158GD 157GD(N,G) E=TH, RES 1978GR14,1970BO29,1994GRZZ 158GD H TYP=ERR$AUT=J. TULI$COM=CHANGED DSID$ 158GD H TYP=FUL$AUT=R. G. Helmer$CIT=NDS 77,471 (1996)$CUT=1-Oct-1995$ 158GD C E=thermal (1978Gr14) and resonance-averaged (1970Bo29,1994GrZZ). In 158GD2C thermal capture, measured primary- and secondary-transitions EG, IG, 158GD3C ECE, ICE, GG-coin with Ge(Li), curved-crystal spectrometer, and 158GD4C magnetic spectrometers. 158GD C 1994Al41 report a large number of 2 G cascades that sum to the 158GD2C thermal-neutron capture state, or to this value minus the energy 158GD3C of the 1st or 2nd excited level. Where the authors have 158GD4C indicated the energy of the intermediate level, the level 158GD5C and the associated G are listed in this data set, if they are 158GD6C not already reported by others. These levels and G's are 158GD7C flagged. In several cases the authors list a level that is fed 158GD8C by a primary G whose energy is less than that of the secondary 158GD9C G; these levels are not included here. None of the data from 158GD0C this study has been included in the 158GD Adopted Levels, Gammas. 158GD C Others: 1960Kn01, 1960Wa09, 1962Gr33, 1968Be71, 1968SpZZ, 1970As03, 158GD2C 1970Be81, 1970Da25, 1970Ei04, 1970Fr03, 1970Mi09, 1970Pa20, 1971Pa35, 158GD3C 1973Wh04, 1974Sh03, 1991AlZU, 1992AlZL, 1994Ca05. 158GD CL E Below 2200 keV, from least-squares fit to G energies 158GD2CL (1978Gr14). Above 2270 keV, from measured primary G energies from 158GD3CL thermal-neutron capture (1978Gr14) and resonance-averaged, 2-keV 158GD4CL and 24-keV, n capture (1994GrZZ). 158GD5CL The thermal-neutron capture-state energy is 7937.1 5. 158GD CL E All of the levels reported from the thermal-n capture 158GD2CL are included here. For levels reported only in the unpublished 158GD3CL resonance-averaged n capture (1994GrZZ), they are only included 158GD4CL if they are reported in both 2-keV and 24-keV n capture, 158GD5CL and they are identified by a comment. 158GD CL J From 158GD Adopted Levels, except for the capture state. 158GD2CL For levels above 2270 keV the parity assignments are from the 158GD3CL G multipolarities and the assumption that the thermal-n capture 158GD4CL state has JPI=1-,2- (s-wave capture). See 158GD5CL 158GD Adopted Levels for band parameters and configurations. 158GD CG E From 1978Gr14 where the values are relative to the 79.5104 158GD2CG value from 1961Sc19. Since the Gd K x-ray energies used for the 158GD3CG reference lines in 1961Sc19 are probably not the current best 158GD4CG values, the values from 1978Gr14 will have a constant fractional 158GD5CG error relative to the modern keV scale. 158GD CG RI From 1978Gr14 for thermal-n capture. 158GD CG M Assignments are based on EKC and K/L of 1978Gr14, except 158GD2CG as noted otherwise; other: 1962Gr33, 1970Pa20. For the secondary G's 158GD3CG the relative G and CE intensities were normalized so that EKC is 158GD4CG the E2 theory value for the 79, 181, and 277 G's. Multipolarities 158GD5CG for these G's were determined from the ground-state rotational 158GD6CG band structure as well as the K/L ratios (1978Gr14). For the 158GD7CG primary G's, this normalization is based on the assumption that 158GD8CG the 6750 G is pure E1, which is consistent with the JPI's of 158GD9CG its initial and final levels. 158GD CL E(K) Thermal-neutron capture state is dominated by 2- resonance. 158GD CL E(T) Level questionable in thermal-n capture (1978Gr14), but 158GD2CL verified in resonance-averaged n capture (1994GrZZ). 158GD CL E(V) From resonance-averaged n capture (1994GrZZ) only. 158GD CL E(W) From 1994Al41. 158GD CG E(W) From 1994Al41. 158GD CG RI(R) Component of an unresolved multiplet; only part of IG 158GD2CG can be ascribed to this decay mode 158GD CG RI(S) 1978Gr14 suggest that, because of poor energy agreement, 158GD2CG only part of IG be ascribed to this decay mode 158GD CG M(U) E2,M1 from EKC (1978Gr14) and M1 from averaged-resonance 158GD2CG capture (1970Bo29 as reanalyzed in 1978Gr14). 158GD CG M(A) EKC is larger than KC(M1). 158GD CG M(B),MR(B)$If JPI's are used to require G be E1+M2, then MR=0.28 +3-5. 158GD CL BAND(A) GROUND-STATE ROTATIONAL BAND 158GD CL BAND(B) K=1- OCTUPOLE-VIBRATIONAL BAND 158GD CL BAND(C) K=2+ GAMMA-VIBRATIONAL BAND. 158GD CL BAND(D) K=0+ 158GD CL BAND(E) K=0- OCTUPOLE-VIBRATIONAL BAND 158GD CL BAND(F) K=4+. 158GD CL BAND(G) K=0+ 158GD CL BAND(H) K=4-. 158GD CL BAND(J) K=0+ 158GD CL BAND(Q) K=2- OCTUPOLE-VIBRATIONAL BAND 158GD CL BAND(L) K=1+ 158GD CL BAND(M) K=1- 158GD CL BAND(N) K=4+. 158GD CL BAND(P) K=1+ 158GD CL BAND(S) K=0+ 158GD CL E(U) Resonance-averaged data suggest there may be an additional 158GD2CL level at about 2320 keV. 158GD CL E(X) Resonance-averaged data suggest this may represent two 158GD2CL levels at about 2592 and 2597 keV. 158GD CL E(Y) Level questionable in thermal-n capture (1978Gr14). In 158GD2CL resonance-averaged n capture, levels are reported at 2797 from 158GD3CL 24-keV n capture and 2801 from 2-keV n capture. 158GD CL E(Z) Resonance-averaged data suggest this may represent two 158GD2CL levels at about 3041 and 3050 keV. 158GD CG M(C) From EKC for doubly-placed 832G if component from 1371 158GD2CG level is an E1 158GD CG M(D) EKC for 1061.64 + 1062.34 is consistent with mult(1061G): 158GD2CG mult(1062G)=E1:E2 or M1:E1. 158GD N 0.0094 0.0094 158GD cN SIGMAN=254000 800 158GD G 80.4928 17 1.7 3 E2 158GD G 99.832 7 0.09 3 158GD G 116.661 6 0.12 3 158GD G 120.744 4 0.09216 158GD G 122.155 20 0.06 3 158GD G 124.675 14 0.03018 158GD G 124.837 11 0.04018 158GD G 131.813 8 0.06620 158GD G 134.302 5 0.27 3 158GD G 139.2656 25 0.38 4 158GD G 139.93 5 0.07513 158GD G 142.478 12 0.045 9 158GD G 142.789 20 0.02115 158GD G 143.983 4 0.10014 158GD G 145.7815 3 0.43 4 158GD G 149.222 17 0.03717 158GD G 150.590 22 0.015 4 158GD G 151.927 7 0.13518 158GD G 153.477 4 0.11414 158GD G 164.099 17 0.05 3 158GD G 167.390 5 0.050 7 158GD G 172.616 12 0.02211 158GD G 185.858 8 0.06012 158GD G 189.119 11 0.05610 158GD G 192.970 5 0.18016 158GD G 193.271 15 0.03111 158GD G 193.808 6 0.07110 158GD CG M EKC suggests E0 with M1,E2. 158GD G 194.875 5 0.09713 158GD CG M EKC suggests E0 with M1,E2. 158GD G 196.922 10 0.030 9 158GD CG M EKC suggests E0 with M1,E2. 158GD G 197.368 12 0.02610 158GD G 197.718 14 0.02411 158GD G 198.112 5 0.09310 158GD G 198.392 5 0.25923 158GD G 198.925 5 0.16917 158GD G 200.899 20 0.02912 158GD G 203.529 14 0.10225 158GD G 204.111 5 1.99 16 E1 158GD G 205.438 5 0.49 4 M1,E2 158GD G 208.890 9 0.06713 158GD G 209.005 7 0.09413 158GD G 209.437 11 0.02910 158GD G 210.384 20 0.02111 158GD G 211.047 7 0.07511 M1,E2 158GD G 212.842 17 0.09 3 158GD G 214.018 25 0.04420 158GD G 215.303 5 0.12710 158GD G 218.817 5 0.51 5 158GD G 220.587 12 0.02910 158GD G 221.623 9 0.04910 158GD G 222.291 15 0.03412 158GD G 223.967 15 0.06115 158GD G 224.175 14 0.05812 158GD G 224.998 17 0.025 6 158GD G 226.482 20 0.06423 158GD G 226.568 12 0.08016 158GD G 228.110 11 0.042 8 158GD G 229.172 25 0.02113 158GD G 229.895 6 0.21221 158GD G 233.224 10 0.055 9 158GD G 233.568 5 0.46 4 158GD G 235.117 6 0.28 3 158GD G 236.901 17 0.03313 158GD G 237.375 8 0.05610 158GD G 239.881 10 0.047 8 158GD G 240.316 11 0.037 7 158GD G 241.298 17 0.037 7 158GD G 241.446 12 0.046 7 158GD G 242.131 5 0.19716 158GD G 244.733 17 0.05823 158GD G 248.008 10 0.049 7 158GD G 250.940 17 0.04012 158GD G 251.398 20 0.062 7 158GD G 252.296 8 0.063 9 158GD G 254.316 7 0.08510 158GD G 256.540 6 0.12411 158GD G 257.260 17 0.028 7 158GD G 258.620 12 0.045 8 158GD G 260.65 3 0.02511 158GD G 261.003 6 0.15412 158GD G 262.916 20 0.035 9 158GD G 263.879 14 0.04012 158GD G 265.856 20 0.03711 158GD G 266.524 10 0.07310 158GD G 271.433 20 0.04413 158GD G 272.81 4 0.031 9 158GD G 272.954 11 0.10313 158GD G 276.024 7 0.14214 158GD G 278.221 20 0.06216 158GD G 278.780 20 0.05414 158GD G 279.278 14 0.055 9 158GD G 280.812 9 0.13513 158GD G 281.589 8 0.09710 158GD G 284.347 13 0.07311 158GD G 285.650 17 0.04810 158GD G 286.230 7 0.20318 158GD G 286.86 4 0.04721 158GD G 287.251 15 0.04211 158GD G 287.990 20 0.09 3 158GD G 288.074 20 0.12 3 158GD G 289.321 8 0.18316 M1 158GD G 290.832 17 0.046 9 158GD G 291.743 20 0.09920 158GD G 292.501 7 0.20118 158GD G 295.136 20 0.047 9 158GD G 295.474 15 0.08314 158GD G 296.050 7 0.29 2 158GD G 298.229 14 0.04910 158GD G 299.275 25 0.04112 158GD G 299.596 8 0.19618 158GD G 301.218 17 0.78 9 E2 158GD CG M EKC is also consistent with E1+M2 with MR=0.24 8. 158GD G 301.65 3 0.05620 158GD G 301.791 8 0.87 6 E2 158GD CG M EKC is also consistent with E1+M2. 158GD G 303.68 3 0.03914 158GD G 303.95 5 0.02314 158GD G 304.263 25 0.05414 158GD G 305.47 4 0.04317 158GD G 305.631 20 0.11820 158GD G 307.612 13 0.07411 158GD G 308.19 40 0.02712 158GD G 308.420 15 0.06812 (M1) 158GD G 308.751 30 0.03914 158GD G 309.266 8 0.20018 158GD G 311.653 8 0.26321 M1 158GD G 312.46 3 0.04313 158GD G 314.155 25 0.06717 (M1) 158GD G 314.99 3 0.14 6 158GD G 315.722 20 0.05013 158GD G 316.816 7 0.76 6 158GD G 317.012 25 0.06216 158GD G 317.506 25 0.05915 158GD G 318.332 9 0.23619 158GD G 319.37 3 0.04313 158GD G 319.846 17 0.10221 158GD G 320.00 6 0.02613 158GD G 320.353 13 0.09212 158GD G 321.876 17 0.08114 158GD G 322.125 14 0.088 9 158GD G 322.553 8 0.40 3 M1 158GD G 323.790 20 0.05110 158GD G 325.772 9 0.24319 158GD G 328.272 7 1.95 14 M1 158GD G 328.857 13 0.09513 158GD G 331.198 25 0.07615 158GD G 331.948 17 0.09013 158GD G 334.52 3 0.08922 158GD G 334.72 3 0.07819 158GD G 335.855 25 0.14822 158GD G 337.343 25 0.07418 158GD G 337.759 25 0.05010 158GD G 338.968 7 6.7 5 E1 158GD G 341.716 7 9.3 6 M1 158GD G 342.140 10 0.61 5 158GD G 343.200 10 0.27122 M1 158GD G 343.88 6 0.02511 158GD G 345.024 20 0.14522 158GD G 345.23 4 0.11 3 158GD G 345.778 10 0.37 3 E1 158GD G 346.55 4 0.7 2 158GD G 347.452 10 0.29123 M1,E2 158GD G 348.249 17 0.09319 (M1) 158GD G 349.101 17 0.15 3 158GD G 349.426 17 0.11415 158GD G 349.70 4 0.05416 158GD G 350.856 25 0.08414 158GD G 351.06 4 0.05216 158GD G 352.047 14 0.14 5 M1,E2 158GD G 353.58 6 0.03517 158GD G 353.75 7 0.03119 158GD G 355.11 5 0.05620 158GD G 357.86 4 0.08020 158GD G 359.149 20 0.14 4 158GD G 360.59 5 0.06623 158GD G 360.703 20 0.14 3 158GD G 361.51 4 0.07218 158GD G 361.83 5 0.05121 158GD G 362.703 20 0.14 3 158GD G 363.249 13 0.41 5 M1 158GD G 363.425 12 0.47 6 (M1) 158GD G 367.625 20 0.13616 158GD G 368.830 25 0.09715 158GD G 370.11 4 0.07218 158GD G 370.43 5 0.07422 158GD G 371.471 17 0.13117 (M1) 158GD G 372.969 25 0.10421 158GD G 374.073 25 0.11216 158GD G 375.909 20 0.12213 M1 158GD G 376.98 5 0.07623 158GD G 377.24 5 0.08 3 158GD G 380.330 14 0.20823 M1,E2 158GD G 381.34 5 0.05414 158GD G 382.64 3 0.08715 158GD G 382.970 20 0.17723 158GD G 383.058 25 0.15622 158GD G 386.333 20 0.15717 158GD G 386.821 20 0.22024 M1,E2 158GD G 387.06 6 0.09 4 158GD G 387.774 20 0.11915 158GD G 388.46 5 0.19 5 158GD G 389.83 3 0.20 3 158GD G 391.974 20 0.20322 M1 158GD G 392.62 4 0.11 3 158GD G 394.61 6 0.09 3 158GD G 396.29 4 0.13 5 158GD G 396.527 20 0.35 5 158GD G 397.056 20 0.031 5 158GD CG M Large EKC suggests E0+M1,E2 158GD G 397.863 25 0.13019 M1,E2 158GD G 399.162 14 0.48 4 158GD G 402.150 11 0.62 4 M1 158GD G 403.211 20 0.26 3 E2 158GD G 407.92 5 0.12224 158GD G 408.430 12 0.88 7 158GD G 408.751 20 1.02 11 158GD G 408.937 25 0.43 7 158GD G 410.070 25 0.31 4 E2 158GD G 410.89 6 0.09 3 158GD G 412.289 25 0.33 7 158GD G 412.46 3 0.34 7 M1,E2 158GD G 413.612 25 0.23 3 158GD G 414.682 25 0.33 4 E2 158GD G 416.39 5 0.13 3 158GD G 417.06 3 0.22 3 158GD G 418.515 17 0.32 4 M1 158GD G 419.942 25 0.26 3 158GD G 424.68 5 0.28 6 158GD G 425.230 20 0.42 5 158GD G 426.52 5 0.21 4 158GD G 426.842 25 0.31 4 158GD G 427.49 3 0.20 3 158GD G 427.94 7 0.22 7 M1 158GD G 428.21 6 0.23 7 158GD G 428.88 6 0.14 3 158GD G 429.87 3 0.35 5 158GD G 430.34 3 0.29 5 158GD G 431.21 6 0.19 6 158GD G 432.055 25 0.16 5 158GD G 432.300 17 0.26 6 158GD G 432.744 17 0.21 5 158GD G 433.218 20 0.08722 158GD G 435.755 17 1.06 11 M1 158GD G 438.551 20 0.70 10 158GD G 439.226 12 2.01 14 E2 158GD G 443.05 20 0.1 LT 158GD CG M Large EKC suggests E0+M1,E2 158GD G 443.99 6 0.26 6 158GD G 445.19 9 0.29 10 158GD G 445.66 3 0.24 3 M1 158GD CG M EKC is larger than KC(M1). 158GD G 447.63 15 0.1 LT 158GD CG M Large EKC suggests E0+M1,E2 158GD G 448.91 15 0.1 LT 158GD CG M Large EKC suggests E0+M1,E2 158GD G 450.70 5 0.31 6 158GD G 451.17 10 0.1 LT 158GD CG M Large EKC suggests E0+M1,E2 158GD G 453.161 20 0.48 4 E2 158GD G 454.64 4 0.46 12 158GD G 454.99 7 2.5 6 158GD G 455.153 14 3.5 3 158GD G 456.465 15 0.94 8 E2 158GD G 457.78 4 0.37 5 M1 158GD G 458.565 17 0.87 7 M1 158GD G 460.490 13 2.63 18 (E1) 158GD G 463.631 20 0.31 4 M1,E2 158GD G 464.35 6 0.18 4 158GD G 468.42 3 0.36 5 M1 158GD G 469.35 7 0.13 4 158GD G 472.816 14 2.62 18 E2 158GD G 476.20 6 0.57 11 158GD G 476.72 7 0.32 6 158GD G 477.422 25 0.65 7 158GD G 477.794 20 0.74 7 158GD G 479.07 8 0.37 11 158GD G 480.616 25 0.64 8 158GD G 482.386 14 2.56 18 M1(+E2) 158GD G 485.807 20 0.69 6 158GD G 487.474 15 1.18 8 E2 158GD G 492.07 6 0.57 10 158GD G 492.56 3 0.53 5 M1 158GD G 494.224 25 0.69 8 M1 158GD G 496.24 6 0.33 6 158GD G 496.87 6 0.25 5 158GD G 498.44 6 0.7 3 158GD G 500.05 4 0.78 20 158GD G 505.001 17 1.46 10 M1 158GD G 507.206 25 0.49 6 (M1) 158GD G 508.791 25 1.04 11 158GD G 512.35 5 0.70 14 158GD G 515.15 4 0.34 5 M1 158GD G 516.38 14 0.13 6 158GD G 518.94 6 1.1 4 158GD G 520.82 6 0.44 9 158GD G 523.516 17 3.46 24 E1 158GD G 526.16 10 0.29 10 158GD G 530.09 4 0.58 8 158GD G 532.86 5 0.46 6 158GD G 533.67 4 0.55 6 158GD G 536.444 17 3.9 3 M1 158GD G 537.07 6 0.62 16 158GD G 537.540 25 1.15 9 158GD G 538.47 11 0.59 21 M1,E2 158GD G 541.36 3 0.70 7 M1,E2 158GD G 542.92 6 0.64 16 158GD G 543.56 13 0.22 8 158GD G 546.01 6 1.51 18 158GD G 547.56 5 0.39 6 158GD G 550.33 6 0.26 5 158GD G 551.40 4 0.54 6 M1 158GD G 553.51 6 0.9 3 M1 158GD G 555.59 4 0.79 10 158GD G 556.75 3 0.78 7 158GD G 560.327 25 1.09 9 (E2) 158GD G 561.51 5 1.02 20 158GD G 562.26 9 0.32 8 158GD G 562.95 12 0.26 10 158GD G 563.30 5 1.43 20 158GD G 563.62 7 0.55 19 158GD G 565.87 5 0.40 5 A 158GD G 566.60 5 0.35 5 158GD G 569.78 4 0.73 7 158GD G 570.42 3 1.29 10 158GD G 571.48 4 1.30 13 158GD G 574.18 4 0.41 5 M1 158GD G 578.15 8 0.24 6 158GD G 582.80 4 0.79 7 M1 158GD G 585.91 7 0.82 14 158GD G 586.417 25 4.0 3 E1 158GD G 587.426 25 1.22 9 158GD G 588.044 25 2.40 14 E1 158GD G 588.91 14 0.21 10 158GD G 590.03 12 0.12 5 158GD G 596.62 5 0.91 11 158GD G 597.47 5 0.86 15 M1 158GD G 600.06 6 0.60 10 158GD G 600.83 11 0.29 10 158GD G 601.31 4 1.41 16 158GD G 604.31 4 1.09 12 (E1) 158GD G 607.45 8 0.83 21 158GD G 608.85 7 0.44 9 158GD G 611.88 4 1.58 19 M1 158GD G 613.36 4 0.93 8 M1 158GD G 615.91 14 0.15 7 158GD G 616.37 17 0.13 6 158GD G 617.88 10 0.20 6 158GD G 618.76 9 0.30 6 158GD G 620.69 8 0.92 23 158GD G 621.84 4 1.04 9 E2(+M1) 158GD G 627.174 25 4.8 3 M1 158GD G 632.28 4 1.59 14 E2 158GD G 633.32 15 0.24 12 158GD G 635.667 25 3.9 3 E2 158GD G 647.41 8 0.56 11 158GD G 653.05 9 0.78 16 158GD G 653.55 9 0.89 15 158GD G 654.00 9 0.60 15 158GD G 660.41 4 3.4 4 158GD G 660.84 11 0.9 4 M1,E2 158GD G 661.42 8 0.73 12 158GD G 664.44 4 2.6 3 E1 158GD G 666.54 4 3.1 3 E2 158GD G 667.16 7 0.9 3 158GD G 672.288 25 15.7 9 M1,E2 158GD G 675.72 9 1.5 8 158GD G 678.76 3 2.88 20 E1 158GD G 682.62 13 0.52 16 158GD G 684.38 3 4.7 3 E1 158GD G 691.11 5 1.84 17 E1 158GD G 692.13 7 0.93 16 158GD G 693.78 6 1.14 13 158GD G 694.65 6 1.08 12 E2 158GD G 697.30 20 0.37 22 158GD G 700.59 5 1.88 17 158GD G 704.91 17 0.52 21 158GD G 705.70 17 0.47 21 158GD G 708.58 11 1.5 3 158GD G 710.27 9 0.61 10 158GD G 711.04 8 1.24 15 158GD G 715.92 25 0.17 5 158GD G 721.44 15 0.7 3 158GD G 727.33 14 0.56 17 158GD G 734.28 17 0.7 3 158GD G 735.28 3 14.5 9 158GD G 736.53 6 2.6 3 M1,E2 158GD G 741.96 4 7.6 5 E1 158GD G 744.91 15 1.5 6 158GD G 749.00 4 8.0 6 E2 158GD G 756.43 20 0.9 4 158GD G 757.09 7 2.3 3 E1 158GD G 759.38 5 3.4 14 158GD G 761.69 17 1.5 5 158GD G 762.68 4 14.1 8 E1 158GD G 771.77 12 1.4 3 M1 158GD G 772.89 11 2.1 3 158GD G 774.46 15 1.1 3 158GD G 778.10 9 3.3 6 158GD G 779.63 6 10.9 19 158GD G 786.72 13 2.3 6 158GD G 795.22 5 9.7 10 M1 158GD G 796.60 7 2.4 3 158GD G 803.98 12 0.90 18 158GD G 808.27 11 1.16 20 158GD G 810.07 11 1.18 20 158GD G 818.00 7 2.9 4 158GD G 822.7 3 1.4 6 158GD G 827.08 13 1.8 4 158GD G 830.50 13 2.1 4 158GD G 835.85 7 3.2 3 158GD G 837.15 7 5.9 5 158GD G 838.28 10 2.5 3 M1,E2 158GD G 843.19 10 2.0 4 158GD G 847.74 20 2.1 10 158GD G 848.28 5 3.1 3 (M1) 158GD G 851.30 5 7.1 5 M1 158GD G 853.26 12 4.7 19 158GD G 855.77 15 1.4 3 158GD G 858.30 5 5.3 4 158GD G 861.28 12 1.8 3 158GD G 863.01 6 3.5 3 158GD G 865.99 5 22.3 13 M1 158GD G 870.17 5 23.1 18 158GD G 872.00 13 3.7 11 158GD G 880.46 20 2.0 10 158GD G 886.09 6 5.2 5 158GD G 896.96 9 13.4 23 158GD G 902.60 6 41 3 158GD G 909.54 8 7.7 8 158GD G 910.19 14 2.6 8 158GD G 913.40 25 3.2 11 158GD G 918.18 11 7.2 14 158GD G 920.23 20 2.4 5 158GD G 922.50 5 6.4 28 @ 158GD G 923.69 17 1.8 4 158GD G 930.48 7 4.2 4 158GD G 938.50 11 3.5 5 (M1) 158GD G 941.17 10 8.8 18 M1,E2 158GD G 944.62 9 43 11 158GD G 948.22 9 5.0 6 M1,E2 158GD G 968.2 8 3.0 12 158GD G 972.58 17 3.5 10 158GD G 979.4 4 4.4 15 158GD G 982.72 11 5.2 8 158GD G 992.66 7 11.7 9 M1 158GD G 1002.62 10 14.2 17 158GD G 1013.98 10 5.9 6 E2 158GD G 1018.67 10 4.9 5 158GD G 1021.18 12 3.7 4 E2 158GD G 1023.34 17 2.9 7 158GD G 1030.05 20 4.7 14 158GD G 1030.8 4 1.4 6 158GD G 1035.91 14 7.8 13 M1,E2 158GD G 1037.17 25 4.4 18 158GD G 1039.98 15 3.4 5 158GD G 1042.08 7 13.1 10 158GD G 1045.54 20 3.5 7 158GD G 1049.62 10 6.2 6 158GD G 1051.68 10 8.1 7 158GD G 1053.30 10 8.4 8 158GD G 1056.25 14 4.6 7 158GD G 1060.24 11 6.1 7 M1,E2 158GD G 1061.64 20 5.6 20 D 158GD G 1068.74 25 1.6 4 158GD G 1071.40 17 5.4 11 158GD G 1074.15 20 3.9 7 158GD G 1077.08 20 2.3 6 158GD G 1078.98 12 6.4 7 158GD G 1080.95 9 22.0 15 158GD G 1082.32 17 5.6 8 158GD G 1088.88 25 5.1 10 M1 158GD G 1090.56 20 6.6 16 158GD G 1091.70 13 11.3 16 M1,E2 158GD G 1094.33 9 17.6 16 158GD G 1105.61 25 6.9 24 158GD G 1108.19 9 48 10 158GD G 1125.97 9 13.6 12 E1 158GD G 1130.71 10 19.2 17 158GD G 1134.65 25 4.2 15 158GD G 1136.09 15 6.9 12 158GD G 1139.60 17 11.0 19 M1,E2 158GD G 1146.78 14 13.9 17 M1,E2 158GD G 1149.7 7 2.3 8 158GD G 1156.76 14 6.9 7 158GD G 1159.17 13 9.1 8 158GD G 1161.24 17 4.9 7 158GD G 1166.84 12 12.7 11 M1 158GD G 1172.36 17 9.7 13 158GD G 1174.8 4 4.7 12 158GD G 1177.79 17 10.3 18 158GD G 1195.27 25 6.7 13 158GD G 1197.11 20 7.6 13 M1 158GD G 1204.68 25 6.9 10 158GD G 1207.08 20 5.8 10 M1,E2 158GD G 1209.0 3 4.7 9 (M1) 158GD G 1215.44 25 10.0 13 M1,E2 158GD G 1222.63 20 5.2 9 158GD G 1226.38 20 7.6 11 M1 158GD G 1229.02 17 7.2 12 158GD G 1233.74 15 13.9 17 E1 158GD G 1241.2 3 6.0 12 158GD G 1244.58 13 10.6 11 M1,E2 158GD G 1249.4 4 4.6 9 158GD G 1264.5 3 30 10 E1 158GD G 1270.29 13 17.4 14 E1 158GD G 1274.9 4 5.2 13 158GD G 1283.89 25 9.0 13 E2 158GD G 1289.6 3 6.6 13 M1,E2 158GD G 1294.51 25 9.4 16 E1 158GD G 1296.7 5 6 2 158GD G 1302.2 3 11 3 158GD G 1307.50 20 12.8 15 E1 158GD G 1312.05 17 14.7 15 E1 158GD G 1314.82 20 10.1 13 E1 158GD G 1320.5 5 7 3 158GD G 1329.54 25 16 3 M1 158GD G 1331.29 20 20 3 158GD G 1347.85 13 26 2 M1 158GD G 1353.36 17 15.4 14 M1,E2 158GD G 1360.86 25 7.0 12 158GD G 1371.28 13 36 4 E1 158GD G 1393.1 3 16 5 158GD G 1399.9 11 2.7 14 158GD G 1408.0 6 7 3 158GD G 1419.7 5 11 5 158GD G 1423.0 4 9 2 158GD G 1428.1 4 9 3 158GD G 1433.8 4 18 6 M1 158GD G 1440.2 5 18 6 158GD G 1453.1 6 10 3 158GD G 1456.1 5 14 4 E1 158GD G 1459.1 6 12 3 158GD G 1462.45 25 18 3 158GD G 1465.8 6 10 3 158GD G 1469.6 6 9 3 158GD G 1474.4 7 9 3 158GD G 1477.3 9 7 3 158GD G 1491.9 5 13 3 158GD G 1499.5 3 11.0 15 158GD G 1505.4 7 8 3 158GD G 1509.5 4 14.9 22 158GD G 1522.3 5 8.8 22 158GD G 1536.0 5 6.8 14 158GD G 1540.5 5 7.7 15 158GD G 1543.8 9 5.1 20 158GD G 1551.7 6 5.8 17 M1,E2 158GD G 1555.0 9 4.8 19 158GD G 1558.6 5 8.3 17 158GD G 1563.83 25 19.4 21 E1 158GD G 1584.5 5 9 3 158GD G 1595.5 9 4.6 16 158GD G 1635.6 5 11.7 23 158GD G 1644.8 4 20 3 158GD G 1651.5 6 9.6 24 158GD G 1674.2 4 18.5 24 158GD G 1683.2 5 10.3 21 158GD G 1708.2 6 16 3 158GD G 1723.9 6 13 3 158GD G 1737.6 5 18 3 158GD G 1753.4 1 8 3 158GD G 1759.2 12 7 3 158GD G 1785.9 5 24 4 158GD G 1795.4 6 23 4 158GD G 1800.4 7 18 4 158GD G 1834.8 5 28 4 158GD G 1864.7 6 31 5 158GD G 1870.0 10 15 4 158GD G 1888.2 7 61 9 158GD G 1902.9 14 10 4 158GD G 1910.6 5 17 3 158GD G 1970.9 5 45 6 158GD G 1988.6 6 23 5 158GD G 2014.6 5 49 5 158GD G 2059.2 11 22 6 158GD L 0.0 0+ A 158GD L 79.5104 14 2+ A 158GD G 79.510414 103773 E2 6.02 C 158GD L 261.438 4 4+ A 158GD G 181.930 4 1.95E318 E2 0.308 C 158GD L 538.983 8 6+ A 158GD G 277.544 7 12011E2 0.0772 158GD L 977.116 11 1- B 158GD G 897.59 5 31228 E1 @C 158GD CG RI calculated from IG(897G)/IG(977G) in 158EU B- decay 158GD G 977.06 4 411 6E1 0.00119 158GD L 1023.681 10 2- B 158GD G 944.09 5 91055E1 0.00127 C 158GD L 1041.619 10 3- B 158GD G 780.14 4 26616E1 0.00184 C 158GD G 962.06 4 58035E1 0.00123 C 158GD L 1158.947 10 4- B 158GD G 117.331 4 1.9023 (E2) 1.425 158GD G 135.258 4 10.612E2 0.858 158GD G 897.59 5 34849 E1 @C 158GD CG RI 660 40 for multiplet 158GD L 1176.457 10 5- B 158GD G 134.843 6 0.07114 158GD G 637.44720 30.418 0.00279 C 158GD G 915.00 5 114 7E1 0.00135 C 158GD L 1187.127 10 2+ C 158GD G 925.62 7 9.0 8 (E2) 0.0033 C 158GD G 1107.63 7 48034E2 0.00224 C 158GD G 1187.13 9 40124E2 0.00195 158GD L 1196.128 12 0+ D 158GD G 219.015 6 0.10012 158GD G 1116.48 5 121 7E2 0.00221 158GD L 1259.840 10 2+ D 158GD G 218.213 4 10.9 9 E1 0.0362 158GD G 236.168 5 0.89 6 158GD G 282.716 6 8.1 6E1 0.01857 158GD G 998.36 5 158 9E2 0.00278 C 158GDS G KC=0.00233 $LC=0.00034 158GD G 1180.31 9 63 5M1 0.00316 C 158GD G 1259.83 8 114 7E2 0.00174 158GD L 1263.478 10 1- E 158GD G 1183.97 8 26316E2 0.00196 C 158GD CG M Assignment of E2 is inconsistent with E1 for G to ground 158GD2CG state. 158GD G 1263.54 9 17511E1 0.00075 158GD L 1265.507 10 3+ C 158GD G 1004.00 8 118 9 E2(+M1) 0.0037 10 C 158GD G 1185.99 8 45527E2 0.00196 C 158GD L 1358.448 10 4+ C 158GD G 171.322 4 0.26724 158GD G 819.53 5 11.314 &C 158GD G 1097.01 5 19111E2 0.00229 C 158GD G 1278.92 7 62 4E2 0.00169 158GD L 1371.916 10 6- B 158GD G 195.454 5 0.27 2 158GD G 212.972 4 2.9521E2 0.1819 158GD G 832.86 8.2 6[E1] R 158GD L 1380.609 10 4+ F 158GD G 1119.16 6 33220E2 0.00220 C 158GD G 1300.8512 68 6E2 0.00163 C 158GD L 1402.901 10 3- E 158GD G 139.429 3 0.12715 ? 158GD G 143.060 6 0.06416 158GD G 1141.44 5 154 9E1 0.00089 C 158GD G 1323.39 5 18111E1 0.00069 C 158GD L 1406.670 10 4+ D 158GD G 141.17710 0.04215 158GD G 146.826 5 0.48 5 158GD G 219.539 7 0.09714 158GD G 230.225 6 5.5 4 158GD G 247.707 5 0.27622 158GD G 365.050 8 16.710E1 0.00984 158GD G 867.72 5 23.914E2 0.00375 158GD G 1145.2211 23 3E2 0.00210 158GD G 1327.14 8 84 5E2 0.00157 C 158GD L 1452.311 11 0+ G 158GD G 188.838 4 1.00 8 158GD CG M If one uses the JPI assignments, the EKC requires 158GD2CG mult=E1+M2, MR=0.24 7. 158GD G 475.20115 1.5312E1 0.00529 158GD G 1372.9014 52 5E2 0.00147 C 158GD G 1452.3120 E0 0.157 16 158GD CG RI LT 6 (measured 1978Gr14). 158GD CG TI calculated from CEK=0.138 14 (1978Gr14) and L/K=0.136 158GDxCG (1969Ha61) 158GD L 1481.397 10 5+ C 158GD G 100.783 4 0.13 3 ? 158GD G 122.93910 0.05319 158GD G 215.890 4 0.50 3 158GD G 942.31 7 15.223 M1,E2 158GD G 1219.87 8 67 4E2 0.00185 C 158GD L 1499.073 10 5+ F 158GD G 118.46010 0.15 4 158GD G 960.00 7 15.016 158GD G 1237.52 9 58 3 E2(+M1) 0.0023 5 C 158GD L 1517.432 10 2+ G 158GD G 114.540 4 0.43 6 158GD G 158.98020 0.05617 158GD G 251.919 5 0.40 3 158GD G 253.943 5 2.9321 E1 158GD G 330.26415 0.07910 158GD G 475.83913 4.8 3 E1 0.00528 158GD G 493.77620 0.89 7 158GD G 540.3320 0.5 3 158GD G 1255.9810 29.424E2 0.00175 C 158GD G 1437.8912 86 5 C 158GD CG M EKC is greater than KC(M1), so multipolarity may be E0+M1,E2. 158GD G 1517.4411 73 5E2 0.0011 158GD L 1636.264 10 4- H 158GD G 137.190525 1.7122 158GD CG M EKC value allows M1,E2 or E1+M2; from the JPI's E1+M2 is 158GD2CG required and then MR=0.25 +8-12. 158GD G 154.869 4 4.0 4 E1 0.0902 158GD G 229.590 5 0.32 3 158GD G 255.663 5 93 7E1 0.02401 C 158GD G 277.824 7 4.7 4 158GD G 370.72 4 0.10421 158GD L 1639.27 9 5- E ? 158GD G 1100.2513 8.011 158GD G 1377.8512 23.521(E1) 0.00064 C 158GD L 1667.326 11 4+ G 158GD G 149.902 9 0.06115 158GD G 264.421 5 0.64 4 E1 158GD G 490.84620 0.88 8 158GD G 625.77 6 0.5610 158GD G 1129.1613 16.818 158GD2 G FL=538.983 158GD G 1405.8615 24.520 (M1) C 158GD CG M EKC is larger than KC(M1) so G may include E0 component. 158GD G 1588.1515 35 3 R 158GD L 1716.766 10 5- H 158GD G 217.695 4 3.0725 E1 0.0364 158GD G 235.371 5 5.7 4E1 0.0297 158GD G 310.09 3 0.03412 158GD G 336.155 7 9.4 7E1 0.01204 158GD G 358.323 9 0.66 5 158GD L 1743.085 11 0+ J 158GD G 225.651 6 0.27 3 ? 158GD G 479.61513 11.6 7E1 0.00518 158GD G 1663.7120 41 4 158GD CG M E1 from EKC, but E2 from JPI's. 158GD L 1791.738 12 2+ J 158GD G 385.06825 0.16 3 158GD G 388.81315 2.9824E1 0.00846 158GD G 528.21217 10.610E1 0.00420 158GD G 531.88717 2.4417M1 0.02216 158GD G 750.13 3 33.220 B 158GD G 768.06 5 8.314 158GD G 814.62 4 25.115E1 0.00169 158GD G 1530.0715 30.825(E2) 0.0011 C 158GD G 1712.7 6 15 3 R 158GD L 1793.530 11 2- Q 158GD G 528.02217 27.322E1 0.00420 158GD G 606.42520 69 4E1 0.00311 158GD G 634.75 5 0.8617 S ? 158GD G 751.88 4 3.9 3 M1(+E2) 0.0073 21 158GD G 769.85 4 11.0 7E2 0.00490 158GD G 816.39 4 16.910 RC 158GD G 1712.7 6 15 3 R 158GD L 1814.116 10 6- H 158GD G 97.353825 0.34 6 ? 158GD G 177.83810 0.04114 158GD G 315.032 8 0.42 3 E1 0.0141 158GD G 332.695 8 0.79 6E1 0.01235 158GD L 1847.842 24 1+ L 158GD G 444.90 5 0.5113 0.00616 R ? 158GD G 584.37 4 0.46 5 ? 158GD G 824.09 4 36.822E1 0.00165 C 158GD G 870.86 5 36 5 C 158GD CG RI from IG(870G)/IG(824G)=0.98 12 in 158EU B- decay 158GD L 1856.416 18 1- M 158GD G 453.66 4 0.3711 ? 158GD G 592.88420 5.5 3M1 0.01686 158GD G 669.27 4 7.3 7E1 0.00252 158GD G 832.86 5 8.2 6(M1,E2) 0.00411 RC 158GD3 G FLAG=C 158GD G 879.29 5 37.422M1 0.00639 C 158GD G 1857.0 4 56 6 158GD L 1861.235 12 3- Q 158GD G 502.77114 16.010E1 0.00469 158GD G 595.74220 19.912E1 0.00323 158GD G 674.13025 18.411E1 0.00248 158GD G 702.35 5 1.5614 M1(+E2) 0.0086 25 C 158GD G 819.53 5 11.314 & 158GD G 884.15 5 7.5 6E2 0.00360 158GD G 1782.0 5 27 4 158GD L 1894.460 18 2+ L 158GD G 491.52620 2.7 4 ? 158GD G 630.90 6 2.3 9 ? 158GD G 852.86 4 57 3 &C 158GD G 870.86 5 61 8 &C 158GD CG RI 97 6 for multiplet 158GD G 917.47 5 74 4 & 158GD G 1815.1 5 26 4 & 158GD L 1894.568 12 2- M 158GD G 101.038725 0.49 7 158GD G 491.69725 2.1 3 158GD G 628.99 4 1.7621 & 158GD G 631.05125 8.1 5 158GD G 707.53 3 16.410 E1 0.0022 C 158GD G 852.86 4 57 3 &C 158GD G 870.86 5 61 8 &C 158GD CG RI 97 6 for multiplet. 158GD G 917.47 5 74 4 & 158GD G 1815.1 5 26 4 & 158GD L 1901.541 17 4+ J 158GD G 498.64515 3.66222E1 0.00475 158GD G 725.08 8 1.1016 158GD G 859.82 6 10.4 9(E1) 0.00152 C 158GD G 1639.9 5 17 3 158GD L 1916.892 11 ? 158GD G 200.111 5 1.4311E2,M1 0.26 3 158GD G 280.643 6 0.72 5 E2 0.0745 158GD G 417.82810 2.7116E1 0.00713 158GD G 435.50011 4.9 3 E1 0.0065 158GD L 1920.219 11 4+ 158GD G 203.460 9 0.16316 158GD G 283.955 6 1.10 8E1 0.01836 158GD G 421.15111 1.24 9M1 0.0400 158GD G 438.81012 2.4019E2+M1 1.1 +18-6 0.027 6 158GD G 539.60117 40 2M1 0.02137 158GD G 561.75 4 2.7 3 E2(+M1) 0.015 5 158GD G 654.65 8 0.5711 158GD G 733.13 9 1.3220 158GD G 1381.1 6 7 3 158GD G 1657.9 7 13 3 158GD L 1930.202 17 1+ P 158GD G 743.05530 39.624M1 0.00963 C 158GD G 906.46 5 17.410E1 0.00138 158GD G 952.93 6 20.514(E1) 0.00125 158GD L 1941.21 3 3+ L 158GD G 782.28 4 35.521E1 0.00183 158GD G 899.66 9 9.118 158GD G 917.47 5 74 4 & 158GD L 1952.383 13 (0+) ? 158GD G 160.648 6 0.04210 ? 158GD G 434.8911 0.12 6 ? 158GD G 688.83125 33.520 E1 0.00238 C 158GD G 765.32 5 4.0 3 158GD G 975.40 8 13.918 158GD L 1953.840 19 4- Q 158GD G 472.36 3 0.7513 & 158GD G 595.09 7 0.7916 158GD G 688.23 5 4.2 5E1 0.00238 158GD G 794.70 7 3.1 6 &C 158GD G 1691.6 7 25 3 158GD L 1957.8 7(0+) S 158GD G 1878.3 7 23 5 158GD L 1964.076 21 2+ P 158GD G 698.57825 11.5 7E2+M1 0.0087 25 158GD G 776.95 5 8.9 8M1 0.00863 158GD G 922.50 5 19.324 0.00133 @C 158GD CG RI from IG ratios in 158EU B- decay 158GD G 940.2814 6 3 158GD G 986.84 6 17.612E1 0.00117 158GD G 1883.011 23 8 ? 158GD G 1965.0 W 158GD L 1977.990 12 3- M 158GD G 116.754 4 0.28 4 158GD G 184.48513 0.02912 158GD G 619.50025 3.0721E1 0.00297 158GD G 712.50 5 3.4 3 158GD G 714.4615 0.6319 158GD G 790.86 4 8.3 7E1 0.00180 158GD G 936.27 6 9.3 7 158GD G 954.28 6 17.913(E2) 0.00305 C 158GD G 1000.78 7 25.118E2 0.00276 158GD L 2017.841 14 5+ N ? 158GD G 203.71114 0.03112 158GD G 301.11420 0.16 3 158GD G 381.56817 0.15215 158GD G 518.78 6 1.4 4 M1 0.0236 158GD G 637.22 5 2.0 7 C 158GD L 2023.785 16 1+ 158GD G 231.98113 0.03310 158GD G 571.78 3 1.8617 & 158GD2 G FL=1452.30 158GD G 763.95 4 8.4 5 E2 0.00499 C 158GD G 827.75 5 5.8 5 E1 0.00164 158GD G 1943.4 5 51 6 R 158GD G 2023.8 6 33 5 158GD L 2033.802 16 3+ P 158GD G 675.42825 21.113 M1+E2 C 158GD G 768.40 5 42 5 M1 0.00887 C 158GD G 846.78 5 8.4 6E2+M1 0.0055 16 C 158GD G 874.97 4 46 3E1 0.00147 158GD G 1010.16 5 58 3E1 0.00112 C 158GD L 2036.003 24 (2+) S 158GD G 628.99 4 1.7621 & 158GD G 775.6320 0.6 3 158GD G 1774.76 3 38 4 ? 158GD2 G FL=261.440 158GD G 1955.9 6 81 8 158GD L 2048.952 22 2- 158GD G 646.06225 7.8 5M1 0.01360 C 158GD G 785.46 4 18.611M1 0.00840 C 158GD G 1007.25 7 29.421M1 0.00461 158GD G 1025.29 7 15.211M1 0.00442 C 158GD L 2083.583 23 2+ 158GD G 680.70025 19.312 E1 0.00244 158GD G 820.05 4 32.720 C 158GD L 2089.199 12 2+ 158GD G 227.965 7 0.20220 158GD G 295.667 7 0.99 7 E1 0.0166 158GD G 571.78 3 1.8617 &C 158GD2 G FL=1517.40 158GD G 686.34 4 3.7 3E1 0.00239 158GD G 825.6710 3.3 7 158GD G 829.36 8 2.9 3 C 158GD G 902.04 6 14.715 C 158GD G 1047.3613 5.5 6 ? 158GD G 1111.8220 5.614 ? 158GD L 2120.18 4(2,3)+ 158GD G 602.6711 0.2810 ? 158GD G 713.49 5 3.3 3 158GD G 860.37 6 6.3 8E1 0.00152 C 158GD G 2040.6 6 38 6 158GD L 2153.122 12(2,3)+ 158GD G 291.886 7 0.49 3 E1 0.0171 158GD G 359.58910 0.72 6 158GD G 746.44 6 2.4 4E2 0.00526 158GD G 794.70 7 3.1 6 & 158GD G 887.71 5 18.711 C 158GD G 893.27 7 4.7 5 158GD G 965.94 7 10.3 9 M1,E2 0.0040 10 158GD G 2072.7 W 158GD L 2215.447 21(1,2)+ 158GD G 423.72725 0.55 7 E2 0.0220 158GD G 472.36 3 0.7513 & 158GD G 697.87 9 0.9218 158GD G 1028.28 8 11.0 9M1 0.00439 C 158GD G 1955.5 W 158GD G 2134.6 W 158GD G 2212.4 W 158GD L 2221.58 4(1,2)- 158GD G 956.04 6 14.610 158GD G 1034.47 6 37.222E1 0.00107 158GD L 2249.56 53+ 158GD G 891.21 7 6.3 6 158GD G 983.99 8 12.011 158GD G 1062.34 9 14.913 D 158GD L 2260.012 162+ 158GD G 226.234 9 0.05210 158GD G 306.07820 0.05411 ? 158GD2 G FL=1952.34 158GD G 329.804 8 0.64 5 M1 0.0757 ? 158GD2 G FL=1930.12 158GD G 398.85 8 0.09 4 158GD G 466.51 5 0.15 4 158GD G 994.54 9 11.111 M1,E2 0.0038 10 158GD G 1072.6217 8.211 C 158GD G 1218.6320 14 3 158GD G 1236.1325 10.621 158GD G 2180.3 3 4513 158GD G 2259.4 W 158GD L 2269.193 161+ 158GD G 245.408 5 0.68 5 M1,E2 0.140 27 158GD G 1005.78 9 11.312 158GD L 2276.1 4 158GD G 2016.2 W 158GD G 2195.4 W 158GD L 2283.2 5 158GD G 2204.4 W 158GD L 2322.0 6 W 158GD G 2061.3 W 158GD G 2242.2 W 158GD L 2327.41 22 (+) U 158GD L 2344.7 5 (+) 158GD G 2266.4 W 158GD L 2355.08 14 (+) 158GD L 2369.6 11 T 158GD L 2394.4 5 (+) 158GD G 2314.4 W 158GD L 2433.1 6 T 158GD L 2450.5 4 T 158GD L 2480.5 14 V 158GD L 2485.6 7 V 158GD L 2500.6 5 (+) 158GD G 2420.6 W 158GD L 2534.1 3 (+) 158GD L 2538.7 7 V 158GD G 2459.3 W 158GD L 2566.8 5 (+) 158GD L 2594.5 7 X 158GD G 2514.9 W 158GD L 2601.3 6 (+) 158GD G 2522.2 W 158GD L 2631.0 3 (+) 158GD L 2644.2 7 158GD G 2383.1 W 158GD L 2656.8 5 158GD G 2577.7 W 158GD G 2656.8 W 158GD L 2672.1 11 158GD L 2687.1 3 (+) 158GD L 2698.9 4 (+) 158GD G 2440.2 W 158GD G 2618.1 W 158GD L 2723.7 10 V 158GD L 2751.1 6 158GD G 2670.9 W 158GD L 2758.6 5 (+) 158GD G 2680.0 W 158GD L 2782.4 5 (+) 158GD G 2703.5 W 158GD L 2794.8 6 Y ? 158GD L 2802.1 7 W 158GD G 2802.2 W 158GD L 2823.6 5 158GD L 2829.6 6 158GD G 2828.6 W 158GD L 2844.8 4 158GD L 2854.4 7 W 158GD G 2854.5 W 158GD L 2858.0 15 V 158GD L 2878.7 4 (+) 158GD G 2616.6 W 158GD G 2799.8 W 158GD G 2878.1 W 158GD L 2896.1 5 158GD L 2909.8 3 (+) 158GD L 2913.4 7 158GD L 2934.7 7 158GD L 2961.7 7 158GD G 2961.9 W 158GD L 2981.5 7 158GD L 2986.1 3 158GD L 2997.7 5 (+) 158GD G 2918.5 W 158GD L 3008.2 6 W 158GD G 2746.0 W 158GD G 2929.2 W 158GD L 3012.04 14 (+) 158GD L 3029.1 5 158GD G 2950.2 W 158GD L 3045.6 11 Z 158GD L 3060.3 3 158GD L 3064.5 6 W 158GD G 2805.1 W 158GD G 2982.8 W 158GD G 3064.7 W 158GD L 3066.9 3 158GD L 3080.0 6 V 158GD L 3118.5 15 V 158GD L 3141.5 6 158GD G 3062.0 W 158GD L 3150.8 6 (+) 158GD G 3072.7 W 158GD L 3171.2 5 158GD L 3195.5 4 158GD L 3200.8 5 158GD L 3228.6 5 158GD L 3234.5 5 V 158GD L 3247.2 3 158GD L 3258.2 6 V 158GD L 3263.9 5 158GD L 3271.4 6 158GD L 3288.0 4 158GD L 3291.6 10 W 158GD G 3291.6 W 158GD L 3351.9 5 158GD L 3411.7 3 158GD L 3436.4 3 (+) 158GD L 3448.8 3 (+) 158GD L 3534.8 4 (+) 158GD L 3570.7 6 W 158GD G 3492.7 W 158GD G 3570.1 W 158GD L 3592.4 4 (-) 158GD L 3600.5 6 W 158GD G 3521.0 W 158GD G 3600.6 W 158GD L 3626.9 4 158GD L 3632.7 5 158GD L 3647.5 6 158GD L 3660.5 5 158GD G 3580.6 W 158GD G 3658.9 W 158GD L 3702.5 6 W 158GD G 3439.8 W 158GD G 3623.7 W 158GD L 3750.0 11 ? 158GD L 3794.6 7 (+) 158GD L 3846.6 3 (+) 158GD L 3878.7 3 (+) 158GD L 3923.8 6 W 158GD G 3842.9 W 158GD G 3924.7 W 158GD L 3947.9 4 158GD L 3965.0 5 158GD L 4015.8 6 ? 158GD L 4110.6 6 (+) 158GD L 4139.5 3 (+) 158GD L 4161.4 6 (+) 158GD L 4236.9 4 158GD L 7937.19 8 2-,(1-) K S 158GD cL E$7937.33 12 from 1995Au04. 158GD2cL Observed deexcitation intensity is 23% of GS feeding. 158GD G 3700.2 6 28 4 158GD G 3775.8 8 18 3E1 158GD G 3797.7 4 28 4E1 158GD G 3826.5 8 21 9E1 158GD G 3921.3 8 11 3 ? 158GD G 3972.1 7 14 4 158GD G 3989.2 6 29 4 158GD G 4012.8 W 158GD G 4058.4 4 23 4E1 158GD G 4090.6 4 28 6E1 158GD G 4142.610 18 5E1 158GD G 4187.315 7 3 ? 158GD G 4234.2 W 158GD G 4275.7 7 17 4 158GD G 4289.7 8 18 4 158GD G 4304.5 8 19 4 E1 158GD G 4310.3 6 22.024 E1 158GD G 4336.9 W 158GD G 4344.8 6 15 3M1,E2 158GD G 4367.4 W 158GD G 4402.4 6 13 3E1 158GD G 4488.4 5 19 3E1 158GD G 4500.8 5 16 3E1 158GD G 4525.5 5 14 3 158GD G 4585.3 8 10.621 158GD G 4649.2 6 11.818 158GD G 4665.8 8 8.815 158GD G 4673.3 7 13.821 158GD G 4690.0 5 10.918 158GD G 4708.6 8 10 3 158GD G 4736.4 7 12.424 158GD G 4741.7 6 16.224 158GD G 4766.0 7 8.818 158GD G 4787.3 8 13 3E1 158GD G 4795.7 8 12.124 158GD G 4870.3 6 16.524 E1 158GD G 4876.9 6 23 4 E1 158GD G 4891.615 11 6 158GD G 4908.2 6 9.415 158GD G 4925.2 5 72 7E1 158GD G 4928.6 W 158GD G 4939.5 6 20 3 E1 158GD G 4951.1 6 12.418 E1 158GD G 4955.6 9 7.424 158GD G 4975.6 W 158GD G 5002.511 8.815 158GD G 5027.5 5 14.421E1 158GD G 5041.1 8 8.818 158GD G 5058.2 5 32 3E1 158GD G 5082.9 W 158GD G 5092.4 7 8.218 158GD G 5106.9 8 9.721 E1 158GD G 5113.6 7 9.118 158GD G 5135.2 W 158GD G 5142.4 9 5.012 ? 158GD G 5154.9 5 19.721E1 158GD G 5178.7 5 36 4E1 158GD G 5185.7 7 10.315 158GD G 5238.6 5 24.124E1 158GD G 5250.2 5 29 3E1 158GD G 5265.115 5.918 158GD G 5280.4 6 9.715 158GD G 5293.1 9 4.412 158GD G 5306.2 5 14.421E1 158GD G 5336.1 8 9.424 E1 158GD G 5342.6 9 7.621 E1 158GD G 5370.4 8 6.8 9E1 158GD G 5398.5 W 158GD G 5403.2 5 40 4E1 158GD G 5436.4 5 21.521E1 158GD G 5486.7 7 6.224 ? 158GD G 5504.1 9 5.012 ? 158GD G 5542.6 5 34 3E1 158GD G 5567.615 2.615 ? 158GD G 5582.1 5 50 5E1 158GD G 5592.7 5 30 3E1 158GD G 5609.8 5 23.524E1 158GD G 5615.6 W 158GD G 5654.2 6 15.015 158GD G 5661.1 5 37 4 158GD G 5668.7 6 10.615 158GD G 5676.7 5 39 4E1 158GD G 5687.9 8 4.724 158GD G 5714.3 7 8.512 158GD G 5721.7 6 7.612 158GD G 5783.8 5 31 3E1 158GD G 5816.2 8 5.315 ? 158GD G 5845.4 8 4.412 158GD G 5853.1 6 7.612 158GD G 5891.813 6.218 ? 158GD G 5903.2 5 15011E1 158GD G 5912.5 9 8.218 ? 158GD G 5972.5 W 158GD G 5981.8 W 158GD G 5995.5 5 16.518 158GD G 6006.4 5 7.9 9 158GD G 6042.6 5 10.912 & 158GD2 G FL=1894.39 158GD G 6042.6 5 10.912 & 158GD2 G FL=1894.54 158GD G 6073.113 3.512 158GD G 6079.6 9 4.112 158GD G 6144.9 5 18.818E1 158GD G 6420.1 5 38 4E1 158GD G 6671.6 5 23.812E1 158GD G 6750.0 5 294 E1 158GD G 6757.9 W 158GD G 6913.6 5 15.912 M1 U 158GD G 6959.9 7 2.6 4 M1 U 158GD G 7857.4 7 1.7618