DECAY 1988RO13 16NDS 201604 183OS H TYP=FUL$AUT=CORAL M. BAGLIN$CIT=NDS 134, 149 (2016)$CUT=15-Apr-2015$ 183OS C Other measurements: 1975La22, 1961Di04, 1961La05. 183OS C 1988RO13: Source produced by bombardment of PT-^B alloy target with 200 183OS2C MEV p or 280 MEV 3HE; Isocele mass separator, two HPGe detectors (FWHM 183OS3C 1.9 KEV at 1.3 MEV) for G spectroscopy (EG=15-2500), magnetic 183OS4C spectrometer (for E(ce)=44-340 KEV) and cooled SI(LI) detector for 183OS5C electron measurements; MEASURED EG, IG, I(ce), GG COIN. 183OS C TOTAL ENERGY RELEASE FOR THIS DECAY SCHEME IS 3556 323 cf. 183OS2C QxBR=3460 50. 183OS CE TI Calculated from decay scheme intensity balances, ASSIGNING 183OS2CE 0.5IG +- 0.5IG TO TRANSITIONS WITH UNCERTAIN PLACEMENTS. About 20% 183OS3CE of observed transition intensity remains unplaced, so the weaker 183OS4CE feedings may be unreliable. 183OS DG CC$FROM BrIcc v2.3 (29-Mar-2013) 2008Ki07, "Frozen Orbitals" appr. 183OS CG E FROM 1988RO13; UNCERTAINTY IS 0.1 KEV FOR EG<500 AND IG>100, 183OS2CG 0.3 KEV FOR EG>1000 AND 0.2 KEV OTHERWISE. 183OS CG RI 15% uncertainty estimated by authors, except where noted. 183OS CG M From I(CE) and IG, normalized by authors assuming E2 THEORY 183OS2CG value for 102.2G consistent with experimental L1:L2:L3 subshell ratios. 183OS3CG The authors estimate approximately 15% uncertainty in I(ce), RESULTING 183OS4CG IN AP 21% UNCERTAINTY IN THE CALCULATED CONVERSION COEFFICIENTS. 183OS CG MR FROM MEASURED ce DATA, EXCEPT AS NOTED. 183OS CG RI(D) From authors' coincidence analysis; assumed by the evaluator 183OS2CG to be approximate. 183OS CG M(F) EKC for doublet requires both components to 183OS2CG have the admixture indicated. 183OS CG M(G) Possible E1 assignment ruled out by level parities. 183OS CG M(H) Conversion coefficient too large for E1,E2 or M1; possible 183OS2CG E0 admixture. 183OS CL E FROM LEAST-SQUARES FIT TO EG OMITTING TRANSITIONS WHOSE 183OS2CL PLACEMENT IS UNCERTAIN. 183OS CL J,T(Z) FROM Adopted Levels. 183IR P 0.0 5/2- 58 M 6 3460 50 183OS N 0.098 11 0.098 11 1.0 1.0 183OS CN NR assuming SUMOF (TI TO GS+171 LEVEL)=93% 7 BASED ON 183OS2CN IB(GS)<13% IF LOGF1UT>8.5 AND NEGLIGIBLE EXPECTED FEEDING OF 171 LEVEL 183OS3CN (DJ=3, DPI=YES). The Q-value and complexity of the decay scheme 183OS4CN suggest that significant unobserved transition intensity may exist. 183OS PN 3 183OS G 84.7 2 0.62 9 183OS G 183.2 2 0.33 5 183OS G 198.2 2 0.54 8 183OS G 199.8 2 0.52 8 183OS G 330.7 2 1.1 2 183OS G 361.7 2 1.4 2 E2+M1 1.9 +13-5 0.076 14 183OSS G KC=0.057 12$LC=0.0142 11$MC=0.00341 22 183OSS G NC=0.00083 6$OC=0.000134 11$PC=6.2E-6 15 183OS CG M EKC=0.057 12. 183OS G 370.4 2 0.43 7 183OS G 371.5 2 0.64 10 183OS G 409.1 2 0.47 7 183OS G 417.1 2 0.85 13 183OS G 434.1 2 0.37 6 183OS G 436.9 2 0.76 11 183OS G 442.1 2 0.52 8 183OS G 443.8 2 0.48 7 183OS G 450.6 2 1.7 3 M1(+E2) 0.4 4 0.079 15 183OSS G KC=0.065 13$LC=0.0107 14$MC=0.0025 3 183OSS G NC=0.00060 8$OC=0.000103 14$PC=7.5E-6 16 183OS CG M EKC=0.065 14. 183OS G 464.9 2 0.71 11 183OS G 470.5 2 0.60 9 183OS G 501.7 2 0.45 7 183OS G 519.5 2 0.66 10 183OS G 559.3 2 0.93 14 183OS G 585.3 2 2.0 3 E2+M1 1.4 +8-4 0.025 5 183OSS G KC=0.020 4$LC=0.0037 5$MC=0.00087 11 183OSS G NC=0.00021 3$OC=3.6E-5 5$PC=2.3E-6 5 183OS CG M EKC=0.020 4. 183OS G 620.2 2 1.8 3 183OS G 622.8 2 2.1 3 E2+M1 2.2 +45-8 0.018 4 183OSS G KC=0.014 4$LC=0.0027 5$MC=0.00064 10 183OSS G NC=0.000156 24$OC=2.6E-5 5$PC=1.5E-6 4 183OS CG M EKC=0.014 3. 183OS G 637.2 2 3.7 6 183OS G 639.0 2 0.79 12 183OS G 661.6 2 0.96 14 183OS G 663.8 2 0.89 13 183OS G 678.3 2 2.6 4 183OS G 679.9 2 4.3 7 183OS G 686.5 2 2.0 3 183OS G 718.7 2 2.1 3 E2+M1 1.1 +7-4 0.017 4 183OSS G KC=0.014 3$LC=0.0024 4$MC=0.00055 9 183OSS G NC=0.000134 22$OC=2.3E-5 4$PC=1.6E-6 4 183OS CG M EKC=0.014 3. 183OS G 747.3 2 1.4 2 183OS G 753.1 2 1.4 2 183OS G 754.2 2 0.79 12 183OS G 757.8 2 0.73 11 183OS G 759.9 2 1.3 2 183OS G 769.0 2 0.73 11 183OS G 790.8 2 1.1 2 183OS G 806.3 2 3.7 6 E2(+M1) 2.0 +47-7 0.010021 183OSS G KC=0.0082 18$LC=0.00144 24$MC=0.00033 6 183OSS G NC=8.1E-5 13$OC=1.37E-5 24$PC=9.0E-7 21 183OS CG M EKC=0.0081 17. 183OS G 818.4 2 1.5 2 M1(+E2) 0.6 6 0.016 4 183OSS G KC=0.013 4$LC=0.0021 5$MC=0.00047 10 183OSS G NC=0.000115 23$OC=2.0E-5 4$PC=1.5E-6 4 183OS CG M EKC=0.013 3. 183OS G 835.0 2 1.7 3 183OS G 837.0 2 1.1 2 183OS G 838.8 2 2.4 4 183OS G 853.8 2 3.1 5 E2(+M1) 1.6 GE 0.0082 14 183OSS G KC=0.0067 12$LC=0.00118 16$MC=0.00027 4 183OSS G NC=6.6E-5 9$OC=1.12E-5 16$PC=7.3E-7 14 183OS CG M EKC=0.0065 14. 183OS G 868.9 2 3.5 5 M1+E2+E0 0.011 5 H 183OSS G KC=0.009 4$LC=0.0015 6$MC=0.00035 13 183OSS G NC=9.E-5 3$OC=1.5E-5 6$PC=1.0E-6 5 183OS CG M EKC=0.029 6. 183OS G 889.1 2 1.6 2 183OS G 892.0 2 2.8 4 M1 0.01499 183OSS G KC=0.01250 18$LC=0.00193 3$MC=0.000440 7 183OSS G NC=0.0001074 15$OC=1.86E-5 3$PC=1.411E-6 20 183OS CG M EKC=0.014 3. 183OS G 899.5 2 1.2 2 183OS G 901.8 2 1.1 2 183OS G 906.7 2 1.9 3 183OS G 911.9 2 1.1 2 183OS G 917.1 2 1.7 3 183OS G 936.6 2 1.0 2 183OS G 940.9 2 0.96 14 183OS G 942.0 2 2.3 3 183OS G 948.5 2 2.3 3 183OS G 950.1 2 1.7 3 183OS G 955.7 2 3.4 5 E2+M1 1.8 +28-6 0.0071 14 183OSS G KC=0.0059 12$LC=0.00098 16$MC=0.00023 4 183OSS G NC=5.5E-5 9$OC=9.4E-6 16$PC=6.4E-7 14 183OS CG M EKC=0.0059 12. 183OS G 961.2 2 1.9 3 183OS G 971.0 2 1.2 2 183OS G 978.3 2 1.4 2 183OS G 1008.2 3 2.6 4 183OS G 1024.1 3 3.9 6 183OS G 1029.5 3 2.3 3 183OS G 1032.9 3 3.7 6 183OS G 1037.2 3 1.8 3 M1 0.01026 183OSS G KC=0.00856 12$LC=0.001314 19$MC=0.000300 5 183OSS G NC=7.32E-5 11$OC=1.268E-5 18$PC=9.64E-7 14 183OS CG M EKC=0.0111 23. 183OS G 1039.7 3 1.4 2 183OS G 1057.8 3 1.2 2 183OS G 1093.7 3 1.2 2 183OS G 1096.0 3 3.3 5 183OS G 1112.7 3 1.7 3 183OS G 1129.3 3 2.1 3 (M1) 0.00829 F 183OSS G KC=0.00692 10$LC=0.001060 15$MC=0.000242 4 183OSS G NC=5.90E-5 9$OC=1.022E-5 15$PC=7.78E-7 11$IPC=9.00E-7 16 183OS CG M EKC(1129.3+1131.5)=0.0098 20. 183OS G 1131.5 3 2.0 3 (M1) 0.00825 F 183OSS G KC=0.00689 10$LC=0.001055 15$MC=0.000240 4 183OSS G NC=5.87E-5 9$OC=1.017E-5 15$PC=7.74E-7 11$IPC=9.74E-7 18 183OS CG M EKC(1129.3+1131.5)=0.0098 20. 183OS G 1177.4 3 2.5 4 183OS G 1254.2 3 3.0 5 183OS G 1260.7 3 3.1 5 183OS G 1291.1 3 1.6 2 183OS G 1308.4 3 2.0 3 183OS G 1310.9 3 2.4 4 183OS G 1354.1 3 2.0 3 183OS G 1419.7 3 2.0 3 183OS G 1422.5 3 1.6 2 183OS G 1478.8 3 3.8 6 183OS G 1500.8 3 2.1 3 183OS G 1523.7 3 1.6 2 183OS G 1532.1 3 1.8 3 183OS G 1598.7 3 2.3 3 183OS G 1673.4 3 2.9 4 183OS G 1678.2 3 2.6 4 183OS G 1691.9 3 2.1 3 183OS G 1730.5 3 3.8 6 183OS G 1745.2 3 3.4 5 183OS G 1815.4 3 2.2 3 183OS G 1875.4 3 2.5 4 183OS G 1959.6 3 3.3 5 183OS G 1976.7 3 7.9 12 183OS G 1985.4 3 2.4 4 183OS G 1994.0 3 1.9 3 183OS G 2015.6 3 8.7 13 183OS G 2035.7 3 2.2 3 183OS G 2041.9 3 5.2 8 183OS G 2192.0 3 2.7 4 183OS G 2223.5 3 3.7 6 183OS L 0.0 9/2+ 183OS E 1.1 LT 12 LT 8.5 GT 13 LT 1U? 183OSS E EAV=1090 22$CK=0.747 5$CL=0.1302 9$CM+=0.0410 3 183OS CE TI calculated assuming LOGF1UT>8.5. 183OS L 96.23 11 11/2+ 183OS E 0.23 15 1.0 6 7.9 3 1.2 8 183OSS E EAV=1058 23$CK=0.661 9$CL=0.1112 15$CM+=0.0348 5 183OS G 96.2 2 6.1 9 M1+E2 -0.39 4 6.13 10 183OS CG %IG=0.63 10 ASSUMING ADOPTED DECAY SCHEME NORMALIZATION. 183OSS G KC=4.62 13$LC=1.16 6$MC=0.277 16 183OSS G NC=0.067 4$OC=0.0109 6$PC=0.000540 15 183OS CG M,MR L1:L2=4.4 7:1.8 3; sign of MR from Adopted 183OS2CG Gammas. EL1C=0.72 15 IMPLIES MR=0.3 +4-3. 183OS L 170.70 7 1/2- 9.9 H 3 ZM1 183OS G 170.7 1 M4 208 183OSS G KC=63.1 9$LC=105.1 16$MC=30.9 5 183OSS G NC=7.71 12$OC=1.194 18$PC=0.0386 6 183OS CG E isomeric transition populated primarily directly in the 183OS2CG reaction. 183OS CG M K:L1:L2:L3:M=6.1 9:6.0 9:1.20 18:9.1 14:6.1 9. 183OS L 258.32 8 3/2- 183OS E 2.7 13 14 7 6.74 21 17 8 183OSS E EAV=986 23$CK=0.687 8$CL=0.1157 14$CM+=0.0362 5 183OS G 87.5 1 54 8 E2+M1 0.85 +18-16 7.96 14 183OS CG %IG=5.3 6 ASSUMING ADOPTED DECAY SCHEME NORMALIZATION. 183OSS G KC=4.3 6$LC=2.8 4$MC=0.69 10 183OSS G NC=0.165 24$OC=0.025 4$PC=0.00051 7 183OS CG M L1:L2:L3:M:N+=24 4:61 9:52 8:35 5:9.7 15; EL2C=1.13 24. 183OS CG MR FROM EL2C. 183OS L 273.04 8 5/2- 183OS G 14.7 2 [M1] 276 12 97 14 183OSS G L/T=0.767 23$M/T=0.178 10 183OSS G N/T=0.044 3$O/T=0.0075 5$P/T=0.00056 4 183OSS G LC=212 9$MC=49.3 22$NC=12.0 6$OC=2.07 10$PC=0.154 7 183OS CG TI $calculated from the intensity balance at the 273 level assuming 183OS2CG no direct EC feeding to that level. Authors estimated TI AP 60 183OS3CG from coincidence intensities. 183OS G 102.2 1 14.0 21 E2 3.99 183OS CG %IG=1.37 25 ASSUMING ADOPTED DECAY SCHEME NORMALIZATION. 183OSS G KC=0.774 11$LC=2.42 4$MC=0.620 10 183OSS G NC=0.1486 22$OC=0.0219 4$PC=7.98E-5 12 183OS CG M FROM L1:L2:L3:M:N+=2.1 3:17.0 26:16.0 24:9.9 15:7.5 11; 183OS2CG ELC=2.5 5. 183OS L 392.48 8 (7/2)- 183OS E 0.34 22 2.2 14 7.5 3 2.5 16 183OSS E EAV=926 23$CK=0.707 8$CL=0.1193 14$CM+=0.0374 5 183OS G 392.5 1 100 15 E1 0.01307 183OS CG %IG=9.8 19 ASSUMING ADOPTED DECAY SCHEME NORMALIZATION. 183OSS G KC=0.01090 16$LC=0.001679 24$MC=0.000383 6 183OSS G NC=9.27E-5 13$OC=1.568E-5 22$PC=1.049E-6 15 183OS CG M EKC=0.013 3. 183OS L 395.19 10 1/2- 183OS E 0.26 12 1.6 8 7.64 22 1.9 9 183OSS E EAV=925 23$CK=0.707 8$CL=0.1194 14$CM+=0.0374 5 183OS G 136.8 1 13.0 20 M1+E2 0.4 1 2.16 7 183OSS G KC=1.70 10$LC=0.353 22$MC=0.083 6 183OSS G NC=0.0203 14$OC=0.00337 19$PC=0.000196 12 183OS CG M K:L1:L2=15.0 23:3.2 5:0.56 8. EKC=1.15 24 IMPLIES 183OS2CG MR=1.0 +4-3. 183OS L 453.05 9 3/2- 183OS E 0.62 17 4.3 11 7.20 13 4.9 13 183OSS E EAV=899 23$CK=0.716 7$CL=0.1209 13$CM+=0.0379 4 183OS G 57.9 2 0.50 AP M1+E2 0.4 4 11 11 D 183OSS G LC=8 9$MC=2.0 22 183OSS G NC=0.5 5$OC=0.08 8$PC=0.0024 6 183OS CG M,MR TI=5.4 FROM AUTHORS' COIN SPECTRUM ANALYSIS IMPLIES 183OS2CG ECC AP 11 AND MR=0.4. 183OS G 179.8 2 3.1 5 [M1+E2] 0.8 3 183OSS G KC=0.6 4$LC=0.17 3$MC=0.041 9 183OSS G NC=0.0098 19$OC=0.00157 20$PC=6.E-5 4 183OS G 194.7 1 15.0 23 M1 0.850 183OSS G KC=0.703 10$LC=0.1133 16$MC=0.0260 4 183OSS G NC=0.00635 9$OC=0.001096 16$PC=8.17E-5 12 183OS CG M K:L1=13.0 20:2.3 3; EKC=0.87 18. 183OS G 282.5 1 47 7 M1(+E2) 0.11 +52-110.30 6 183OSS G KC=0.25 5$LC=0.040 3$MC=0.0092 5 183OSS G NC=0.00225 12$OC=0.00039 3$PC=2.9E-5 6 183OS CG M K:L1=11.5 17:3.0 5; EKC=0.25 5. 183OS L 486.99 10 7/2- 183OS E 0.59 18 4.3 13 7.19 15 4.9 15 183OSS E EAV=884 23$CK=0.720 7$CL=0.1217 13$CM+=0.0381 4 183OS G 213.9 2 5.0 8 [M1+E2] 0.46 20 183OSS G KC=0.34 20$LC=0.090 4$MC=0.0217 18 183OSS G NC=0.0052 4$OC=0.000848 14$PC=3.8E-5 25 183OS G 228.6 1 66 10 E2 0.213 183OSS G KC=0.1196 17$LC=0.0708 10$MC=0.0178 3 183OSS G NC=0.00427 6$OC=0.000652 10$PC=1.147E-5 17 183OS CG M EKC=0.13 3. 183OS L 509.88 11 9/2- 183OS E 0.13 5 1.0 4 7.83 17 1.1 4 183OSS E EAV=874 23$CK=0.723 7$CL=0.1223 13$CM+=0.0383 4 183OS G 236.8 1 16.0 24 E2 0.190 183OSS G KC=0.1091 16$LC=0.0614 9$MC=0.01538 22 183OSS G NC=0.00370 6$OC=0.000566 8$PC=1.052E-5 15 183OS CG M EKC=0.17 4. 183OS CG MR(M1,E2)=2.0 +17-6 FROM EKC. 183OS L 512.54 12 7/2- 183OS E 0.20 12 1.5 9 7.6 3 1.7 10 183OSS E EAV=872 23$CK=0.724 7$CL=0.1224 13$CM+=0.0383 4 183OS G 119.9 2 3.4 5M1(+E2) 0.52 LE 3.22 14 183OSS G KC=2.53 24$LC=0.52 8$MC=0.124 21 183OSS G NC=0.030 5$OC=0.0050 7$PC=0.00029 3 183OS CG M EKC=2.9 6. 183OS G 512.5 2 23 3 E1 0.00727 183OSS G KC=0.00609 9$LC=0.000918 13$MC=0.000209 3 183OSS G NC=5.06E-5 8$OC=8.61E-6 12$PC=5.96E-7 9 183OS CG M EKC=0.0078 16. 183OS L 513.09 8 5/2- 183OS E 0.33 12 2.6 9 7.41 16 2.9 10 183OSS E EAV=872 23$CK=0.724 7$CL=0.1224 13$CM+=0.0383 4 183OS G 26.1 2 0.33 5M1(+E2) 0.1 LT 62 12 183OSS G LC=48 9$MC=11.2 23 183OSS G NC=2.7 6$OC=0.45 8$PC=0.0279 8 183OS CG M,MR TI=21.0 FROM AUTHORS' COIN SPECTRUM ANALYSIS IMPLIES 183OS2CG ECC=63 9 AND MR LT 0.1. 183OS G 118.0 2 1.0 AP[E2] 2.26 D 183OSS G KC=0.600 9$LC=1.249 20$MC=0.319 6 183OSS G NC=0.0765 13$OC=0.01133 19$PC=5.67E-5 9 183OS G 239.9 1 17 3 M1 0.477 183OSS G KC=0.395 6$LC=0.0633 9$MC=0.01451 21 183OSS G NC=0.00354 5$OC=0.000612 9$PC=4.57E-5 7 183OS CG M EKC=0.48 10. 183OS G 254.9 1 12.0 18 M1 0.403 F 183OSS G KC=0.334 5$LC=0.0535 8$MC=0.01227 18 183OSS G NC=0.00300 5$OC=0.000518 8$PC=3.87E-5 6 183OS CG M EKC(254.4+254.9)=0.34 7. 183OS G 342.4 1 21 3 E2 0.0622 183OSS G KC=0.0423 6$LC=0.01514 22$MC=0.00372 6 183OSS G NC=0.000898 13$OC=0.0001408 20$PC=4.33E-6 6 183OS CG EKC=0.036 7. 183OS L 544.38 9 5/2- 183OS E 0.31 12 2.5 10 7.41 18 2.8 11 183OSS E EAV=858 23$CK=0.728 7$CL=0.1231 13$CM+=0.0386 4 183OS G 31.6 2 0.120 18M1+E2 0.34 +12-151.2E2 7 183OSL G FL=512.54 183OSS G LC=9.E1 5$MC=23 13 183OSS G NC=6 3$OC=0.8 5$PC=0.0147 9 183OS CG M,MR TI=15.0 FROM AUTHORS' COIN SPECTRUM ANALYSIS IMPLIES 183OS2CG ECC=124 19 AND MR=0.34. 183OS G 91.1 2 0.80 12 M1 7.35 12 183OSS G KC=6.07 10$LC=0.991 16$MC=0.227 4 183OSS G NC=0.0555 9$OC=0.00958 15$PC=0.000713 11 183OS CG M EL1C=1.25 25. 183OS G 151.7 2 0.46 7[M1+E2] 1.3 5 183OSS G KC=0.9 6$LC=0.32 9$MC=0.08 3 183OSS G NC=0.019 6$OC=0.0029 8$PC=0.00010 7 183OS G 271.3 1 15.0 23 M1 0.340 183OSS G KC=0.282 4$LC=0.0451 7$MC=0.01033 15 183OSS G NC=0.00252 4$OC=0.000436 7$PC=3.26E-5 5 183OS CG M EKC=0.32 7. 183OS G 286.1 2 9.8 15 M1 0.294 183OSS G KC=0.244 4$LC=0.0390 6$MC=0.00893 13 183OSS G NC=0.00218 3$OC=0.000377 6$PC=2.82E-5 4 183OS CG M K:L1=11.5 17:3.0 5; EKC=0.30 6. 183OS G 373.8 2 2.0 3 E2 0.0486 183OSS G KC=0.0340 5$LC=0.01113 16$MC=0.00272 4 183OSS G NC=0.000657 10$OC=0.0001038 15$PC=3.52E-6 5 183OS CG M EKC<0.05. 183OS CG MR(M1,E2)>1 FROM EKC. 183OS L 558.15 14 (9/2)- 183OS E 0.18 6 1.5 4 7.62 14 1.7 5 183OSS E EAV=852 23$CK=0.730 7$CL=0.1235 12$CM+=0.0387 4 183OS G 165.7 2 8.9 14 M1+E2 0.7 4 1.11 18 183OSS G KC=0.83 21$LC=0.210 24$MC=0.050 7 183OSS G NC=0.0122 17$OC=0.00198 20$PC=9.E-5 3 183OS CG M EKC=0.85 18. 183OS G 461.9 2 4.0 6E1 0.00910 183OSS G KC=0.00761 11$LC=0.001156 17$MC=0.000263 4 183OSS G NC=6.38E-5 9$OC=1.083E-5 16$PC=7.40E-7 11 183OS CG M EKC=0.0075 16. 183OS G 558.4 2 3.0 5E1 0.00607 ? 183OSS G KC=0.00508 8$LC=0.000762 11$MC=0.0001731 25 183OSS G NC=4.20E-5 6$OC=7.16E-6 10$PC=5.00E-7 7 183OS CG M EKC<0.013 3. 183OS L 582.21 10 (3/2)- 183OS E 0.26 6 2.2 4 7.44 10 2.5 5 183OSS E EAV=841 23$CK=0.733 7$CL=0.1240 12$CM+=0.0389 4 183OS G 128.9 2 4.5 7M1(+E2) 0.4 4 2.6 3 183OSS G KC=2.0 5$LC=0.43 12$MC=0.10 4 183OSS G NC=0.025 8$OC=0.0041 11$PC=0.00023 6 183OS CG M EKC=2.0 4. 183OS G 309.2 2 1.8 3 M1 0.238 183OSS G KC=0.198 3$LC=0.0315 5$MC=0.00722 11 183OSS G NC=0.001763 25$OC=0.000305 5$PC=2.28E-5 4 183OS CG M EKC=0.26 5. 183OS G 323.9 2 5.9 9 M1 0.210 183OSS G KC=0.1742 25$LC=0.0278 4$MC=0.00636 9 183OSS G NC=0.001553 22$OC=0.000268 4$PC=2.01E-5 3 183OS CG M EKC=0.22 5. 183OS G 411.5 1 11.0 17 E2(+M1) 0.07 4 F 183OSS G KC=0.06 4$LC=0.011 4$MC=0.0026 7 183OSS G NC=0.00064 17$OC=0.00011 4$PC=7.E-6 4 183OS CG M EKC(410.7+411.5)=0.026 7. 183OS L 620.78 10 7/2- 183OS E 0.30 7 2.8 6 7.34 11 3.1 7 183OSS E EAV=824 23$CK=0.738 7$CL=0.1249 12$CM+=0.0391 4 183OS G 107.6 2 3.9 6M1(+E2) 0.11 LT 4.55 183OSS G KC=3.75 6$LC=0.620 13$MC=0.143 3 183OSS G NC=0.0348 8$OC=0.00599 12$PC=0.000438 7 183OS CG M L1:L2=1.00 15:0.20 3; EL1C=0.26 5. 183OS G 167.7 2 2.0 3[E2] 0.611 183OSS G KC=0.267 4$LC=0.260 4$MC=0.0660 10 183OSS G NC=0.01584 24$OC=0.00238 4$PC=2.44E-5 4 183OS G 347.8 1 25 4 M1+E2 0.9 +4-3 0.122 21 183OSS G KC=0.098 19$LC=0.0191 16$MC=0.0045 4 183OSS G NC=0.00109 8$OC=0.000182 17$PC=1.10E-5 23 183OS CG M EKC=0.100 21. 183OS L 646.88 22 9/2- 183OS E 0.096 22 0.92 20 7.81 11 1.02 22 183OSS E EAV=813 23$CK=0.741 7$CL=0.1255 12$CM+=0.0393 4 183OS G 254.4 2 8.1 12 M1(+E2) 0.28 13 F 183OSS G KC=0.21 13$LC=0.050 4$MC=0.0119 5 183OSS G NC=0.00289 13$OC=0.00047 5$PC=2.4E-5 15 183OS CG M EKC(254.4+254.9)=0.34 7. 183OS L 655.32 11 (7/2)- 183OS E 0.08 3 0.8 3 7.86 16 0.9 3 183OSS E EAV=809 23$CK=0.742 7$CL=0.1257 12$CM+=0.0394 4 183OS G 110.8 2 2.2 3 [E2] 2.89 5 183OSS G KC=0.677 10$LC=1.67 3$MC=0.426 7 183OSS G NC=0.1022 17$OC=0.01512 25$PC=6.58E-5 10 183OS G 168 1 0.8AP [M1+E2] 0.9 4 D 183OSS G KC=0.7 4$LC=0.21 5$MC=0.052 14 183OSS G NC=0.013 3$OC=0.0020 4$PC=7.E-5 5 183OS G 655.4 2 14.0 21 E1 0.00437 183OSS G KC=0.00367 6$LC=0.000544 8$MC=0.0001233 18 183OSS G NC=3.00E-5 5$OC=5.12E-6 8$PC=3.64E-7 5 183OS CG M EKC=0.0043 9. 183OS L 669.09 9 (5/2)- 183OS E 0.20 4 2.0 4 7.47 10 2.2 4 183OSS E EAV=803 23$CK=0.744 6$CL=0.1260 12$CM+=0.0395 4 183OS G 124.3 2 3.7 6 E2(+M1) 3.4 GE 1.89 6 183OSS G KC=0.62 8$LC=0.96 3$MC=0.245 8 183OSS G NC=0.0588 18$OC=0.00875 25$PC=6.0E-5 10 183OS CG M EKC=0.57 12. 183OS G 156.2 2 0.83 12 [M1+E2] 1.2 4 183OSL G FL=513.09 183OSS G KC=0.8 5$LC=0.28 8$MC=0.069 21 183OSS G NC=0.017 5$OC=0.0026 6$PC=9.E-5 7 183OS G 181.8 2 1.70 26 [M1+E2] 0.7 3 183OSS G KC=0.5 4$LC=0.161 24$MC=0.039 8 183OSS G NC=0.0094 18$OC=0.00151 18$PC=6.E-5 4 183OS G 273.8 2 3.6 5 E2 0.1205 G 183OSS G KC=0.0747 11$LC=0.0347 5$MC=0.00863 13 183OSS G NC=0.00208 3$OC=0.000321 5$PC=7.39E-6 11 183OS CG M EKC<0.14. 183OS G 276.7 2 1.2AP [M1+E2] 0.22 11 @ 183OSF G FLAG=D 183OSS G KC=0.17 10$LC=0.038 5$MC=0.0090 8 183OSS G NC=0.00219 20$OC=0.00036 6$PC=1.9E-5 12 183OS G 396.1 2 2.0 3 M1 0.1226 183OSS G KC=0.1017 15$LC=0.01612 23$MC=0.00369 6 183OSS G NC=0.000901 13$OC=0.0001558 22$PC=1.168E-5 17 183OS CG M EKC=0.125 26. 183OS G 410.7 2 5.8 9 [M1+E2] 0.07 4 183OSS G KC=0.06 4$LC=0.011 4$MC=0.0027 7 183OSS G NC=0.00065 18$OC=0.00011 4$PC=7.E-6 4 183OS CG EKC=0.036 7 FOR DOUBLET. 183OS G 498.5 1 12.0 18E2 0.0230 183OSS G KC=0.01724 25$LC=0.00437 7$MC=0.001048 15 183OSS G NC=0.000254 4$OC=4.10E-5 6$PC=1.83E-6 3 183OS CG M EKC=0.017 4. 183OS L 714.01 11 9/2+ 183OS E 0.02 LT 0.8 LT 9.3 GT 0.8 LT 1U 183OSS E EAV=785 22$CK=0.7895 20$CL=0.1405 6$CM+=0.04437 20 183OS G 617.7 2 18.0 27 M1(+E2) 0.4 +5-4 0.035 8 183OSS G KC=0.029 7$LC=0.0046 9$MC=0.00106 18 183OSS G NC=0.00026 5$OC=4.4E-5 8$PC=3.3E-6 8 183OS CG M EKC=0.029 6. 183OS G 714.1 2 6.1 9 E2+M1 1.0 +6-4 0.018 4 183OSS G KC=0.015 4$LC=0.0025 5$MC=0.00058 10 183OSS G NC=0.000141 24$OC=2.4E-5 5$PC=1.7E-6 4 183OS CG M EKC=0.015 3. 183OS L 731.58 11 7/2+ 183OS E 0.10 4 1.1 5 7.71 19 1.2 5 183OSS E EAV=775 22$CK=0.751 6$CL=0.1274 11$CM+=0.0399 4 183OS G 635.2 2 2.2 3 [E2] 0.01295 183OSS G KC=0.01012 15$LC=0.00217 3$MC=0.000513 8 183OSS G NC=0.0001246 18$OC=2.05E-5 3$PC=1.084E-6 16 183OS G 731.6 2 28 4 E2+M1 1.0 +7-4 0.017 4 183OSS G KC=0.014 4$LC=0.0024 5$MC=0.00054 10 183OSS G NC=0.000132 23$OC=2.3E-5 4$PC=1.6E-6 4 183OS CG M EKC=0.014 3. 183OS L 748.76 17 (11/2-) 183OS E 0.014 3 0.16 4 8.55 12 0.17 4 183OSS E EAV=768 22$CK=0.753 6$CL=0.1277 11$CM+=0.0400 4 183OS G 190.7 2 0.78 12 (M1+E2) 0.6 3 183OSS G KC=0.5 3$LC=0.135 16$MC=0.033 6 183OSS G NC=0.0079 12$OC=0.00127 11$PC=5.E-5 4 183OS G 356.2 2 0.25 AP (E2) 0.0556 @ 183OSF G FLAG=D 183OSS G KC=0.0383 6$LC=0.01317 19$MC=0.00323 5 183OSS G NC=0.000779 11$OC=0.0001226 18$PC=3.94E-6 6 183OS G 748.9 2 0.36 5[E1] 0.00336 ? 183OSS G KC=0.00282 4$LC=0.000414 6$MC=9.39E-5 14 183OSS G NC=2.28E-5 4$OC=3.91E-6 6$PC=2.81E-7 4 183OS L 763.82 12 (7/2)- 183OS E 0.054 16 0.65 18 7.93 14 0.70 20 183OSS E EAV=761 23$CK=0.754 6$CL=0.1280 11$CM+=0.0401 4 183OS G 250.7 2 6.3 9 [M1+E2] 0.29 14 183OSS G KC=0.22 13$LC=0.053 4$MC=0.0125 4 183OSS G NC=0.00304 11$OC=0.00050 5$PC=2.5E-5 16 183OS G 253 1 1.2 AP [M1+E2] 0.28 13 D 183OSS G KC=0.22 13$LC=0.051 4$MC=0.0122 5 183OSS G NC=0.00295 13$OC=0.00048 5$PC=2.4E-5 16 183OS G 276.7 2 0.8 4 [M1+E2] 0.22 11 @ 183OSF G FLAG=D 183OSS G KC=0.17 10$LC=0.038 5$MC=0.0090 8 183OSS G NC=0.00219 20$OC=0.00036 6$PC=1.9E-5 12 183OS G 490.7 2 3.5 5 E2(+M1) 2 GT 0.028 5 183OSS G KC=0.022 4$LC=0.0050 5$MC=0.00120 10 183OSS G NC=0.000291 25$OC=4.8E-5 5$PC=2.4E-6 5 183OS CG M EKC=0.020 4. 183OS L 792.93 17 (11/2)+ 183OS E 0.103 19 1.30 20 7.61 9 1.40 22 183OSS E EAV=748 22$CK=0.758 6$CL=0.1286 11$CM+=0.0403 4 183OS G 137.4 2 0.50 AP [M2] 15.40 D 183OSS G KC=11.08 17$LC=3.28 5$MC=0.810 13 183OSS G NC=0.200 3$OC=0.0337 6$PC=0.00217 4 183OS G 696.9 2 4.6 7 E2 0.01054 183OSS G KC=0.00833 12$LC=0.001694 24$MC=0.000399 6 183OSS G NC=9.68E-5 14$OC=1.603E-5 23$PC=8.94E-7 13 183OS CG M EKC=0.0065 14. 183OS G 792.6 2 2.8 4 ? 183OS L 800.56 13 (5/2)+ 183OS E 0.14 4 1.8 5 7.48 13 1.9 5 183OSS E EAV=745 22$CK=0.758 6$CL=0.1288 11$CM+=0.0404 4 183OS G 800.3 2 27 4E2 0.00783 183OSS G KC=0.00628 9$LC=0.001192 17$MC=0.000279 4 183OSS G NC=6.77E-5 10$OC=1.131E-5 16$PC=6.74E-7 10 183OS CG M EKC=0.0048 10. 183OS L 832.03 11 (3/2,5/2,7/2)- 183OS E 0.14 2 1.9 3 7.44 9 2.0 3 183OSS E EAV=731 22$CK=0.762 6$CL=0.1294 10$CM+=0.0406 4 183OS G 176.6 2 0.78 12 [M1+E2] 0.8 3 183OSS G KC=0.6 4$LC=0.18 3$MC=0.043 10 183OSS G NC=0.0105 22$OC=0.00167 24$PC=6.E-5 5 183OS G 211.2 2 1.9 3 [M1+E2] 0.48 20 183OSS G KC=0.35 21$LC=0.094 4$MC=0.0227 20 183OSS G NC=0.0055 5$OC=0.000886 19$PC=4.E-5 3 183OS G 249.7 2 2.0 3 [M1+E2] 0.29 14 183OSS G KC=0.22 13$LC=0.053 4$MC=0.0127 4 183OSS G NC=0.00308 10$OC=0.00050 5$PC=2.5E-5 16 183OS G 319.1 2 6.4 10 M1 0.219 183OSL G FL=513.09 183OSS G KC=0.181 3$LC=0.0289 4$MC=0.00662 10 183OSS G NC=0.001617 23$OC=0.000280 4$PC=2.09E-5 3 183OS CG M EKC=0.23 5. 183OS G 345 1 1.6 AP [M1+E2] 0.12 6 D 183OSS G KC=0.09 6$LC=0.019 5$MC=0.0045 9 183OSS G NC=0.00109 22$OC=0.00018 5$PC=1.1E-5 7 183OS G 379.0 2 1.7 3 E2+M1 1.7 +11-4 0.070 14 183OSS G KC=0.054 12$LC=0.0125 11$MC=0.00299 23 183OSS G NC=0.00073 6$OC=0.000119 12$PC=5.9E-6 14 183OS CG M EKC AP 0.053 11. 183OS G 573.8 2 5.2 8 (E2) 0.01637 183OSS G KC=0.01260 18$LC=0.00288 4$MC=0.000686 10 183OSS G NC=0.0001663 24$OC=2.72E-5 4$PC=1.346E-6 19 183OS CG M EKC=0.0077 16. 183OS L 850.20 13 (3/2,5/2,7/2)- 183OS E 0.048 9 0.68 10 7.87 9 0.73 11 183OSS E EAV=723 22$CK=0.764 6$CL=0.1298 10$CM+=0.0407 4 183OS G 267.7 2 1.20 18 [M1+E2] 0.24 12 183OSS G KC=0.19 11$LC=0.042 5$MC=0.0101 7 183OSS G NC=0.00244 18$OC=0.00040 6$PC=2.1E-5 13 183OS G 457.9 2 3.8 AP (E2) 0.0284 @ 183OSF G FLAG=DF 183OSS G KC=0.0210 3$LC=0.00569 8$MC=0.001372 20 183OSS G NC=0.000332 5$OC=5.33E-5 8$PC=2.21E-6 4 183OS CG M EKC(doublet)=0.029 6; THIS IS THE DOMINANT PLACEMENT. 183OS G 592.0 2 3.5 5 E2(+M1) 1.9 +24-6 0.021 5 183OSS G KC=0.017 4$LC=0.0033 5$MC=0.00077 11 183OSS G NC=0.00019 3$OC=3.1E-5 5$PC=1.9E-6 5 183OS CG M EKC=0.017 4. 183OS L 896.76 14 7/2+ 183OS E 0.066 19 1.0 3 7.68 13 1.1 3 183OSS E EAV=703 22$CK=0.768 5$CL=0.1307 10$CM+=0.0410 3 183OS G 896.8 2 15.0 23 M1+E2 1.5 +14-5 0.0088 18 183OSS G KC=0.0073 15$LC=0.00121 21$MC=0.00028 5 183OSS G NC=6.8E-5 11$OC=1.16E-5 20$PC=8.0E-7 18 183OS CG M EKC=0.0073 15. 183OS L 944.31 12 (3/2,5/2)- 183OS E 0.067 13 1.15 19 7.61 9 1.22 20 183OSS E EAV=682 22$CK=0.772 5$CL=0.1315 10$CM+=0.0413 3 183OS G 457.9 2 1.4 AP [M1+E2] 0.06 3 @ 183OSF G FLAG=D 183OSS G KC=0.045 25$LC=0.008 3$MC=0.0019 6 183OSS G NC=0.00047 14$OC=8.E-5 3$PC=5.E-6 3 183OS G 551.5 2 0.85 13 183OS G 671.2 2 6.7 10 E2+M1 1.2 +6-4 0.019 4 183OSS G KC=0.016 4$LC=0.0027 5$MC=0.00064 10 183OSS G NC=0.000155 24$OC=2.6E-5 5$PC=1.8E-6 4 183OS CG M EKC=0.016 3. 183OS G 685.8 2 2.5 4 183OS G 773.8 2 1.60 24 ? 183OS L 964.83 16 (3/2,5/2)- 183OS E 0.054 12 0.98 20 7.68 11 1.03 21 183OSS E EAV=673 22$CK=0.774 5$CL=0.1319 9$CM+=0.0414 3 183OS G 691.9 2 6.5 10 E2+M1 1.2 +7-4 0.018 4 183OSS G KC=0.015 3$LC=0.0025 4$MC=0.00059 9 183OSS G NC=0.000143 22$OC=2.4E-5 4$PC=1.6E-6 4 183OS CG M EKC=0.015 3. 183OS G 706.4 2 2.3 3 M1 0.0271 183OSS G KC=0.0226 4$LC=0.00351 5$MC=0.000802 12 183OSS G NC=0.000196 3$OC=3.39E-5 5$PC=2.56E-6 4 183OS CG M EKC=0.026 5. 183OS G 794.2 2 1.5 14 183OS L 1039.19 22 (5/2,7/2,9/2)- 183OS E 0.0055 13 0.118 23 8.57 10 0.124 24 183OSS E EAV=640 22$CK=0.780 4$CL=0.1332 9$CM+=0.0418 3 183OS G 552.2 2 1.20 18 M1 0.0512 183OSS G KC=0.0425 6$LC=0.00667 10$MC=0.001525 22 183OSS G NC=0.000372 6$OC=6.44E-5 9$PC=4.85E-6 7 183OS CG M EKC=0.058 12 183OS G 766.1 2 1.8 3 H ? 183OS CG M EKC=0.111 23. 183OS L 1045.95 12 (5/2+) 183OS E 0.048 12 1.04 22 7.62 11 1.09 23 183OSS E EAV=637 22$CK=0.781 4$CL=0.1333 9$CM+=0.0418 3 183OS G 245.2 2 0.49 7 [M1+E2] 0.31 14 183OSS G KC=0.24 14$LC=0.057 4$MC=0.01351 25 183OSS G NC=0.00328 8$OC=0.00053 5$PC=2.6E-5 17 183OS G 314.4 2 4.5 7 M1+E2 0.5 +4-5 0.20 4 183OSS G KC=0.16 4$LC=0.0282 24$MC=0.0065 5 183OSS G NC=0.00159 12$OC=0.000271 25$PC=1.8E-5 4 183OS CG M EKC=0.16 3. 183OS G 332.0 2 1.10 17 [E2] 0.0679 183OSS G KC=0.0457 7$LC=0.01691 24$MC=0.00416 6 183OSS G NC=0.001004 15$OC=0.0001571 23$PC=4.65E-6 7 183OS G 1045.9 3 10.0 15 (E2) 0.00454 183OSS G KC=0.00372 6$LC=0.000637 9$MC=0.0001472 21 183OSS G NC=3.58E-5 5$OC=6.06E-6 9$PC=3.98E-7 6 183OS CG M EKC=0.0020 4. 183OS L 1054.34 14 (5/2,7/2,9/2)- 183OS E 0.069 15 1.5 3 7.45 10 1.6 3 183OSS E EAV=633 22$CK=0.782 4$CL=0.1334 9$CM+=0.0419 3 183OS G 544.6 2 0.88 13 183OS G 567.2 2 1.80 27 M1 0.0477 183OSS G KC=0.0397 6$LC=0.00622 9$MC=0.001422 20 183OSS G NC=0.000347 5$OC=6.00E-5 9$PC=4.52E-6 7 183OS CG M EKC=0.050 11. 183OS G 781.3 2 13.0 20 E2(+M1) 1.7 GE 0.0099 17 183OSS G KC=0.0080 14$LC=0.00145 19$MC=0.00034 5 183OSS G NC=8.2E-5 11$OC=1.38E-5 19$PC=8.7E-7 17 183OS CG M EKC=0.0077 16. 183OS L 1180.87 17 (3/2,5/2)- 183OS E 0.010 2 0.32 6 8.08 10 0.33 6 183OSS E EAV=578 22$CK=0.791 4$CL=0.1353 8$CM+=0.04247 24 183OS G 727.9 2 1.40 21 183OS G 785.6 2 2.0 3 E2 0.00814 183OSS G KC=0.00652 10$LC=0.001248 18$MC=0.000292 4 183OSS G NC=7.09E-5 10$OC=1.183E-5 17$PC=7.00E-7 10 183OS CG M EKC=0.0050 11. 183OS L 1236.76 15 (7/2)+ 183OS G 505.1 2 1.40 21 M1+E2 1.0 +5-3 0.043 9 183OSS G KC=0.035 8$LC=0.0063 9$MC=0.00147 18 183OSS G NC=0.00036 5$OC=6.0E-5 9$PC=4.0E-6 9 183OS CG M EKC=0.036 7. 183OS G 522.8 2 3.4 5(M1) 0.0590 F 183OSS G KC=0.0490 7$LC=0.00770 11$MC=0.001762 25 183OSS G NC=0.000430 6$OC=7.44E-5 11$PC=5.60E-6 8 183OS CG M EKC(521.3+522.8)=0.096 10. 183OS G 1140.2 3 1.7 16 183OS L 1252.96 15 5/2+ 183OS E ? 183OS CE TI more intensity deexcites than feeds this level. 183OS G 356.2 2 1.1 AP M1 0.1628 @ 183OSF G FLAG=DF 183OSS G KC=0.1350 19$LC=0.0215 3$MC=0.00491 7 183OSS G NC=0.001200 17$OC=0.000207 3$PC=1.553E-5 22 183OS CG M EKC(doublet)=0.046 10. 183OS G 521.3 2 4.0 6(M1) 0.0595 F 183OSS G KC=0.0494 7$LC=0.00776 11$MC=0.001775 25 183OSS G NC=0.000433 6$OC=7.50E-5 11$PC=5.64E-6 8 183OS CG M EKC(521.3+522.8)=0.096 10. 183OS L 1295.46 18 (5/2,7/2)+ 183OS E 0.0030 15 0.13 6 8.44 21 0.13 6 183OSS E EAV=527 22$CK=0.797 3$CL=0.1369 7$CM+=0.04297 21 183OS G 494.9 2 3.2 5 E2+M1 1.7 +11-5 0.035 7 183OSS G KC=0.028 6$LC=0.0056 7$MC=0.00132 15 183OSS G NC=0.00032 4$OC=5.3E-5 7$PC=3.0E-6 7 183OS CG M EKC=0.028 6. 183OS G 581.4 2 0.58 9 ? 183OS L 1332.58 23 (1/2,3/2,5/2)- 183OS E 0.016 4 0.74 13 7.65 9 0.76 13 183OSS E EAV=511 22$CK=0.7990 25$CL=0.1373 7$CM+=0.04312 21 183OS G 1059.7 3 2.7 4 183OS G 1074.1 3 5.1 8 M1+E2 0.9 +7-5 0.0071 16 183OSS G KC=0.0059 14$LC=0.00093 19$MC=0.00021 5 183OSS G NC=5.2E-5 11$OC=9.0E-6 19$PC=6.6E-7 16 183OS CG M EKC=0.0059 12. 183OS L 1911.52 17 (3/2-,5/2,7/2-) 183OS E 0.0012 6 0.92 13 7.28 9 0.92 13 183OSS E EAV=256 23$CK=0.81118 9$CL=0.1426 4$CM+=0.04494 14 183OS G 1399.1 3 4.6 7 183OS G 1424.1 3 1.30 20 183OS G 1458.8 3 1.75 11 183OS G 1519.0 3 1.70 26 183OS L 1921.03 23 1/2,3/2,5/2- 183OS E 0.0007 4 0.61 11 7.45 10 0.61 11 183OSS E EAV=252 23$CK=0.8112 2$CL=0.1427 4$CM+=0.04496 14 183OS G 1468.0 3 5.4 8 183OS G 1525.8 3 0.85 13 183OS L 1977.95 15 (3/2)+ 183OS E 0.0016 9 2.2 4 6.86 10 2.2 4 183OSS E EAV=226 23$CK=0.8110 3$CL=0.1431 4$CM+=0.04512 15 183OS G 682.5 2 1.9 3M1 0.0296 183OSS G KC=0.0247 4$LC=0.00384 6$MC=0.000877 13 183OSS G NC=0.000214 3$OC=3.71E-5 6$PC=2.80E-6 4 183OS CG M EKC=0.026 6. 183OS G 724.9 2 8.5 13 M1+E2 0.8 +5-4 0.019 4 183OSS G KC=0.016 4$LC=0.0026 5$MC=0.00060 10 183OSS G NC=0.000146 25$OC=2.5E-5 5$PC=1.8E-6 4 183OS CG M EKC=0.016 3. 183OS G 931.9 2 6.0 9 M1+E2 1.5 +15-5 0.0081 16 183OSS G KC=0.0067 14$LC=0.00110 19$MC=0.00025 5 183OSS G NC=6.2E-5 11$OC=1.06E-5 19$PC=7.3E-7 16 183OS CG M EKC=0.0067 14. 183OS G 1705.3 3 4.7 7 183OS G 1806.9 3 1.5 14 183OS L 2083.43 23 (1/2,3/2,5/2-) 183OS E 0.53 8 7.41 9 0.53 8 183OSS E CK=0.8104 5$CL=0.1439 5$CM+=0.04544 16 183OS G 1630.8 3 3.0 AP @ 183OSF G FLAG=DH 183OS CG M EKC(doublet)=0.0025 5 FOR DOUBLET WHICH PRIMARILY DEEXCITES 183OS2CG THE 2300 LEVEL. 183OS G 1687.8 3 2.4 4 183OS L 2219.11 24 (5/2-,7/2) 183OS E 0.23 4 7.68 10 0.23 4 183OSS E CK=0.8089 7$CL=0.1452 6$CM+=0.04590 20 183OS G 1455.0 3 1.00 15 183OS G 1709.5 3 1.30 20 183OS L 2249.34 23 (5/2+,7/2) 183OS E 0.54 9 7.28 10 0.54 9 183OSS E CK=0.8085 8$CL=0.1455 6$CM+=0.04602 21 183OS G 1517.5 3 1.60 24 183OS G 1857.1 3 3.5 5 @ 183OSF G FLAG=D 183OS G 2249.8 3 0.82 12 ? 183OS L 2254.58 193/2(-),5/2,7/2(-) 183OS E 0.84 13 7.09 9 0.84 13 183OSS E CK=0.8084 8$CL=0.1455 6$CM+=0.04604 21 183OS G 1404.4 3 1.50 23 183OS G 1801.3 3 2.6 4 183OS G 1862.3 3 4.5 7 183OS L 2258.31 14 (7/2) 183OS E 1.6 3 6.81 10 1.6 3 183OSS E CK=0.8084 8$CL=0.1456 6$CM+=0.04605 21 183OS G 1494.3 3 1.60 24 183OS G 1544.4 3 2.3 3 183OS G 1638.0 3 1.40 21 183OS G 1700.0 3 5.7 9 183OS G 1747.9 3 1.30 20 183OS G 1866.1 3 2.6 4 183OS G 2258.7 3 3.8 6 ? 183OS L 2273.79 10 (7/2)- 183OS E 7.6 10 6.12 9 7.6 10 183OSS E CK=0.8081 8$CL=0.1457 6$CM+=0.04611 22 183OS G 1377.0 3 1.00 15 183OS G 1441.7 3 3.0 5 183OS G 1473.7 3 1.70 26 183OS G 1509.8 3 4.5 7 183OS G 1542.4 3 1.40 21 183OS G 1559.5 3 11.0 17 183OS G 1604.5 3 2.4 4 183OS G 1618.9 3 2.9 4 183OS G 1652.8 3 15.0 23 E2 0.00202 183OSS G KC=0.001586 23$LC=0.000245 4$MC=5.59E-5 8 183OSS G NC=1.361E-5 19$OC=2.34E-6 4$PC=1.688E-7 24$IPC=0.0001219 18 183OS CG M EKC=0.0013 3. 183OS G 1760.3 3 8.9 13 183OS G 1763.6 3 2.3 3 183OS G 1820.9 3 2.7 4 183OS G 1881.8 3 1.50 23 183OS G 2000.6 3 18 3 183OS G 2273.6 3 3.1 5 ? 183OS L 2300.03 11 (5/2)- 183OS E 8.1 10 6.07 8 8.1 10 183OSS E CK=0.8077 9$CL=0.1460 6$CM+=0.04622 23 183OS G 1063.2 3 9.5 14 E1 1.74E-3 183OSS G KC=0.001468 21$LC=0.000211 3$MC=4.78E-5 7 183OSS G NC=1.161E-5 17$OC=2.00E-6 3$PC=1.480E-7 21 183OS CG M EKC<0.0021 4. 183OS G 1403.4 3 2.0 3 183OS G 1498.8 3 2.1 3 183OS G 1568.5 3 4.8 7 183OS G 1630.8 3 17 AP (E2) 0.00206 @ 183OSS G KC=0.001625 23$LC=0.000251 4$MC=5.74E-5 8 183OSS G NC=1.398E-5 20$OC=2.40E-6 4$PC=1.730E-7 25$IPC=0.0001134 16 183OSF G FLAG=D 183OS CG M EKC=0.0025 5 FOR DOUBLET FOR WHICH THIS IS DOMINANT 183OS2CG PLACEMENT. 183OS G 1644.8 3 2.0 3 183OS G 1717.8 3 4.2 6 183OS G 1755.3 3 11.0 17 183OS G 1787.0 3 10.0 15 183OSL G FL=513.09 183OS G 1812.8 3 3.4 5 183OS G 1848.0 3 2.5 4 183OSL G FL=453.05 183OS CG E reported as 1848 KEV. Missing precision assumed by the 183OS2CG evaluator. 183OS G 1904.7 3 3.5 5 183OS G 1907.7 3 11.0 17 183OS L 2310.49 23 3/2,5/2,7/2(-) 183OS E 0.54 9 7.24 10 0.54 9 183OSS E CK=0.8076 9$CL=0.1462 7$CM+=0.04627 23 183OS G 1728.6 3 2.5 4 183OS G 1857.1 3 3.0 5 @ 183OSF G FLAG=D 183OS L 2511.21 23 (5/2+,7/2) 183OS E 0.46 8 7.13 11 0.46 8 183OSS E CK=0.8036 13$CL=0.1490 10$CM+=0.0474 4 183OS G 1797.1 3 2.2 3 183OS G 1890.5 3 2.5 4