170TM 169TM(N,G) E=0-136 EV 1994HOZZ,1989DU03,1968LO09 170TM H TYP=ERR$AUT=J. TULI$COM=FIXED FORMAT ERRORS 1/97$ 170TM H TYP=FUL$AUT=CORAL M. BAGLIN$CIT=NDS 77,125 (1996)$CUT=1-Oct-1995$ 170TM c Target J|p=1/2+ 170TM c Includes {+169}Tm(d,p|g) 170TM c Others: 1966Sh03, 1967An04, 1967Ba17, 1970Bh03 [(n,|g) E=res], 170TMxc 1995HoZZ. 170TM c 1994HoZZ: {+169}Tm(n,|g) E=thermal; 170TM2c measured secondary transition E|g, I|g, Ice, |g|g coin. 170TM c 1989Du03: {+169}Tm(n,|g) E=thermal; Si(Li) detector, FWHM=0.35 keV at 170TMxc 30 keV. 170TM c 1968Lo09: {+169}Tm(n,|g) E|<{ 136 eV} (resonant and nonresonant); 170TM2c measured primary E|g, I|g; deduced S(n)={ 6593.8 {I14}} (cf. 170TM3c { 6593.3 {I11}} (1993Au05)). 170TM c 1967An04: {+169}Tm(d,p|g) E=9 MeV, {+169}Tm(n,|g) E=thermal; measured 170TM2c T{-1/2}, Ice, I|g, |g|g-delayed coin; deduced conversion coefficients 170TM3c assuming E2-theory value for |a(L)exp(115|g). 170TM c 1967Ba17: {+169}Tm(n,|g) E=thermal, double-focussing |b spectrometer; 170TM2c measured E(ce), Ice. 170TM c 1966Sh03: {+169}Tm(n,|g) E=thermal; measured E|g, I|g for primary 170TM2c transitions and E|g, I|g, Ice for secondary transitions. 170TM3c Assigned nuclear configurations. 170TM c For neutron resonance parameters and thermal n cross section, 170TM2c see 1984MuZY. 170TM c The level scheme is based on 1994HoZZ and 1995HoZZ. 170TM c Nuclear band configurations: see 1966Sh03, 1994HoZZ, 1995HoZZ. 170TM cG Conversion electron data are from 1994HoZZ unless indicated 170TM2cG otherwise. 170TM cL E For E<1380: from least-squares adjustment of E|g. 170TM2cL For E|>1380: from primary transition E|g and S(n). 170TM cL J For E<1380: from adopted levels. For E|>1380: 170TM2cL based on primary transition intensities to state from various 0+ and 1+ 170TM3cL resonances coresponding to E(n)|<136 eV, assuming mult=E1 for observed 170TM4cL primary transitions (1968Lo09). The latter assumption implies J|<2- 170TM5cL for all final states observed by 1968Lo09, limits J to 1 for levels fed 170TM6cL from J=0 resonances, and suggests J|=1 for levels fed from J=1 but 170TM7cL not from J=0 resonances. Note that J=0 for the 17.5-eV resonance 170TM8cL (1970Bh03); this differs from the value used in 1968Lo09, and the 170TM9cL evaluator has modified those authors' J|p conclusions accordingly. 170TM CL BAND(A) KPI=0- BAND. 170TM2cL Configuration=(|p 1/2[411])-(|n 1/2[521]) 170TM CL BAND(B) KPI=1- GS BAND. 170TM2cL Configuration=(|p 1/2[411])+(|n 1/2[521]) 170TM CL BAND(C) KPI=1- BAND. 170TM2cL Configuration=(|p 3/2[411])-(|n 1/2[521]) plus (|p 7/2[404])-(|n 170TMxcL 5/2[512]). 170TM CL BAND(D) K|p=3- band. 170TM2cL Configuration=(|p 1/2[541])-(|n 7/2[633]). 170TM CL BAND(E) KPI=2- BAND. 170TM2cL Configuration=(|p 1/2[411])-(|n 5/2[512]) 170TM CL BAND(H) KPI=0+ BAND. 170TM2cL Configuration=(|p 7/2[404])-(|n 7/2[633]) 170TM CL BAND(J) KPI=3- BAND. 170TM2cL Configuration=(|p 1/2[411])+(|n 5/2[512]) 170TM CL BAND(O) KPI=1- BAND. 170TM2cL Configuration=(|p 3/2[411])-(|n 5/2[512]) plus (|p 1/2[411])+(|n 170TM3cL 1/2[510]) plus ((|p 1/2[411])-(|n 5/2[512])-|g vibration). 170TM CL BAND(Q) KPI=1+ BAND. 170TM2cL Configuration=(|p 1/2[541])+(|n 1/2[521]) 170TM CL BAND(S) KPI=0+ BAND. 170TM2cL Configuration=(|p 1/2[541])-(|n 1/2[521]) 170TM CL BAND(T) KPI=1- BAND. 170TM2cL Configuration=(|p 1/2[411])-(|n 3/2[521]) plus (|p 7/2[404])-(|n 170TM3cL 5/2[512]) plus (|p 3/2[411])-(|n 1/2[521]). 170TM CL BAND(U) KPI=2- BAND. 170TM2cL Configuration=(|p 1/2[411])+(|n 3/2[521]) plus (|p 3/2[411])+(|n 170TM3cL 1/2[521]) plus ((|p 1/2[411])+(|n 1/2[521])-|g vibration). 170TM CL BAND(V) KPI=0- BAND. 170TM2cL Configuration=(|p 7/2[523])-(|n 7/2[633]) 170TM DL BAND(W) KPI=(1)- BAND. 170TM2DL BUILT ON KPI=1- GS BAND. 170TM CL BAND(Z) KPI=3+ BAND. 170TM2cL Configuration=(|p 1/2[411])-(|n 7/2[633]) 170TM CL BAND(a) KPI=1+ BAND. 170TM2cL Configuration=(|p 7/2[523])-(|n 5/2[512]). 170TM cG E From 1994HoZZ for secondary transitions; 170TM2cG from 1968Lo09 for primary transitions, except as noted. 170TM cG RI Photon intensities/100 thermal n captures; from 1994HoZZ for 170TM2cG secondary transitions, from 1968Lo09 for primary transitions, except 170TM3cG as noted. Primary transition I|g data are also available from 1968Lo09 170TM4cG for resonant capture (3.92, 14.4, 17.5, 29.1, 34.8, 38.0, 44.8, 50.7, 170TM5cG 54+59.2, 63.0+65.8, 83.4, 93.5+94.0, 115, 125+132+136 eV resonances). 170TM cG M,MR Based on ce data from 1994HoZZ. 170TM cG E(A) Not reported in thermal n capture. 170TM cG E(C) Apparent doublet (1968Lo09); however, only one possible final 170TM2cG state in {+170}Tm has been identified. 170TM cG RI(D) From 1989Du03. |DI|g is relative to I(38|g)=0.196; an 170TM2cG additional 4% uncertainty in absolute I|g should be combined with this. 170TM cG RI(E),M(E)$Divided intensity and mult for both components of doublet 170TM2cG deduced by 1994HoZZ from subshell ratios for doublet, 170TM3cG assuming any E1 component to be pure. In the case of the 144.5|g, the 170TM4cG E2 component was also assumed to be pure. 170TM cG M(Y) Nonobservance of ce(K) line suggests mult=E1. 170TM cG E(Z) Transition may arise from {+171}Tm produced in double n 170TMxcG capture 170TM cG M(F) Based on |a<640 from intensity balance. 170TM cG M(G) Based on |a<235 from intensity balance. 170TM cG M(H) Based on |a<76 from intensity balance. 170TM cG RI(I) From I|g=0.403 {I7}, |a(K)exp=0.0069 {I7} for the 170TM2cG doubly-placed transition and mult as indicated. 170TM cG RI(J) Placements in level scheme require mult=E1 for 818 level and 170TM2cG mult=M1,E2 for 908 level. From I(ce) and I(|g) one can deduce 170TM3cG I|g(E1)=0.70 {I5}, I(|g)(M1)=0.26 {I6} for E1-M1, and I|g(E1)=0.21 170TM4cG {I10}, I|g(E2)={ 0.75 {I11}} for E1-E2. 170TM N 1.00 3 170TM cN NR from 1994HoZZ, based on |S(I(|g+ce) feeding g.s.); consistent 170TM2cN with data from 1966Sh03. However, note that I|g normalization=1.79 170TM3cN based on I(38.7|g)=0.35 {I1} per 100 n captures from 1989Du03; source 170TM4cN of discrepancy not understood. 170TM cN SIGMAN=92 4 170TM G 46.202 3 0.031 14 170TM G 47.018 5 0.017 8 170TM G 47.0432 210.038 12 170TM G 56.279 3 0.090 6 170TM G 117.0570 190.018 3 170TM G 119.3125 130.0409 22 E2+M1 2.1 +9-5 1.66 170TMS G KC= 0.86 $LC= 0.61 $MC= 0.146 $NC+= 0.042 170TM cG |a(K)exp={ 0.86 {I8}}. 170TM G 124.8748 100.056 3M1+E2 0.81 +19-16 1.55 170TMS G KC= 1.09 $LC= 0.35 $MC= 0.082 $NC+= 0.024 170TM cG |a(K)exp={ 1.09 {I8}}. 170TM G 129.065 7 0.015 4 170TM G 129.3763 6 0.40 5E1 0.170 170TMS G KC= 0.142 $LC= 0.0221 $MC= 0.00486 $NC+= 0.00138 170TM cG |a(K)exp={ 0.029 {I4}}. 170TM G 138.170 6 0.016 4 170TM G 144.8614 120.036 4 E2(+M1) 1.9 3 0.863 170TMS G KC= 0.52 $LC= 0.261 $MC= 0.062 $NC+= 0.0174 170TM cG |a(K)exp=0.62 {I9}; K:L2:L3=0.62 {I5}:0.128 {I10}:0.150 170TMxcG {I12}. 170TM cG MR from K/L2. 170TM G 169.4945 130.045 3 M1+E2 0.67 15 0.633 24 170TMS G KC= 0.49 3$LC= 0.108 9$MC= 0.0256 23$NC+= 0.0071 4 170TM cG |a(K)exp={ 0.49 {I3}}; K:L1={ 0.492 {I10}}:{ 0.095 {I13}}. 170TM cG MR from |a(K)exp. However, |d|<0.15 from |a(L1)exp. 170TM G 184.2587 250.0244 18 170TM G 195.3058 240.0111 13 170TM G 196.744 5 0.0129 13 170TM G 205.750 3 0.0689 18 170TM G 207.5899 160.022 3 M1(+E2) 0.6 +5-6 0.36 5 170TMS G KC= 0.29 5$LC= 0.054 12$MC= 0.013 3$NC+= 0.0034 3 170TM cG |a(K)exp={ 0.29 {I5}}. 170TM G 209.547 4 0.014 3 M1(+E2) 0.31 8 170TMS G KC= 0.24 9$LC= 0.056 21$MC= 0.014 5$NC+= 0.0035 4 170TM cG |a(K)exp={ 0.27 {I6}}. 170TM G 257.586 4 0.0111 9 M1 0.223 170TMS G KC= 0.187 $LC= 0.0280 $MC= 0.00651 $NC+= 0.00148 170TM cG |a(K)exp={ 0.20 {I3}}. 170TM G 268.991 6 0.0178 9 170TM G 270.411 3 0.0240 13 170TM G 275.571 3 0.0169 9 M1 0.186 170TMS G KC= 0.156 $LC= 0.0232 $MC= 0.00523 $NC+= 0.00115 170TM cG |a(K)exp={ 0.21 {I4}}. 170TM G 281.8965 250.030 4 M1(+E2) 0.7 LE 0.146 170TMS G KC= 0.119 $LC= 0.0210 $MC= 0.00474 $NC+= 0.001018 170TM cG |a(K)exp={ 0.138 {I19}}. 170TM G 292.147 100.0053 9 170TM G 296.311 120.0062 9 170TM G 308.641 5 0.068 5M1 0.137 170TMS G KC= 0.115 $LC= 0.0171 $MC= 0.00350 $NC+= 0.000770 170TM cG |a(K)exp={ 0.115 {I12}}. 170TM G 315.100 9 0.0058 9 170TM G 317.766 8 0.0076 9 170TM G 324.009 7 0.0089 18 170TM G 326.9628 230.0187 13 M1+E2 1.0 +7-4 0.086 15 170TMS G KC= 0.070 14$LC= 0.0129 23$MC= 0.0025 4$NC+= 0.00056 4 170TM cG |a(K)exp={ 0.070 {I13}}. 170TM G 329.574 4 0.0120 9 M1 0.115 170TMS G KC= 0.0968 $LC= 0.0143 $MC= 0.00275 $NC+= 0.000621 170TM cG |a(K)exp={ 0.099 {I21}}. 170TM G 333.078 6 0.016 3 170TM G 333.5704 200.035 5 170TM G 337.0991 240.0191 9 170TM G 338.945 4 0.0129 9 M1(+E2) 1.6 LE 0.0653 170TMS G KC= 0.0520 $LC= 0.0109 $MC= 0.00204 $NC+= 0.000457 170TM cG |a(K)exp={ 0.074 {I21}}. 170TM G 346.018 4 0.0111 9 170TM G 351.136 6 0.0120 9 170TM G 351.921 140.0240 22 170TM G 355.380 3 0.041 3 M1 0.0937 170TMS G KC= 0.0794 $LC= 0.0117 $MC= 0.00211 $NC+= 0.000495 170TM cG |a(K)exp={ 0.087 {I9}}. 170TM G 356.722 7 0.0093 9 170TM G 358.6527 220.084 4 M1+E2 0.49 15 0.082 5 170TMS G KC= 0.069 4$LC= 0.0108 7$MC= 0.00193 12$NC+= 0.000454 14 170TM cG |a(K)exp={ 0.069 {I4}}. 170TM G 362.375 8 0.0160 22 170TM G 367.138 4 0.0187 9 170TM G 369.3569 240.0240 4 170TM G 372.7242 200.100 3 M1(+E2) 0.060 23 170TMS G KC= 0.049 21$LC= 0.009 3$MC= 0.0015 5$NC+= 0.00036 7 170TM cG |a(K)exp={ 0.067 {I4}}. 170TM G 377.417 5 0.0124 9 170TM G 397.942 3 0.069 7 M1+E2 0.8 3 0.055 7 170TMS G KC= 0.045 7$LC= 0.0075 10$MC= 0.00128 17$NC+= 0.000323 25 170TM cG |a(K)exp={ 0.045 {I5}}. 170TM G 399.623 8 0.020 7 170TM G 407.827 5 0.0427 9 170TM G 408.844 8 0.027 10 170TM G 414.133 3 0.0258 13 170TM G 416.974 6 0.0156 9 170TM G 417.277 110.0102 9 170TM G 423.614 130.011 3 170TM G 424.063 5 0.0298 9 M1 0.0589 170TMS G KC= 0.0499 $LC= 0.00734 $MC= 0.00127 $NC+= 0.000333 170TM cG |a(K)exp={ 0.050 {I7}}. 170TM G 435.133 4 0.0320 9 M1 0.0551 170TMS G KC= 0.0467 $LC= 0.00686 $MC= 0.00121 $NC+= 0.000320 170TM cG |a(K)exp={ 0.057 {I10}}. 170TM G 435.617 9 0.0164 18 170TM G 436.945 130.0173 18 170TM G 439.260 100.024 11 170TM G 440.167 3 0.0471 13 170TM G 441.0508 220.0720 13 (E1) 00.00768 Y 170TMS G KC= 0.00653 $LC= 0.000929 $MC= 1.69E-04 $NC+= 4.51E-05 170TM G 450.361 150.0093 22 170TM G 451.725 5 0.0231 9 170TM G 453.931 8 0.024 3 170TM G 458.263 3 0.044 3 M1+E2 0.8 +6-4 0.038 7 170TMS G KC= 0.031 7$LC= 0.0051 10$MC= 0.00095 18$NC+= 0.00026 3 170TM cG |a(K)exp={ 0.032 {I6}}. 170TM G 459.055 3 0.051 3 E2 0.0213 170TMS G KC= 0.0168 $LC= 0.00362 $MC= 0.000681 $NC+= 1.84E-04 170TM cG |a(K)exp={ 0.017 {I4}}. 170TM G 465.451 200.0138 9 170TM G 468.026 9 0.0191 18 170TM G 474.97 6 0.0089 9 170TM G 477.257 5 0.151 10 M1+E2 0.41 +20-27 0.040 3 170TMS G KC= 0.034 3$LC= 0.0051 4$MC= 0.00101 8$NC+= 0.000277 15 170TM cG |a(K)exp={ 0.034 {I3}}. 170TM G 477.976 140.0196 13 170TM G 480.512 9 0.022 5 170TM G 482.093 200.0107 9 170TM G 482.678 150.010 3 170TM G 488.389 120.0200 9 170TM G 490.026 8 0.024 3 170TM G 492.531 140.0102 9 170TM G 495.036 4 0.068 4 M1(+E2) 0.5 +4-5 0.035 6 170TMS G KC= 0.030 5$LC= 0.0045 7$MC= 0.00097 15$NC+= 0.00027 3 170TM cG |a(K)exp={ 0.030 {I5}}. 170TM G 497.294 6 0.044 6 170TM G 501.495 7 0.0284 9 170TM G 502.834 140.0151 13 170TM G 506.630 3 0.681 12 E1 00.00547 170TMS G KC= 0.00479 $LC= 0.000676 170TM cG |a(K)exp={ 0.0040 {I3}}. 170TM G 514.093 4 0.049 4 M1 0.0348 170TMS G KC= 0.0303 $LC= 0.00443 170TM cG |a(K)exp={ 0.034 {I5}}. 170TM G 515.48 3 0.024 3 170TM G 518.069 9 0.0213 9 M1 0.0341 170TMS G KC= 0.0297 $LC= 0.00434 170TM cG |a(K)exp={ 0.040 {I3}}. 170TM G 520.35 5 0.0124 13 170TM G 521.247 100.0240 13 M1 0.0336 170TMS G KC= 0.0293 $LC= 0.00427 170TM cG |a(K)exp={ 0.026 {I3}}. 170TM G 529.325 230.0142 13 170TM G 531.967 7 0.070 4 M1+E2 0.7 3 0.026 3 170TMS G KC= 0.023 3$LC= 0.0035 4 170TM cG |a(K)exp={ 0.023 {I3}}. 170TM G 536.73 4 0.0178 9 M1+E2 0.7 +7-6 0.025 6 170TMS G KC= 0.022 5$LC= 0.0034 8 170TM cG |a(K)exp={ 0.022 {I5}}. 170TM G 539.025 160.0364 13 M1+E2 1.1 3 0.021 3 170TMS G KC= 0.0184 24$LC= 0.0030 4 170TM cG |a(K)exp={ 0.0182 {I18}}. 170TM G 545.68 6 0.0067 13 170TM G 546.899 200.0138 13 170TM G 549.127 150.0249 13 M1(+E2) 0.021 8 170TMS G KC= 0.018 7$LC= 0.0029 11 170TM cG |a(K)exp={ 0.022 {I4}}. 170TM G 553.892 4 0.0649 18 M1 0.0287 170TMS G KC= 0.0251 $LC= 0.00364 170TM cG |a(K)exp={ 0.025 {I4}}. 170TM G 554.850 180.0182 13 170TM G 556.387 4 0.078 3 170TM G 561.323 130.049 4 170TM cG |a(K)exp={ 0.0125 {I14}}. 170TM G 562.998 260.040 3 170TM G 565.896 9 0.0804 22 E2+M1 1.7 +6-4 0.0160 17 170TMS G KC= 0.0136 16$LC= 0.00232 22 170TM cG |a(K)exp={ 0.0138 {I14}}. 170TM G 567.554 110.0316 18 170TM G 571.063 9 0.082 3 M1+E2 0.7 3 0.022 3 170TMS G KC= 0.0189 25$LC= 0.0029 4 170TM cG |a(K)exp={ 0.0189 {I23}}. 170TM G 572.405 5 0.081 3 170TM G 574.106 6 0.083 3 E2+M1 1.0 3 0.0189 25 170TMS G KC= 0.0164 22$LC= 0.0026 3 170TM cG |a(K)exp={ 0.0162 {I15}}. 170TM G 575.674 120.042 3 170TM G 578.701 7 0.109 6 M1+E2 0.83 +22-200.0199 18 170TMS G KC= 0.0172 16$LC= 0.00266 23 170TM cG |a(K)exp={ 0.0172 {I15}}. 170TM G 580.607 8 0.042 5 170TM G 582.444 150.0729 22 E2+M1 1.3 +5-3 0.0165 19 170TMS G KC= 0.0142 17$LC= 0.00230 24 170TM cG |a(K)exp={ 0.0144 {I17}}. 170TM G 591.42 3 0.0373 13 170TM G 592.937 130.0427 13 M1 0.0242 170TMS G KC= 0.0211 $LC= 0.00305 170TM cG |a(K)exp={ 0.0200 {I28}}. 170TM G 595.869 120.0351 9 M1+E2 0.017 7 170TMS G KC= 0.015 6$LC= 0.0023 8 170TM cG |a(K)exp={ 0.016 {I3}}. 170TM G 597.155 210.0173 18 170TM G 598.047 200.037 3 170TM G 598.473 170.0298 13 170TM G 599.479 190.033 7 170TM G 608.168 140.035 12 170TM G 609.394 120.048 3 170TM G 611.304 100.086 6 M1(+E2) 0.016 6 170TMS G KC= 0.014 6$LC= 0.0022 8 170TM cG |a(K)exp={ 0.0165 {I20}}. 170TM G 612.619 7 0.209 5 E1 0.00364 170TMS G KC= 0.00320 $LC= 0.000443 170TM cG |a(K)exp={ 0.0051 {I6}}. 170TM G 614.45 4 0.028 7 170TM G 616.938 120.0587 22 (E1) 0.00359 170TMS G KC= 0.00315 $LC= 0.000436 170TM cG |a(K)exp={ 0.0060 {I11}}. 170TM G 620.639 6 0.09 3 170TM G 628.04 6 0.0107 13 170TM G 633.648 9 0.0742 18 M1 0.0205 170TMS G KC= 0.0179 $LC= 0.00257 170TM cG |a(K)exp={ 0.024 {I3}}. 170TM G 635.44 6 0.0191 18 M1 0.0203 170TMS G KC= 0.0178 $LC= 0.00255 170TM cG |a(K)exp={ 0.029 {I7}}. 170TM G 639.077 101.105 17 170TM G 643.055 6 0.279 3 E2 00.00892 170TMS G KC= 0.00757 $LC= 0.00135 170TM cG |a(K)exp={ 0.0063 {I11}}. 170TM G 644.442 110.036 12 170TM G 653.066 6 0.152 4 M1+E2 0.75 13 0.0152 9 170TMS G KC= 0.0133 8$LC= 0.00199 11 170TM cG |a(K)exp={ 0.0132 {I7}}. 170TM G 654.16 3 0.0320 22 M1 0.0189 170TMS G KC= 0.0165 $LC= 0.00237 170TM cG |a(K)exp={ 0.0157 {I22}}. 170TM G 655.472 170.0436 22 M1 0.0188 170TMS G KC= 0.0164 $LC= 0.00235 170TM cG |a(K)exp={ 0.0186 {I15}}. 170TM G 656.816 8 0.1524 22 E1 0.00316 170TMS G KC= 0.00277 $LC= 0.000382 170TM cG |a(K)exp={ 0.0035 {I5}}. 170TM G 660.348 200.0640 18 M1 0.0185 170TMS G KC= 0.0161 $LC= 0.00231 170TM cG |a(K)exp={ 0.0170 {I10}}. 170TM G 664.33 6 0.028 9 170TM G 666.157 150.051 4 170TM G 685.047 130.050 3 M1+E2 0.012 5 170TMS G KC= 0.011 4$LC= 0.0016 6 170TM cG |a(K)exp={ 0.0116 {I23}}. 170TM G 687.65 3 0.0418 22 M1+E2 0.012 5 170TMS G KC= 0.011 4$LC= 0.0016 6 170TM cG |a(K)exp={ 0.0120 {I17}}. 170TM G 688.349 130.0644 18 170TM G 692.220 170.0444 22 M1 0.0164 170TMS G KC= 0.0144 $LC= 0.00205 170TM cG |a(K)exp={ 0.0136 {I18}}. 170TM G 695.66 3 0.0400 22 170TM G 696.54 3 0.044 7 M1(+E2) 0.012 4 170TMS G KC= 0.010 4$LC= 0.0016 6 170TM cG |a(K)exp={ 0.0126 {I23}}. 170TM G 697.790 130.0844 22 170TM G 706.977 7 0.252 4 M1+E2 1.19 +18-15 0.0107 6 170TMS G KC= 0.0092 5$LC= 0.00142 7 170TM cG |a(K)exp={ 0.0092 {I5}}. 170TM G 708.701 8 0.236 4 170TM G 717.363 6 0.199 5 M1+E2 1.26 +21-17 0.0101 6 170TMS G KC= 0.0087 5$LC= 0.00135 7 170TM cG |a(K)exp={ 0.0087 {I4}}. 170TM G 718.105 8 0.1440 22 E1,E2 0.0048 21 170TMS G KC= 0.0041 18$LC= 0.00067 25 170TM cG |a(K)exp={ 0.0033 {I6}}. 170TM G 729.10 4 0.024 4 M1 0.0144 170TMS G KC= 0.0126 $LC= 0.00181 170TM cG |a(K)exp={ 0.013 {I4}}. 170TM G 731.11 3 0.0324 18 170TM G 732.269 7 0.13 4 Z 170TM G 735.07 3 0.051 3 170TM G 735.865 8 0.159 4 E2+M1 1.34 +25-19 0.0093 6 170TMS G KC= 0.0080 5$LC= 0.00125 7 170TM cG |a(K)exp={ 0.0080 {I4}}. 170TM G 742.02 3 0.070 3 E2 00.00644 170TMS G KC= 0.00551 $LC= 0.000936 170TM cG |a(K)exp={ 0.0046 {I13}}. 170TM G 743.489 260.079 3 M1+E2 1.0 3 0.0101 13 170TMS G KC= 0.0087 11$LC= 0.00133 16 170TM cG |a(K)exp={ 0.0089 {I8}}. 170TM G 751.278 180.0564 22 E2(+M1) 0.010 4 170TMS G KC= 0.009 3$LC= 0.0013 5 170TM cG |a(K)exp={ 0.0066 {I16}}. 170TM G 752.61 3 0.0440 22 E2(+M1) 0.010 4 170TMS G KC= 0.008 3$LC= 0.0013 4 170TM cG |a(K)exp={ 0.0068 {I17}}. 170TM G 757.071 210.070 3 M1(+E2) 0.010 4 170TMS G KC= 0.008 3$LC= 0.0013 4 170TM cG |a(K)exp={ 0.0088 {I25}}. 170TM G 764.285 250.0351 22 M1+E2 0.009 3 170TMS G KC= 0.008 3$LC= 0.0012 4 170TM cG |a(K)exp={ 0.0081 {I19}}. 170TM G 771.056 210.044 6 170TM G 772.113 250.044 5 M1+E2 0.009 3 170TMS G KC= 0.008 3$LC= 0.0012 4 170TM cG |a(K)exp={ 0.0073 {I20}}. 170TM G 772.864 180.072 3 E2+M1 0.009 3 170TMS G KC= 0.008 3$LC= 0.0012 4 170TM cG |a(K)exp={ 0.0063 {I10}}. 170TM G 774.86 4 0.024 11 170TM G 776.207 160.067 3 170TM G 777.58 4 0.0311 22 170TM G 780.61 4 0.0631 22 170TM G 783.656 7 0.244 6 E2+M1 1.8 +5-3 0.0072 5 170TMS G KC= 0.0062 4$LC= 0.00099 6 170TM cG |a(K)exp={ 0.0062 {I4}}. 170TM G 786.204 140.077 3 170TM G 788.391 180.1116 22 170TM G 792.03 4 0.032 4 170TM G 793.953 140.122 5 E2+M1 0.009 3 170TMS G KC= 0.007 3$LC= 0.0011 4 170TM cG |a(K)exp={ 0.0055 {I6}}. 170TM G 799.74 5 0.038 4 170TM G 803.53 4 0.032 3 M1 0.0113 170TMS G KC= 0.00986 $LC= 0.00144 170TM cG |a(K)exp={ 0.0093 {I20}}. 170TM G 809.056 5 0.039 5 M1+E2 0.008 3 170TMS G KC= 0.007 3$LC= 0.0011 4 170TM cG |a(K)exp={ 0.0068 {I18}}. 170TM G 819.31 7 0.066 10 170TM G 819.88 9 0.044 9 M1 0.0107 170TMS G KC= 0.00937 $LC= 0.00138 170TM cG |a(K)exp={ 0.012 {I3}}. 170TM G 822.345 9 0.263 4 E1 0.00201 170TMS G KC= 0.00176 $LC= 2.46E-04 170TM cG |a(K)exp={ 0.00190 {I23}}. 170TM G 826.119 260.093 3 E1,E2 0.0035 15 170TMS G KC= 0.0030 13$LC= 0.00049 18 170TM cG |a(K)exp={ 0.0029 {I7}}. 170TM G 828.76 7 0.028 4 170TM G 831.03 6 0.043 9 170TM G 831.87 3 0.049 3 Z 170TM G 835.649 150.420 8 M1+E2 1.19 +17-15 0.0071 4 170TMS G KC= 0.0062 3$LC= 0.00096 5 170TM cG |a(K)exp={ 0.0062 {I3}}. 170TM G 845.55 3 0.063 4 E2(+M1) 0.007 3 Z 170TMS G KC= 0.0064 23$LC= 0.0010 3 170TM cG |a(K)exp={ 0.0052 {I13}}. 170TM G 851.58 6 0.044 4 M1+E2 0.0073 25 170TMS G KC= 0.0063 22$LC= 0.0010 3 170TM cG |a(K)exp={ 0.0060 {I16}}. 170TM G 852.870 190.150 3 E2 00.00474 170TMS G KC= 0.00406 $LC= 0.000679 170TM cG |a(K)exp={ 0.0039 {I7}}. 170TM G 856.576 150.270 5 E2+M1 1.8 +4-3 0.0059 4 170TMS G KC= 0.0051 3$LC= 0.00081 5 170TM cG |a(K)exp={ 0.00505 {I25}}. 170TM G 859.707 180.132 3 M1+E2 1.2 3 0.0067 7 170TMS G KC= 0.0058 6$LC= 0.00090 9 170TM cG |a(K)exp={ 0.0058 {I5}}. 170TM G 861.69 3 0.064 3 E2 00.00464 170TMS G KC= 0.00398 $LC= 0.000663 170TM cG |a(K)exp={ 0.0041 {I12}}. 170TM G 863.62 4 0.082 4 E2 00.00462 170TMS G KC= 0.00396 $LC= 0.000660 170TM cG |a(K)exp={ 0.0043 {I10}}. 170TM G 868.444 120.273 6 E1,E2 0.0032 14 170TMS G KC= 0.0027 12$LC= 0.00044 16 170TM cG |a(K)exp={ 0.00254 {I23}}. 170TM G 872.44 4 0.098 4 E2+M1 0.0069 23 170TMS G KC= 0.0059 21$LC= 0.0009 3 170TM cG |a(K)exp={ 0.0044 {I7}}. 170TM G 873.596 9 0.827 17 M1+E2 1.25 +21-17 0.0063 3 170TMS G KC= 0.0055 3$LC= 0.00085 4 170TM cG |a(K)exp={ 0.0055 {I3}}. 170TM G 877.328 250.124 6 170TM G 878.32 3 0.084 3 E2(+M1) 0.0067 23 170TMS G KC= 0.0058 20$LC= 0.0009 3 170TM cG |a(K)exp={ 0.0045 {I8}}. 170TM G 895.376 190.123 6 M1+E2 0.0064 22 170TMS G KC= 0.0056 19$LC= 0.0009 3 170TM cG |a(K)exp={ 0.0060 {I5}}. 170TM G 897.21 4 0.037 7 170TM G 899.137 200.085 7 170TM G 902.752 110.403 5 170TM G 903.40 100.056 10 170TM G 912.52 5 0.069 4 170TM G 916.139 150.168 4 170TM G 924.06 110.039 4 170TM G 931.496 130.317 5 E2+M1 1.5 +4-3 0.0051 4 170TMS G KC= 0.0044 4$LC= 0.00069 5 170TM cG |a(K)exp={ 0.0045 {I3}}. 170TM G 933.63 7 0.040 11 170TM G 935.69 6 0.128 4 E2 00.00389 170TMS G KC= 0.00334 $LC= 0.000545 170TM cG |a(K)exp={ 0.0036 {I7}}. 170TM G 936.26 4 0.081 13 170TM G 938.40 5 0.088 5 170TM G 939.66 3 0.110 4 E2 00.00385 170TMS G KC= 0.00331 $LC= 0.000539 170TM cG |a(K)exp={ 0.0037 {I6}}. 170TM G 941.85 5 0.096 11 E2(+M1) 0.0057 19 170TMS G KC= 0.0050 17$LC= 0.00076 24 170TM cG |a(K)exp={ 0.0044 {I10}}. 170TM cG E fits 1091.6 to 150 transition, but mult inconsistent with 170TM2cG that placement. 170TM G 945.97 4 0.055 9 170TM G 947.80 3 0.074 5 170TM G 950.71 4 0.068 4 170TM G 953.40 9 0.037 5 170TM G 957.80 6 0.070 5 M1(+E2) 0.0055 18 170TMS G KC= 0.0048 16$LC= 0.00072 23 170TM cG |a(K)exp={ 0.0053 {I10}}. 170TM G 960.567 240.124 4 M1+E2 1.0 +4-3 0.0055 6 170TMS G KC= 0.0047 5$LC= 0.00072 8 170TM cG |a(K)exp={ 0.0047 {I5}}. 170TM G 967.280 150.245 7 E1 0.00146 170TMS G KC= 0.00128 $LC= 1.78E-04 170TM cG |a(K)exp={ 0.0018 {I3}}. 170TM G 980.02 4 0.083 5 170TM G 981.39 4 0.135 7 170TM G 982.925 220.192 6 170TM G 988.98 8 0.074 6 170TM G 991.79 7 0.063 5 170TM G 994.24 100.059 5 170TM G 996.58 7 0.091 10 170TM G 1004.041 210.158 11 M1+E2 0.0049 16 170TMS G KC= 0.0043 14$LC= 0.00063 19 170TM cG |a(K)exp={ 0.0041 {I6}}. 170TM G 1009.296 100.538 6 170TM G 1013.64 3 0.223 8 E2 0.00329 170TMS G KC= 0.00285 $LC= 0.000441 170TM cG |a(K)exp={ 0.0022 {I3}}. 170TM G 1021.111 210.239 9 E2 0.00324 170TMS G KC= 0.00281 $LC= 0.000432 170TM cG |a(K)exp={ 0.0030 {I3}}. 170TM G 1025.85 7 0.082 5 170TM G 1032.03 4 0.100 4 M1+E2 0.0046 14 170TMS G KC= 0.0040 13$LC= 0.00058 18 170TM cG |a(K)exp={ 0.0047 {I9}}. 170TM G 1035.251 200.214 8 E2 0.00316 170TMS G KC= 0.00274 $LC= 0.000416 170TM cG |a(K)exp={ 0.0021 {I3}}. 170TM G 1036.51 5 0.086 5 E2(+M1) 0.0046 14 170TMS G KC= 0.0040 13$LC= 0.00057 17 170TM cG |a(K)exp={ 0.0033 {I7}}. 170TM G 1041.20 9 0.060 16 170TM G 1041.80 9 0.076 22 170TM G 1048.08 9 0.064 5 170TM G 1050.08 5 0.087 8 170TM G 1055.55 5 0.143 6 E2 0.00304 170TMS G KC= 0.00264 $LC= 0.000393 170TM cG |a(K)exp={ 0.0028 {I6}}. 170TM G 1058.22 4 0.098 5 M1 00.00572 170TMS G KC= 0.00503 $LC= 0.000688 170TM cG |a(K)exp={ 0.0061 {I9}}. 170TM G 1064.504 250.170 5 170TM G 1074.87 6 0.112 7 170TM G 1077.47 4 0.156 7 170TM G 1079.154 150.516 20 E2 0.00291 170TMS G KC= 0.00254 $LC= 0.000368 170TM cG |a(K)exp={ 0.00264 {I13}}. 170TM G 1082.52 4 0.33 4 E2 0.00289 170TMS G KC= 0.00253 $LC= 0.000365 170TM cG |a(K)exp={ 0.0023 {I3}}. 170TM G 1083.07 3 0.35 9 E2+M1 0.0042 13 170TMS G KC= 0.0037 11$LC= 0.00050 15 170TM cG |a(K)exp={ 0.0032 {I8}}. 170TM G 1087.83 120.070 7 170TM G 1091.51 3 0.205 5 E2 0.00285 170TMS G KC= 0.00249 $LC= 0.000356 170TM cG |a(K)exp={ 0.0022 {I3}}. 170TM cG E fits 1091.6 to g.s. transition, but mult inconsistent with 170TM2cG that placement. 170TM G 1095.01 8 0.096 5 170TM G 1097.43 4 0.168 8 170TM G 1103.72 6 0.120 7 170TM G 1105.368 140.469 12 170TM G 1112.81 7 0.119 5 170TM G 1117.356 250.216 7 170TM G 1124.83 150.068 13 170TM G 1126.72 6 0.159 9 170TM G 1127.09 160.094 8 170TM G 1128.11 9 0.108 17 170TM G 1130.830 260.267 10 170TM G 1134.214 260.221 5 170TM G 1138.61 3 0.302 7 170TM G 1142.27 6 0.118 6 170TM G 1144.47 8 0.082 6 170TM G 1151.37 7 0.125 12 170TM G 1156.56 130.11 4 170TM G 1157.53 120.146 8 170TM G 1162.16 4 0.143 6 170TM G 1164.73 3 0.277 7 170TM G 1167.51 3 0.220 10 170TM G 1173.43 7 0.206 20 170TM G 1192.45 6 0.453 12 170TM G 1195.63 5 0.255 11 170TM G 1196.82 6 0.174 11 170TM G 1198.92 3 0.279 9 170TM G 1204.43 100.322 15 170TM G 1208.71 5 0.188 10 170TM G 1212.99 5 0.148 8 170TM G 1216.33 6 0.133 9 170TM G 1222.75 4 0.293 10 170TM G 1228.23 4 0.40 6 170TM G 1230.51 100.403 12 170TM G 1231.02 6 0.250 23 170TM G 1234.32 5 0.304 11 170TM G 1239.44 7 0.159 19 170TM G 1246.76 110.086 8 170TM G 1250.24 4 0.279 23 170TM G 1255.44 9 0.121 10 170TM G 1258.57 4 0.226 10 170TM G 1266.22 4 0.247 18 170TM G 1280.10 9 0.164 19 170TM G 1317.50 5 0.262 22 170TM G 1334.25 130.148 23 170TM G 1367.06 4 0.298 19 170TM G 1393.38 9 0.147 17 170TM G 1425.29 100.153 21 170TM G 1431.81 140.16 5 170TM G 1464.93 110.16 8 170TM G 1473.02 5 0.33 5 170TM G 1561.63 9 0.252 25 170TM G 1590.42 170.21 3 170TM G 1622.37 120.253 26 170TM G 1632.04 140.21 3 170TM G 1658.65 130.23 3 170TM L 0.0 1- B 170TM L 38.7131 4 (2)- B 170TM G 38.7135 5 0.19621 E2 185 170TMS G LC= 149 $MC= 36.2 170TM cG |a(L3)exp=83 {I8}; L1:L2:L3:M1:M2:M3:M4:M5=5.80 {I12}:67.6 170TM2cG {I14}:82.8 {I17}: 0.979 {I20}:17.5 {I4}:22.4 {I4}:0.300 {I18}:0.311 170TM3cG {I12}. |a(L1)exp, |a(M1)exp inconsistent with other ce data; may 170TM4cG include impurities. Others: L1:L2:L3=100 {I15}:1160 {I90}:1450 {I110} 170TMxcG (1967Ba17). 170TM cG RI others: { 0.170 {I17}} (1966Sh03); { 0.35 {I1}} (1989Du03). 170TM cG Other mult: M1+E2 with |d={ 1.01 {I+11-8}} from 1967Ba17. 170TM L 114.5434 4 (3)- B 170TM G 75.8310 7 0.81 7M1+E2 0.85 5 7.97 170TMS G KC= 4.17 $LC= 2.92 $MC= 0.70 $NC+= 0.183 170TM cG |a(L2)exp={ 1.18 {I11}}; L1:L2:L3:M1:M2:M3= 170TM2cG 0.585 {I12}:1.180 {I24}:1.180 {I24}:0.1070 {I21}:0.269 {I5}:0.284 170TM3cG {I6}. Other: L1:L2:L3={ 100 {I10}}:{ 197 {I20}}:{ 200 {I14}} (1967Ba17) 170TM cG Other |d: { 0.80 {I6}} (1967Ba17). 170TM G 114.5437 9 4.01618 E2 1.87 170TMS G KC= 0.767 $LC= 0.839 $MC= 0.202 $NC+= 0.0578 170TM cG |a(K)exp={ 0.63 {I6}}; K:L1:L2:L3:M1:M3= 170TM2cG 0.63 {I6}:0.0702 {I21}:0.305 {I6}:0.280 {I6}:0.0133 {I3}:0.0725 {I15}. 170TM L 149.7179 5 (0)- A 170TM G 111.0050 7 0.35616 E2 2.10 170TMS G KC= 0.830 $LC= 0.968 $MC= 0.234 $NC+= 0.0667 170TM cG |a(K)exp={ 0.59 {I3}}; K:L1:L2:L3:M1:M2:M3= 170TM2cG 0.588 {I12}:0.0637 {I13}:0.369 {I7}:0.604 {I12}:0.0136 {I10}:0.0866 170TMxcG {I17}:0.0892 {I18}. 170TM G 149.718313 6.5 5 M1 1.006 C 170TMS G KC= 0.842 $LC= 0.127 $MC= 0.0282 $NC+= 0.00818 170TM cG |a(K)exp={ 0.80 {I6}}; K:L1:L2:L3:M1:M2= 170TM2cG 0.795 {I16}:0.1020 {I20}:0.00882 {I18}:0.00121 {I5}:0.0225 170TMxcG {I5}:0.00233 {I14}. 170TM L 183.1921 5 (4)- B 170TM G 68.6491 4 0.008 4E2 13.9 @ 170TMS G KC= 1.90 $LC= 9.18 $MC= 2.24 $NC+= 0.625 170TM3 G FLAG=E 170TM cG For doublet: |a(L1)exp={ 0.074 {I4}}; L1:L2:L3:M1:M2:M3= 170TM2cG 0.0738 {I15}:0.0422 {I8}:0.0519 {I10}:0.0131 {I10}:0.0107 {I3}:0.0137 170TMxcG {I4}. 170TM G 144.4797 0.9411E2 0.804 @C 170TMS G KC= 0.415 $LC= 0.298 $MC= 0.0714 $NC+= 0.0199 170TM3 G FLAG=E 170TM cG E { 144.4797 {I5}} for doublet. 170TM cG For doublet ce data, see comment on 144.5|g from 183.197 170TM2cG level. 170TM L 183.1927 5 (3)+ 4.12 US 13 Z 170TM cL T from |g(t) in (d,p|g) and (n,|g) E=thermal (1967An04). 170TM2cL Other: { 3.2 |ms {I3}} (delayed spectrum, 1970Bh03). 170TM G 68.6491 4 2.0810E1 0.902 @ 170TMS G KC= 0.737 $LC= 0.129 $MC= 0.0286 $NC+= 0.00789 170TM3 G FLAG=E 170TM cG For doublet ce data, see comment on 68.6|g from 183.189 170TMxcG level. 170TM G 144.4797 5 5.0 3E1 0.127 @ 170TMS G KC= 0.106 $LC= 0.0163 $MC= 0.00360 $NC+= 0.001016 170TM3 G FLAG=E 170TM cG For doublet, |a(K)exp={ 0.157 {I9}}; K:L1:L2:L3:M1:M2:M3= 170TM2cG 0.157 {I3}:0.0150 {I3}:0.0232 {I5}:0.0204 {I4}:0.00377 {I15}:0.00629 170TMxcG {I13}:0.00615 {I25}. 170TM L 204.4484 4 (2)- 1 NS LT E 170TM cL T from absence of delayed ce or |g from level (1967An04). 170TM G 89.905626 0.056 6M1 4.32 170TMS G KC= 3.61 $LC= 0.548 $MC= 0.122 $NC+= 0.0345 170TM cG |a(K)exp=4.4 {I4}; K:L1:L2=4.44 {I9}:0.388 {I12}:0.081 {I8}. 170TM cG M M1 from |a(K)exp; however, L subshell data indicate some E2 170TM2cG admixture. 170TM G 165.7355 5 2.8716M1(+E2) 0.7 LE 0.671 C 170TMS G KC= 0.518 $LC= 0.118 $MC= 0.0278 $NC+= 0.00778 170TM cG |a(K)exp={ 0.62 {I3}}; K:L1:L2:L3:M1:M2:M3= 170TM2cG 0.616 {I12}:0.0772 {I15}:0.00760 {I15}:0.00214 {I15}:0.0159 170TMxcG {I5}:0.00183 {I9}:0.00064 {I10}. 170TM cG MR subshell data not mutually consistent; deduced |d values 170TM2cG range from 0 to { 0.6 {I1}}. 170TM G 204.4476 8 6.58 4M1 0.422 C 170TMS G KC= 0.353 $LC= 0.0530 $MC= 0.0126 $NC+= 0.00335 170TM cG |a(K)exp={ 0.341 {I17}}; K:L1:L2:L3:M1:M2= 170TM2cG 0.341 {I7}:0.0466 {I9}:0.00410 {I16}:0.00063 {I8}:0.01060 170TMxcG {I21}:0.00119 {I14}. 170TM L 219.7059 4(2)- A 170TM G 69.9881 9 0.14621 E2 12.9 170TMS G KC= 1.88 $LC= 8.37 $MC= 2.04 $NC+= 0.557 170TM cG |a(L2)exp={ 4.0 {I6}}; L1:L2:L3:M1:M2:M3= 170TM2cG 0.261 {I10}:3.95 {I8}:4.00 {I8}:0.053 {I5}:0.885 {I18}:0.992 {I20}. 170TM G 105.1625 5 1.00210M1+E2 0.4 3 2.73 170TMS G KC= 2.1 $LC= 0.47 $MC= 0.11 $NC+= 0.031 170TM cG |a(K)exp={ 1.84 {I9}}; K:L1:L2:L3:M1:M2:M3= 170TM2cG 1.84 {I4}:0.236 {I5}:0.0333 {I7}:0.0213 {I9}:0.0676 {I14}:0.0147 170TMxcG {I13}:0.0101 {I15}. 170TM cG MR based on 0.72 {I11} from |a(K)exp, 0.25 {I2} from M subshell 170TM2cG data, and { 0.10 {I2}} to { 0.74 {I9}} from L subshell data. 170TM G 180.9936 8 3.5 3 M1+E2 0.28 3 0.576 C 170TMS G KC= 0.475 $LC= 0.0772 $MC= 0.0181 $NC+= 0.00504 170TM cG |a(K)exp={ 0.44 {I4}}; K:L1:L2:M1:M2:M3= 170TM2cG 0.443 {I9}:0.0564 {I11}:0.00745 {I15}:0.01240 {I25}:0.00184 170TM3cG {I18}:0.00102 {I9}. Other: K:L1:L2=800 {I120}:100 {I7}:32 {I6} 170TMxcG (1967Ba17) 170TM cG Other |d: { 0.58 {I+12-7}} (1967Ba17). 170TM G 219.7046 8 2.70122E2+M1 1.29 10 0.251 C 170TMS G KC= 0.187 $LC= 0.0482 $MC= 0.0123 $NC+= 0.00296 170TM cG |a(K)exp={ 0.191 {I10}}; K:L1:L2:L3:M1:M2:M3= 170TM2cG 0.191 {I4}:0.0240 {I5}:0.0157 {I3}:0.01150 {I23}:0.0060 {I4}:0.0041 170TM3cG {I3}:0.00280 {I25}. Other: K:L1:L2:L3=630 {I60}:100 {I10}:65 {I10}:45 170TMxcG {I10} (1967Ba17) 170TM cG Other |d: { 1.32 {I+26-16}} (1967Ba17). 170TM L 237.2392 5 (1)- A 170TM G 17.554 8 0.0120 4 (M1(+E2))0.24 LT 597 170TMS G LC= 478 $MC= 114 170TM3 G FLAG=DF 170TM cG E from 1989Du03. 170TM cG |a(M1)=88, |a(E2)=10090. 170TM G 87.520910 1.28926M1 4.66 C 170TMS G KC= 3.90 $LC= 0.592 $MC= 0.132 $NC+= 0.0370 170TM cG |a(K)exp={ 3.98 {I20}}; K:L1:L2:M1:M2= 170TM2cG 3.98 {I8}:0.577 {I17}:0.0600 {I24}:0.103 {I3}:0.0171 {I14}. 170TM G 198.523710 0.56915M1 0.458 170TMS G KC= 0.383 $LC= 0.0575 $MC= 0.0136 $NC+= 0.00367 170TM cG |a(K)exp={ 0.411 {I21}}; K:L1:L2:M1:M2= 170TM2cG 0.411 {I8}:0.0544 {I11}:0.0035 {I6}:0.0174 {I10}:0.0024 {I5}. 170TM G 237.2407 9 4.08 8M1 0.280 C 170TMS G KC= 0.234 $LC= 0.0351 $MC= 0.00834 $NC+= 0.00200 170TM cG |a(L1)exp={ 0.238 {I12}}; K:L1:L2:L3:M1:M2= 170TM2cG 0.238 {I5}:0.0342 {I7}:0.00241 {I17}:0.00063 {I11}:0.00658 170TMxcG {I26}:0.00071 {I8}. 170TM L 247.1475 16 (4)+ Z 170TM G 63.960 4 0.17723M1+E2 0.65 13.8 @ 170TMS G KC= 7.38 $LC= 4.86 $MC= 1.16 $NC+= 0.362 170TM3 G FLAG=E 170TM cG For doublet: |a(L1)exp={ 0.93 {I11}}; L1:L2:L3:M1:M2:M3= 170TM2cG 0.930 {I19}:1.60 {I3}:1.99 {I4}:0.172 {I3}:0.355 {I7}:0.372 {I7}. 170TM cG MR from authors' analysis (1994HoZZ). 170TM G 63.960 4 0.027 4E1 1.09 @ 170TMS G KC= 0.885 $LC= 0.157 $MC= 0.0348 $NC+= 0.01020 170TM3 G FLAG=E 170TM cG For doublet ce data, see comment on 64.0|g to 183.197 level. 170TM L 270.5465 5 (3)- E 170TM G 66.0983 5 0.39 4M1(+E2) 0.33 LE 11.1 170TMS G KC= 8.14 $LC= 2.29 $MC= 0.532 $NC+= 0.159 170TM cG |a(L1)exp={ 1.42 {I14}}; L1:L2:L3:M1:M2:M3= 170TM2cG 1.42 {I3}:0.575 {I12}:0.573 {I11}:0.275 {I6}:0.157 {I3}:0.155 {I3}. 170TM G 156.0031 7 0.116 9M1+E2 0.32 7 0.869 170TMS G KC= 0.712 $LC= 0.122 $MC= 0.0277 $NC+= 0.0079 170TM cG |a(K)exp={ 0.45 {I5}}; K:L1:L2:M1= 170TM2cG { 0.45 {I3}}:{ 0.097 {I3}}:{ 0.0170 {I26}}:{ 0.027 {I3}}. 170TM cG MR from |a(L2)exp; |a(K)exp and |a(M1)exp not consistent. 170TM G 231.834320 0.39224M1 0.298 170TMS G KC= 0.250 $LC= 0.0374 $MC= 0.00891 $NC+= 0.00217 170TM cG |a(K)exp=0.254 {I15}; K:L1:M1=0.254 {I5}:0.0349 {I7}:0.0092 170TMxcG {I8}. 170TM L 319.3256 9 (5)- B 170TM G 204.7820 8 0.18818E2 0.244 170TMS G KC= 0.154 $LC= 0.0679 $MC= 0.0178 $NC+= 0.00441 170TM cG |a(K)exp={ 0.127 {I17}}; K:L2={ 0.127 {I11}}:{ 0.0269 {I13}}. 170TM L 349.7326 5 (3)- A 170TM G 112.493816 0.033 3 E2 2.00 170TMS G KC= 0.803 $LC= 0.911 $MC= 0.220 $NC+= 0.0628 170TM cG |a(K)exp=0.80 {I7}; K:L3:M2=0.80 {I3}:0.48 {I3}:0.112 {I16}. 170TM G 130.0266 4 1.02 3M1+E2 0.55 9 1.42 C 170TMS G KC= 1.09 $LC= 0.256 $MC= 0.058 $NC+= 0.0169 170TM cG |a(K)exp={ 1.09 {I5}}; K:L1:L2:M1:M2= 170TM2cG 1.090 {I22}:0.145 {I3}:0.0163 {I3}:0.0313 {I6}:0.0040 {I5}. 170TM cG MR from |a(L1)exp and |a(K)exp; |a(L2)exp inconsistent. 170TM G 235.193015 0.94224M1 0.287 C 170TMS G KC= 0.240 $LC= 0.0360 $MC= 0.00855 $NC+= 0.00206 170TM cG |a(K)exp={ 0.249 {I12}}. 170TM G 311.017615 2.01 8M1(+E2) 0.23 LE 0.130 C 170TMS G KC= 0.110 $LC= 0.0166 $MC= 0.00337 $NC+= 0.000743 170TM cG |a(K)exp=0.106 {I5}; K:L1:M1=0.1060 {I21}:0.0157 170TMxcG {I3}:0.00348 {I14}. 170TM L 355.0480 8 (4)+ 170TM cL J probable configuration=(|p 1/2[411])+(|n 7/2[633]) bandhead 170TMxcL (1995HoZZ). 170TM G 107.901216 0.038 3 E2+M1 1.3 +3-4 2.42 170TMS G KC= 1.35 $LC= 0.81 $MC= 0.19 $NC+= 0.056 170TM cG |a(K)exp={ 1.37 {I14}}. 170TM G 171.8551 6 0.056 9E1 0.0803 @ 170TMS G KC= 0.0671 $LC= 0.01019 $MC= 0.00232 $NC+= 0.000639 170TM3 G FLAG=E 170TM cG For doublet ce data, see comment on 171.9|g to 183.197 level. 170TM G 171.8551 6 0.27 3M1(+E2) 0.19 0.675 @ 170TMS G KC= 0.561 $LC= 0.0879 $MC= 0.0202 $NC+= 0.00573 170TM3 G FLAG=E 170TM cG For doublet: |a(K)exp={ 1.38 {I12}}; K:L1:L2:M1:M2= 170TM2cG 1.38 {I3}:0.0741 {I15}:0.0103 {I11}:0.0152 {I8}:0.0052 {I10}. 170TM cG MR from authors' analysis (1994HoZZ). 170TM L 358.1162 7 (4)- E 170TM G 87.571315 0.219 6M1+E2 0.27 4.69 170TMS G KC= 3.73 $LC= 0.748 $MC= 0.171 $NC+= 0.0470 170TM cG |a(L3)exp=0.103 {I6}; L3:M2:M3=0.103 {I5}:0.051 {I11}:0.049 170TMxcG {I6}. 170TM cG MR from |a(L3)exp; however, |d=0.38 {I7} from |a(M2)exp, 0.40 170TM2cG {I6} from |a(M3)exp and { 0.15 {I5}} from L3/M2. 170TM G 153.6666 9 0.101 8 E2 0.647 170TMS G KC= 0.349 $LC= 0.227 $MC= 0.0551 $NC+= 0.0152 170TM cG |a(K)exp={ 0.350 {I25}}; K:L1={ 0.350 {I7}}:{ 0.084 {I14}}. 170TM cG M |a(K)exp consistent with pure E2 (expected from placement); 170TM2cG |a(L1)exp implies |d(E2,M1)=0.7 {I4} suggesting ce line contamination. 170TM G 174.926817 0.028 3 M1+E2 0.53 12 170TMS G KC= 0.39 15$LC= 0.11 4$MC= 0.026 11$NC+= 0.0071 17 170TM cG |a(K)exp={ 0.40 {I4}}: K:L1={ 0.403 {I12}}:{ 0.081 {I10}}. 170TM cG MR { 0.9 {I3}} from |a(K)exp; |<0.4 from |a(L1)exp. 170TM G 243.573 3 0.036 5 M1+E2 0.9 +4-3 0.206 22 170TMS G KC= 0.162 23$LC= 0.033 4$MC= 0.0082 11$NC+= 0.00185 5 170TM cG |a(K)exp={ 0.166 {I23}}. 170TM L 381.4261 6 (4)- A 170TM G 31.70110 0.0133 9 (M1(+E2))0.87 LT 223 170TMS G LC= 179 $MC= 43.2 170TM3 G FLAG=DG 170TM cG Other E|g: { 31.713 {I9}} (1989Du03). 170TM cG |a(M1)=15.1, |a(E2)=529. 170TM G 161.7206 6 0.22811E2 0.542 170TMS G KC= 0.302 $LC= 0.182 $MC= 0.0448 $NC+= 0.0122 170TM cG |a(L2)exp={ 0.067 {I4}}; L1:L2:L3= 170TM2cG { 0.0314 {I16}}:{ 0.067 {I3}}:{ 0.0629 {I13}}. 170TM cG M,MR E2(+M1), |d|>2.2 from (n,|g) consistent with pure E2 170TM2cG as required by placement. 170TM G 198.236920 0.071 4E2+M1 1.23 +25-19 0.347 16 170TMS G KC= 0.255 18$LC= 0.070 4$MC= 0.0176 11$NC+= 0.00455 12 170TM cG MR from |a(K)exp; however, |a(L1)exp gives { 0.54 {I19}}. 170TM cG |a(K)exp={ 0.255 {I18}}; K:L1={ 0.255 {I10}}:{ 0.045 {I4}}. 170TM G 266.881012 0.13014M1+E2 0.9 3 0.158 18 170TMS G KC= 0.126 18$LC= 0.025 3$MC= 0.0058 8$NC+= 0.00126 3 170TM cG |a(K)exp={ 0.126 {I14}}; 170TM2cG K:L1:L2:M1=0.126 {I4}:0.0176 {I23}:0.0050 {I23}:0.0063 {I19}. 170TM G 342.711 4 0.106 5 E2 0.0478 170TMS G KC= 0.0361 $LC= 0.00953 $MC= 0.00177 $NC+= 0.000396 170TM cG |a(K)exp={ 0.0309 {I25}}. 170TM L 402.7278 16 (3,4)- 170TM G 288.184817 0.095 8 M1+E2 0.64 20 0.140 11 170TMS G KC= 0.115 10$LC= 0.0198 18$MC= 0.0044 4$NC+= 0.000939 23 170TM cG |a(K)exp={ 0.115 {I10}}; K:L1={ 0.115 {I5}}:{ 0.016 {I3}}. 170TM G 364.012 4 0.0142 9 170TM L 447.0702 7 (3)- J 170TM G 88.954411 0.035 7 M1 4.45 170TMS G KC= 3.72 $LC= 0.565 $MC= 0.126 $NC+= 0.0354 170TM cG |a(L1)exp=1.02 {I20}; L1:M1:M2=1.02 {I4}:0.21 {I3}:0.139 170TMxcG {I13}. 170TM G 176.524610 0.294 9M1+E2 0.65 12 0.565 18 170TMS G KC= 0.443 23$LC= 0.093 6$MC= 0.0223 16$NC+= 0.00617 25 170TM cG |a(K)exp={ 0.443 {I22}}; K:L1:L2:L3:M1= 170TM2cG 0.443 {I9}:0.0530 {I11}:0.0133 {I12}:0.0075 {I9}:0.0092 {I9}. 170TM cG MR from |a(K)exp; however, subshell ratios do not give an 170TM2cG internally consistent value for |d. 170TM G 242.623314 0.91016M1(+E2) 0.30 +15-30 0.253 11 C 170TMS G KC= 0.210 11$LC= 0.0331 21$MC= 0.0079 5$NC+= 0.00185 5 170TM cG |a(K)exp={ 0.210 {I11}}; K:L1:L2:L3:M1= 170TM2cG 0.210 {I4}:0.0303 {I9}:0.0073 {I8}:0.0020 {I3}:0.0074 {I3}. 170TM G 263.877 5 0.0164 9 170TM G 332.522 5 0.034713 M1(+E2) 0.60 LE 0.0960 170TMS G KC= 0.0799 $LC= 0.0131 $MC= 0.00250 $NC+= 0.000562 170TM cG |a(K)exp={ 0.088 {I8}}. 170TM G 408.348 3 0.142722 M1+E2 0.47 13 0.058 3 170TMS G KC= 0.049 3$LC= 0.0076 4$MC= 0.00130 7$NC+= 0.000332 11 170TM cG |a(K)exp={ 0.0493 {I25}}. 170TM L 467.8605 12 (5)- E 170TM G 109.744 3 0.021 4 170TM G 197.313812 0.028 3 E2 0.276 170TMS G KC= 0.171 $LC= 0.0790 $MC= 0.0206 $NC+= 0.00523 170TM cG |a(K)exp={ 0.17 {I3}}. 170TM L 539.7222 15 (4)- J 170TM G 92.654025 0.073 5 M1+E2 0.23 3 3.97 170TMS G KC= 3.21 $LC= 0.589 $MC= 0.133 $NC+= 0.0376 170TM cG |a(K)exp=3.38 {I20}; K:L1:L2=3.38 {I7}:0.412 {I8}:0.085 170TMxcG {I12}. 170TM cG MR from L1/L2. 170TM G 269.173319 0.063 8M1+E2 1.0 4 0.149 23 170TMS G KC= 0.118 23$LC= 0.024 4$MC= 0.0056 10$NC+= 0.00121 3 170TM cG |a(K)exp={ 0.121 {I16}}; K:L1={ 0.121 {I5}}:{ 0.024 {I4}}. 170TM G 335.274 8 0.011618 170TM L 544.051 7 (3+) 170TM G 505.34415 0.106 7 170TM G 544.04311 0.060 3 170TM cG |a(K)exp={ 0.0187 {I22}}. 170TM cG M,MR E2+M1 (|d=1.0 {I+4-3}) from |a(K)exp is inconsistent with 170TM2cG placement; either the |g misplaced or the mult is incorrect. 170TM L 550.7480 15 (5)- A 170TM G 169.320920 0.022 3M1+E2 0.7 +4-3 0.63 6 170TMS G KC= 0.49 7$LC= 0.109 21$MC= 0.026 5$NC+= 0.0072 9 170TM cG |a(K)exp={ 0.49 {I7}}. 170TM G 192.633425 0.016013M1 0.498 170TMS G KC= 0.417 $LC= 0.0625 $MC= 0.0147 $NC+= 0.00403 170TM cG |a(K)exp={ 0.47 {I4}}. 170TM G 231.418 6 0.009813 170TM G 367.556 4 0.084 4 M1+E2 0.34 +16-25 0.081 5 170TMS G KC= 0.068 4$LC= 0.0104 6$MC= 0.00183 11$NC+= 0.000437 14 170TM cG |a(K)exp={ 0.068 {I4}}. 170TM L 590.2287 17 (1)- C 170TM G 352.997 9 0.46 3 M1+E2 0.63 13 0.081 4 170TMS G KC= 0.067 4$LC= 0.0110 6$MC= 0.00199 11$NC+= 0.000462 13 170TM cG |a(K)exp={ 0.067 {I4}}; K:L1={ 0.0673 {I13}}:{ 0.0096 {I5}}. 170TM G 370.530 4 0.088 4 M1+E2 0.38 +15-25 0.078 5 170TMS G KC= 0.066 5$LC= 0.0101 7$MC= 0.00177 12$NC+= 0.000424 16 170TM cG |a(K)exp={ 0.066 {I4}}. 170TM G 440.516 5 0.048 3 M1 0.0534 170TMS G KC= 0.0452 $LC= 0.00664 $MC= 0.00118 $NC+= 0.000315 170TM cG |a(K)exp={ 0.051 {I9}}. 170TM G 551.514 3 0.97315 M1+E2 0.70 11 0.0237 11 170TMS G KC= 0.0206 10$LC= 0.00315 15 170TM cG |a(K)exp=0.0206 {I10}; K:L1=0.0206 {I4}:0.00302 {I6}. 170TM G 590.226 6 1.21 3 M1(+E2) 0.018 7 170TMS G KC= 0.015 6$LC= 0.0024 9 170TM cG |a(K)exp=0.0188 {I9}; K:L1=0.0188 {I4}:0.00336 {I24}. 170TM cG MR 0.52 {I12} from |a(K)exp; however, |a(L1)exp indicates pure 170TMxcG M1. 170TM L 603.9897 13 (1)+ Q 170TM G 384.287 5 0.140922 C 170TM G 454.276 3 0.208 4 E1 00.00718 170TMS G KC= 0.00611 $LC= 0.000868 $MC= 1.62E-04 $NC+= 4.38E-05 170TM cG |a(K)exp={ 0.0088 {I11}}. 170TM G 565.268 4 1.42823 E1 00.00431 170TMS G KC= 0.00378 $LC= 0.000528 170TM cG |a(K)exp={ 0.00340 {I17}} 170TM G 603.978 6 1.07720 E1 0.00375 170TMS G KC= 0.00329 $LC= 0.000457 170TM cG |a(K)exp={ 0.00348 {I17}}. 170TM L 607.8863 15 (3)+ Q 170TM G 226.468 4 0.011622 170TM G 388.176920 0.0822 9 170TM G 424.693 6 0.381 8 E1 00.00837 170TMS G KC= 0.00713 $LC= 0.001015 $MC= 1.80E-04 $NC+= 4.73E-05 170TM cG |a(K)exp={ 0.0089 {I9}}. 170TM G 493.344 4 0.048922 170TM G 569.177 5 0.71520 E1 00.00425 170TMS G KC= 0.00373 $LC= 0.000520 170TM cG |a(K)exp={ 0.0040 {I3}}. 170TM L 637.9046 18 (2)- C 170TM G 400.668 5 0.14811 M1+E2 0.46 +23-29 0.062 6 170TMS G KC= 0.052 5$LC= 0.0080 8$MC= 0.00137 13$NC+= 0.000346 19 170TM cG |a(K)exp={ 0.052 {I5}}; K:L1={ 0.052 {I4}}:{ 0.0080 {I15}}. 170TM G 418.197 3 0.057318 M1+E2 0.6 3 0.052 6 170TMS G KC= 0.044 6$LC= 0.0069 8$MC= 0.00119 14$NC+= 0.000307 23 170TM cG |a(K)exp={ 0.044 {I5}}. 170TM G 523.358 4 0.424 9 M1+E2 0.69 12 0.0272 14 170TMS G KC= 0.0236 13$LC= 0.00365 19 170TM cG |a(K)exp={ 0.0236 {I12}}. 170TM G 599.206 6 0.128 7 M1+E2 0.78 15 0.0186 12 170TMS G KC= 0.0162 11$LC= 0.00246 16 170TM cG |a(K)exp={ 0.0162 {I10}}. 170TM G 637.899 4 1.36023 & 170TM cG |a(K)exp={ 0.0142 {I7}}, mult=M1+E2 for doublet. 170TM L 648.7463 14 (1)- T 170TM G 378.203 4 0.0196 9 170TM G 411.506222 2.01 7 M1+E2 0.54 8 0.0557 18 C 170TMS G KC= 0.0468 16$LC= 0.00731 25$MC= 0.00125 4$NC+= 0.000322 8 170TM cG |a(K)exp=0.0473 {I24}; K:L1:M1=0.0473 {I9}:0.00663 170TMxcG {I13}:0.00220 {I22}. 170TM G 429.036525 0.236922 M1+E2 0.55 12 0.0498 25 170TMS G KC= 0.0418 22$LC= 0.0065 3$MC= 0.00114 6$NC+= 0.000298 10 170TM cG |a(K)exp={ 0.0419 {I21}}. 170TM G 499.040 4 0.300 4M1 0.0389 C 170TMS G KC= 0.0328 $LC= 0.00479 $MC= 0.00105 $NC+= 0.000290 170TM cG |a(L1)exp={ 0.0040 {I5}}. 170TM cG M |a(L1)exp consistent with pure M1. 170TM G 610.032 6 0.147 6 M1(+E2) 0.5 LE 0.0200 170TMS G KC= 0.0174 $LC= 0.00257 170TM cG |a(K)exp={ 0.0183 {I9}}. 170TM G 648.731 6 0.324 6 M1+E2 0.75 12 0.0155 8 170TMS G KC= 0.0135 7$LC= 0.00202 10 170TM cG |a(K)exp={ 0.0135 {I7}}. 170TM L 650.3728 13 (2)+ Q 170TM G 300.642420 0.036 4 170TM G 413.130925 0.080418 (E1) 00.00892 Y 170TMS G KC= 0.00760 $LC= 0.00108 $MC= 1.91E-04 $NC+= 4.94E-05 170TM G 535.831 3 1.07819 E1 00.00484 170TMS G KC= 0.00424 $LC= 0.000596 170TM cG |a(K)exp={ 0.00340 {I17}}. 170TM G 611.659 5 0.53317 170TM cG |a(K)exp=0.0079 {I8} implies mult=E2, but placement requires 170TM2cG E1; possible contamination of ce line (1994HoZZ). 170TM G 650.366 4 1.35014 E1 0.00322 170TMS G KC= 0.00283 $LC= 0.000390 170TM cG |a(K)exp={ 0.00286 {I20}}. 170TM L 655.597 20 (5-) J 170TM G 541.05320 0.017313 170TM L 661.8562 11 (1)+ a 170TM G 442.147720 0.391 6 E1 00.00763 170TMS G KC= 0.00650 $LC= 0.000924 $MC= 1.68E-04 $NC+= 4.50E-05 170TM cG |a(K)exp={ 0.0053 {I6}}. 170TM G 457.410120 0.36 3 E1 00.00707 IC 170TMS G KC= 0.00601 $LC= 0.000854 $MC= 1.61E-04 $NC+= 4.35E-05 170TM cG |a(K)exp={ 0.0069 {I7}} for doublet. 170TM G 512.133 3 1.22 3 E1 00.00534 C 170TMS G KC= 0.00468 $LC= 0.000660 170TM cG |a(K)exp=0.00361 {I18}; K:L1=0.00361 {I14}:0.00050 {I6}. 170TM G 623.144 5 0.178 5 (E1) 0.00352 170TMS G KC= 0.00309 $LC= 0.000427 170TM cG |a(K)exp={ 0.0047 {I4}}. 170TM L 683.569 3 (0)- V 170TM G 446.333 9 1.33217M1 0.0516 C 170TMS G KC= 0.0437 $LC= 0.00642 $MC= 0.00116 $NC+= 0.000310 170TM cG |a(K)exp=0.0421 {I21}; K:L1:M1=0.0421 {I8}:0.00611 170TMxcG {I24}:0.00159 {I16}. 170TM L 693.2860 13 (2)- T 170TM G 343.552820 0.178 8 M1+E2 0.39 14 0.095 5 170TMS G KC= 0.080 4$LC= 0.0124 7$MC= 0.00229 13$NC+= 0.000526 13 170TM cG |a(K)exp={ 0.081 {I4}}; K:L1={ 0.0809 {I16}}:{ 0.0103 {I12}}. 170TM G 456.044620 1.01010 M1+E2 0.44 14 0.0444 24 170TMS G KC= 0.0374 22$LC= 0.0057 3$MC= 0.00105 6$NC+= 0.000284 11 170TM cG |a(K)exp={ 0.0374 {I19}}. 170TM G 473.605 8 0.26319 M1+E2 0.70 15 0.0362 24 170TMS G KC= 0.0303 21$LC= 0.0048 3$MC= 0.00094 6$NC+= 0.000256 11 170TM cG |a(K)exp=0.0320 {I26}; K:L1=0.0320 {I10}:0.0037 {I3}. 170TM G 693.287 5 0.40 3M1+E2 1.13 +19-16 0.0114 7 170TMS G KC= 0.0099 6$LC= 0.00152 8 170TM cG |a(K)exp={ 0.0099 {I6}}. 170TM L 703.6285 12 (2)+ a 170TM G 41.770020 0.028013(M1(+E2)) 1.1 LT 72.9 170TMS G LC= 58.5 $MC= 14.2 170TM3 G FLAG=H 170TM cG M |a(M1)=6.70, |a(E2)=136. 170TM2cG Other E|g: 41.786 {I12} (1989Du03); 41.768 {I10} (1966Sh03). Other I|g: 170TM3cG { 0.050 {I5}} (1989Du03). 170TM G 99.638817 0.062 4 M1+E2 0.73 14 3.19 170TMS G KC= 2.13 $LC= 0.82 $MC= 0.194 $NC+= 0.055 170TM cG |a(K)exp=2.13 {I13}; K:L1:M1=2.13 {I4}:0.169 {I19}:0.044 170TMxcG {I10}. 170TM G 433.082 3 0.076022(E1) 00.00800 Y 170TMS G KC= 0.00681 $LC= 0.000969 $MC= 1.74E-04 $NC+= 4.61E-05 170TM G 466.393 4 0.040 3 170TM G 483.926 4 0.056413 170TM G 589.085 7 0.552 9 E1 00.00395 170TMS G KC= 0.00347 $LC= 0.000482 170TM cG |a(K)exp={ 0.00268 {I21}}. 170TM G 664.897 5 0.281 5(E1) 0.00308 170TMS G KC= 0.00271 $LC= 0.000372 170TM cG |a(K)exp={ 0.0015 {I3}}. 170TM G 703.626 6 0.88825 E1 0.00274 170TMS G KC= 0.00241 $LC= 0.000331 170TM cG |a(K)exp={ 0.00205 {I12}}. 170TM L 708.371 4 (3)- C 170TM G 525.180 5 0.062713 M1+E2 0.8 +4-3 0.026 4 170TMS G KC= 0.022 3$LC= 0.0035 5 170TM cG |a(K)exp={ 0.0211 {I17}}. 170TM G 593.93 7 0.012013 170TM G 669.654 5 0.329 3M1+E2 1.08 14 0.0126 7 170TMS G KC= 0.0109 6$LC= 0.00168 8 170TM cG |a(K)exp={ 0.0109 {I5}}. 170TM L 709.468 7 (1,2,3)- ? 170TM G 505.01010 0.72022M1+E2 0.64 11 0.0305 15 C ? 170TMS G KC= 0.0264 13$LC= 0.00408 19 170TM cG |a(K)exp={ 0.0264 {I13}}. 170TM G 670.760 9 0.14 7 Z ? 170TM L 715.6207 14 (3)- D 170TM G 175.894 4 0.015113 E2(+M1) 2.1 GE 0.450 170TMS G KC= 0.293 $LC= 0.119 $MC= 0.0296 $NC+= 0.00798 170TM cG |a(K)exp={ 0.27 {I3}}. 170TM G 268.551515 0.13916M1+E2 0.9 3 0.155 18 C 170TMS G KC= 0.124 18$LC= 0.024 3$MC= 0.0057 8$NC+= 0.00123 3 170TM cG |a(K)exp={ 0.124 {I14}}; K:L1={ 0.124 {I4}}:{ 0.0240 {I19}}. 170TM G 365.887 6 0.010718 170TM G 468.473 5 0.071 3 170TM G 532.421 4 0.35510 E1 00.00490 170TMS G KC= 0.00430 $LC= 0.000604 170TM cG |a(K)exp={ 0.00415 {I25}}. 170TM L 719.2626 22 (1)+ S 170TM G 499.559 4 0.510 9E1 00.00583 C 170TMS G KC= 0.00494 $LC= 0.000698 $MC= 1.53E-04 $NC+= 4.19E-05 170TM cG |a(K)exp={ 0.0067 {I5}}; |a(L1)exp={ 0.00137 {I18}}. 170TM G 569.549 8 0.329 8 E1 00.00424 170TMS G KC= 0.00372 $LC= 0.000519 170TM cG |a(K)exp={ 0.0030 {I3}}. 170TM G 680.544 4 0.45212 E1 0.00294 170TMS G KC= 0.00258 $LC= 0.000355 170TM cG |a(K)exp={ 0.00249 {I17}}. 170TM G 719.262 5 1.21 3 E1 0.00262 170TMS G KC= 0.00231 $LC= 0.000317 170TM cG |a(K)exp={ 0.00221 {I13}}. 170TM L 733.8122 18 (2)- V 170TM G 384.079 3 1.5612 M1+E2 0.56 12 0.066 3 C 170TMS G KC= 0.056 3$LC= 0.0088 5$MC= 0.00151 8$NC+= 0.000372 11 170TM cG |a(K)exp=0.053 {I4}; K:L1=0.0531 {I11}:0.00796 {I16}. 170TM G 496.571825 0.71212 M1+E2 0.40 15 0.0364 21 C 170TMS G KC= 0.0305 18$LC= 0.0046 3$MC= 0.00100 6$NC+= 0.000274 11 170TM cG |a(K)exp=0.0305 {I15}: K:L1=0.0305 {I6}:0.00426 {I26}. 170TM G 733.79 3 0.039622 170TM L 749.8482 15 (3)- T 170TM G 368.423720 0.060922 M1 0.0851 170TMS G KC= 0.0722 $LC= 0.0106 $MC= 0.00187 $NC+= 0.000449 170TM cG |a(K)exp={ 0.070 {I6}}. 170TM G 400.113520 0.43117M1+E2 0.60 11 0.059 3 C 170TMS G KC= 0.0491 24$LC= 0.0078 4$MC= 0.00133 6$NC+= 0.000335 9 170TM cG |a(K)exp=0.0494 {I25}; K:L1=0.0494 {I10}:0.0062 {I8}. 170TM G 512.62024 0.044 3 170TM G 711.127 7 0.24614 M1+E2 1.1 +4-3 0.0108 13 170TMS G KC= 0.0094 12$LC= 0.00144 16 170TM cG |a(K)exp={ 0.0093 {I9}}. 170TM L 756.211 4 (4)- D 170TM G 573.017 4 0.292 5 E1 00.00419 170TMS G KC= 0.00368 $LC= 0.000513 170TM cG |a(K)exp={ 0.0045 {I4}}. 170TM L 758.3284 14 (2)+ 170TM cL J possible configuration=(|p 1/2[541])-(|n 5/2[512]) bandhead 170TMxcL (1995HoZZ). 170TM G 107.9557 7 0.116 6 M1 2.55 170TMS G KC= 2.14 $LC= 0.323 $MC= 0.0716 $NC+= 0.0211 170TM cG |a(K)exp=2.36 {I12}; K:L1:L2=2.36 {I5}:0.329 {I7}:0.031 170TMxcG {I3}. 170TM G 487.773 7 0.028022 170TM G 538.622 7 0.063 3 170TM G 575.11517 0.026213 170TM L 775.2301 14 (0)+ H 170TM G 185.006 3 0.016422 170TM G 537.992 3 0.87014 E1 00.00479 170TMS G KC= 0.00420 $LC= 0.000590 170TM cG |a(K)exp={ 0.00330 {I23}}. 170TM L 782.1519 22 (1)- V 170TM G 98.582920 0.059 7M1 3.31 170TMS G KC= 2.77 $LC= 0.420 $MC= 0.0934 $NC+= 0.0271 170TM cG |a(K)exp=2.8 {I3}; K:L1:L2=2.80 {I6}:0.50 {I3}:0.099 {I14}. 170TM cG M |a(L1)exp consistent with pure M1, but cannot rule out small 170TM2cG E2 admixture. 170TM G 562.444 3 0.77115M1+E2 0.60 23 0.0236 22 C 170TMS G KC= 0.0205 20$LC= 0.0031 3 170TM cG |a(K)exp={ 0.0205 {I10}}. 170TM G 632.430 4 0.70413 C 170TM cG |a(K)exp={ 0.0141 {I7}}. 170TM cG M,MR M1+E2 (|d=0.78 {I12}) from |a(K)exp in (n,|g); inconsistent 170TM2cG with transition to J=0. 170TM L 806.4273 24 (3,4)- 170TM cL J possible configuration=((|p 3/2[411])+(|n 5/2[512])) 170TMxcL bandhead (1995HoZZ) 170TM G 359.359 3 0.066 4 170TM G 448.308 5 0.082218 E2 0.0227 170TMS G KC= 0.0179 $LC= 0.00390 $MC= 0.000709 $NC+= 1.89E-04 170TM cG |a(K)exp={ 0.017 {I4}}. 170TM G 601.974 5 0.168 4 170TM L 818.5084 14 (2)+ H 170TM G 214.517 4 0.024422 M1+E2 0.51 +24-28 0.336 25 170TMS G KC= 0.27 3$LC= 0.048 6$MC= 0.0118 15$NC+= 0.00299 11 170TM cG |a(K)exp={ 0.273 {I27}}. 170TM G 468.777 4 0.31010 170TM cG |a(L1)exp=0.00272 {I19} implies mult=M1+E2, but placement 170TM2cG requires E1; possible ce line contamination (1994HoZZ). 170TM G 581.268 5 0.39811 E1 00.00407 170TMS G KC= 0.00357 $LC= 0.000497 170TM cG |a(K)exp={ 0.00339 {I24}}. 170TM G 703.97512 0.96 3 & 170TM3 G FLAG=J 170TM cG |a(K)exp={ 0.0054 {I3}}, K:L1={ 540 {I11}}:{ 70 {I8}} 170TM G 779.77516 0.062 4 170TM G 818.502 9 0.315 4(E1) 0.00203 Y 170TMS G KC= 0.00178 $LC= 2.48E-04 170TM L 822.3943 14 (2)+ S 170TM G 218.409 4 0.013318 M1(+E2) 0.3 +6-3 0.34 6 170TMS G KC= 0.28 6$LC= 0.045 13$MC= 0.011 3$NC+= 0.00273 21 170TM cG |a(K)exp={ 0.28 {I6}}. 170TM G 472.663 3 0.342 8E1 00.00658 170TMS G KC= 0.00559 $LC= 0.000792 $MC= 1.56E-04 $NC+= 4.25E-05 170TM cG |a(K)exp={ 0.0051 {I7}}. 170TM G 585.152 4 0.57613 E1 00.00401 C 170TMS G KC= 0.00352 $LC= 0.000489 170TM cG |a(K)exp={ 0.00464 {I23}}. 170TM G 707.849 5 0.380 4(E1) 0.00271 170TMS G KC= 0.00238 $LC= 0.000327 170TM cG |a(K)exp={ 0.00120 {I22}}. 170TM L 839.130 3 (3)- 170TM G 619.423 5 0.209 5 M1+E2 0.52 12 0.0191 9 170TMS G KC= 0.0167 8$LC= 0.00246 12 170TM cG |a(K)exp={ 0.0166 {I8}}. 170TM G 634.66118 0.042718 170TM G 724.588 5 0.90718 M1+E2 0.95 14 0.0109 6 170TMS G KC= 0.0095 6$LC= 0.00144 8 170TM cG |a(K)exp={ 0.0095 {I5}}; K:L1={ 0.0095 {I5}}:{ 0.00146 {I7}}. 170TM cG MR from |a(K)exp; { 0.60 {I11}} from |a(L1)exp. 170TM G 800.40618 0.097 3M1+E2 1.0 3 0.0084 10 & 170TMS G KC= 0.0073 9$LC= 0.00112 13 170TM cG |a(K)exp={ 0.0072 {I9}}. 170TM L 854.340 4 (2)- U 170TM G 739.800 7 0.221 4M1+E2 1.30 +19-16 0.0092 5 170TMS G KC= 0.0080 4$LC= 0.00124 6 170TM cG |a(K)exp={ 0.0080 {I4}}. 170TM G 815.621 7 1.092 7 M1+E2 1.14 12 0.0077 3 170TMS G KC= 0.0067 3$LC= 0.00103 4 170TM cG |a(K)exp=0.0066 {I3}; K:L1=0.00654 {I13}:0.00095 {I6}. 170TM G 854.336 6 1.90 3M1+E2 1.03 13 0.0071 3 170TMS G KC= 0.0062 3$LC= 0.00096 4 170TM cG |a(K)exp=0.0059 {I3}; K:L1=0.00589 {I12}:0.00085 {I3}. 170TM cG E also consistent with placement from 1091.8 to 237.2, 170TM2cG but mult=E1 is required for that placement. 170TM L 860.486 3 (1)+ H 170TM G 640.774 5 0.63612 E1 0.00332 C 170TMS G KC= 0.00292 $LC= 0.000402 170TM cG |a(K)exp={ 0.00285 {I20}}. 170TM G 710.772 6 0.62813 E1 0.00269 C 170TMS G KC= 0.00236 $LC= 0.000325 170TM cG |a(K)exp={ 0.0017 {I4}}. 170TM L 862.7758 20 (3)- V 170TM G 415.703 3 0.0373 9 170TM G 481.349 3 0.109 3 M1(+E2) 0.5 +3-5 0.038 5 170TMS G KC= 0.032 4$LC= 0.0048 6$MC= 0.00098 12$NC+= 0.000269 23 170TM cG |a(L1)exp={ 0.0043 {I6}}. 170TM G 679.584 6 0.116922 170TM G 748.24114 0.076922 170TM G 824.067 7 0.378 6 170TM cG |a(K)exp={ 0.00159 {I19}}. 170TM cG M E1 from |a(K)exp; inconsistent with placement. 170TM L 863.364 5 (1)- O 170TM G 416.301 8 0.0116 9 170TM G 658.91 4 1.50 4M1+E2 0.74 12 0.0150 8 C 170TMS G KC= 0.0130 7$LC= 0.00195 10 170TM cG |a(K)exp={ 0.0130 {I7}}. 170TM L 908.448 3 (2-) O 170TM G 637.899 4 1.36023 & 170TM cG |a(K)exp={ 0.0142 {I7}}, mult=M1+E2 for doublet. 170TM G 703.97512 0.96 3 &C 170TM3 G FLAG=J 170TM cG |a(K)exp={ 0.0054 {I3}}, K:L1={ 540 {I11}}:{ 70 {I8}} 170TM L 925.2718 22 (3)- U 170TM G 457.410120 0.04 3 [E2] 0.0215 I 170TMS G KC= 0.0170 $LC= 0.00366 $MC= 0.000685 $NC+= 1.85E-04 170TM G 720.80312 0.640 5 170TM cG |a(K)exp={ 0.00209 {I25}}. 170TM cG M E1 from |a(K)exp; inconsistent with placement. 170TM G 810.730 8 0.250 4M1+E2 1.34 +21-17 0.0074 4 170TMS G KC= 0.0064 3$LC= 0.00100 5 170TM cG |a(K)exp={ 0.0064 {I3}}. 170TM G 886.58312 0.246 5 M1+E2 2.48 24 00.00499 170TMS G KC= 0.00429 $LC= 0.000694 170TM cG |a(K)exp={ 0.0056 {I3}}. 170TM L 959.217 8 (3)- 170TM G 844.68212 0.166 3 170TM G 920.53 3 0.104 4E2(+M1) 0.0060 20 170TMS G KC= 0.0052 18$LC= 0.0008 3 170TM cG |a(K)exp={ 0.0040 {I9}}. 170TM G 959.20211 0.343 5 E2 0.00369 & 170TMS G KC= 0.00318 $LC= 0.000512 170TM cG |a(K)exp={ 0.00333 {I20}}. 170TM L 964.474 6 (3,4)- 170TM G 517.42816 0.022218 E2(+M1) 1.5 GE 0.0209 170TMS G KC= 0.0179 $LC= 0.00308 170TM cG |a(K)exp={ 0.015 {I3}}. 170TM G 561.75313 0.027 3 170TM G 606.34610 0.058 4M1+E2 0.81 +23-200.0179 16 170TMS G KC= 0.0155 14$LC= 0.00236 20 170TM cG |a(K)exp={ 0.0155 {I14}}. 170TM G 744.74715 0.112 8 170TM G 760.05 3 0.034718 170TM G 781.29925 0.142722 E2+M1 1.7 +6-3 0.0074 6 170TMS G KC= 0.0064 6$LC= 0.00101 8 170TM cG |a(K)exp={ 0.0064 {I6}}. 170TM L 979.929 4 (3)- O 170TM G 532.860 4 0.094 4 170TM G 621.805 8 0.093 5 E2 00.00964 170TMS G KC= 0.00817 $LC= 0.00148 170TM cG |a(K)exp={ 0.0073 {I14}}. 170TM G 709.37814 0.080922 170TM L 984.981 6 (3,4,5)- 170TM G 582.25811 0.03810 170TM G 626.857 9 0.048913 170TM G 714.43813 0.067 4 E2(+M1) 0.011 4 170TMS G KC= 0.010 4$LC= 0.0015 5 170TM cG |a(K)exp={ 0.0069 {I13}}. 170TM L 1064.4576 13 (1)+ 170TM G 203.970 4 0.034222 170TM G 242.064425 0.055 8 M1+E2 0.8 +4-3 0.216 25 170TMS G KC= 0.172 25$LC= 0.034 5$MC= 0.0083 12$NC+= 0.00190 5 170TM cG |a(K)exp={ 0.175 {I25}}. 170TM G 245.947325 0.054 7 M1(+E2) 0.7 LE 0.214 170TMS G KC= 0.173 $LC= 0.0321 $MC= 0.00780 $NC+= 0.00177 170TM cG |a(K)exp={ 0.193 {I25}}. 170TM G 289.229113 0.035 3 M1 0.163 170TMS G KC= 0.137 $LC= 0.0204 $MC= 0.00442 $NC+= 0.000967 170TM cG |a(K)exp={ 0.129 {I12}}. 170TM cG M M1(+E2) (|d|<0.6) from |a(K)exp; feeds J=(0) state. 170TM G 345.192 9 0.0227 4 170TM G 360.824725 0.061313 170TM G 371.171 3 0.0240 4 170TM G 460.464 3 0.075122 E2+M1 1.2 +12-5 0.032 7 170TMS G KC= 0.026 6$LC= 0.0045 9$MC= 0.00085 17$NC+= 2.3E-04 3 170TM cG |a(K)exp={ 0.026 {I6}}. 170TM G 914.75 6 0.036 8 170TM L 1070.973 6 (2)- 170TM G 422.22410 0.013313 170TM G 526.88826 0.017313 170TM G 800.40618 0.097 3M1+E2 1.0 3 0.0084 10 & 170TMS G KC= 0.0073 9$LC= 0.00112 13 170TM cG |a(K)exp={ 0.0072 {I9}}. 170TM G 866.531 9 0.488 8 E2+M1 1.48 +24-19 0.0061 3 170TMS G KC= 0.0052 3$LC= 0.00083 4 170TM cG |a(K)exp={ 0.00528 {I26}}. 170TM G 1070.97116 0.230 7 E2+M1 0.0043 13 170TMS G KC= 0.0037 12$LC= 0.00052 15 170TM cG |a(K)exp={ 0.0030 {I3}}. 170TM L 1078.8491 14 (1)+ 170TM G 256.4547 9 0.09112 M1+E2 1.0 +4-3 0.172 19 170TMS G KC= 0.135 19$LC= 0.028 4$MC= 0.0068 9$NC+= 0.00149 4 170TM cG |a(K)exp={ 0.135 {I18}}. 170TM G 260.340812 0.078 9 M1+E2 0.6 3 0.189 19 170TMS G KC= 0.154 19$LC= 0.027 4$MC= 0.0064 9$NC+= 0.00141 4 170TM cG |a(K)exp={ 0.155 {I19}}. 170TM G 303.617418 0.12313M1 0.143 170TMS G KC= 0.120 $LC= 0.0178 $MC= 0.00371 $NC+= 0.000815 170TM cG |a(K)exp={ 0.110 {I12}}. 170TM cG M M1(+E2) (|d|<0.7) from |a(K)exp; feeds J=(0) state. 170TM G 1040.14219 0.41710 E1 0.00128 170TMS G KC= 0.00113 $LC= 1.51E-04 170TM cG |a(K)exp={ 0.00106 {I21}}. 170TM L 1091.585 3 (0,1,2)+ ? 170TM G 231.098713 0.065 6 M1+E2 1.11 +29-22 0.225 15 ? 170TMS G KC= 0.173 16$LC= 0.040 3$MC= 0.0101 8$NC+= 0.00235 6 170TM cG |a(K)exp={ 0.173 {I16}}. 170TM L 1102.000 3 (2+) 170TM G 382.737526 0.022 4 170TM G 494.12422 0.010713 170TM G 987.44311 0.372 6 170TM G 1101.95 4 0.155 6 170TM L 1139.951 4 (2)- 170TM G 231.499 4 0.021 3E2+M1 1.3 +12-5 0.21 3 170TMS G KC= 0.16 3$LC= 0.040 7$MC= 0.0101 18$NC+= 0.00235 6 170TM cG |a(K)exp={ 0.16 {I3}}. 170TM G 276.592 5 0.0071 9 170TM G 491.206 9 0.0173 9 170TM G 781.83 3 0.068 4(E2) 00.00574 170TMS G KC= 0.00491 $LC= 0.000828 170TM cG |a(K)exp={ 0.0079 {I17}}. 170TM cG M,MR M1+E2 with |d=0.9 {I+7-4} from |a(K)exp; M1 component 170TM2cG inconsistent with placement. 170TM G 790.20015 0.192 3M1+E2 1.23 +27-21 0.0081 6 170TMS G KC= 0.0070 5$LC= 0.00108 7 170TM cG |a(K)exp={ 0.0070 {I5}}. 170TM G 869.41814 0.185 6 E1,E2 0.0032 14 170TMS G KC= 0.0027 12$LC= 0.00044 16 170TM cG |a(K)exp={ 0.0028 {I4}}. 170TM L 1147.974 4 (1,2)- 170TM G 454.684 6 0.0289 9M1 0.0492 170TMS G KC= 0.0417 $LC= 0.00611 $MC= 0.00113 $NC+= 0.000304 170TM cG |a(K)exp={ 0.041 {I8}}. 170TM G 464.36 5 0.0080 9 170TM G 557.749 5 0.090713 M1+E2 1.52 +20-16 0.0173 8 170TMS G KC= 0.0148 7$LC= 0.00248 10 170TM cG |a(K)exp={ 0.0148 {I7}}. 170TM G 928.27018 0.534 8 M1+E2 1.35 +22-18 0.0053 3 170TMS G KC= 0.00462 23$LC= 0.00072 3 170TM cG |a(K)exp={ 0.00467 {I23}}. 170TM G 943.51414 0.312 5 E2 00.00382 170TMS G KC= 0.00329 $LC= 0.000534 170TM cG |a(K)exp={ 0.0027 {I3}}. 170TM G 998.24814 0.255 4 170TM L 1160.596 3 (1)- 170TM G 252.149 5 0.015113 M1 0.237 170TMS G KC= 0.199 $LC= 0.0297 $MC= 0.00695 $NC+= 0.00160 170TM cG |a(K)exp={ 0.217 {I26}}. 170TM G 297.22211 0.0076 9 170TM G 426.782 4 0.146722 M1+E2 0.39 +13-15 0.054 3 170TMS G KC= 0.0453 23$LC= 0.0069 4$MC= 0.00119 6$NC+= 0.000313 10 170TM cG |a(K)exp={ 0.0452 {I23}}. 170TM G 467.317 7 0.016 3 170TM G 477.030 7 0.077 6 M1 0.0436 170TMS G KC= 0.0368 $LC= 0.00539 $MC= 0.00107 $NC+= 0.000293 170TM cG |a(K)exp={ 0.030 {I6}} implies mult=M1(+E2); E2 component 170TM2cG inconsistent with placement. 170TM G 713.50523 0.048 3 170TM G 890.02 3 0.132 4 170TM G 956.14412 0.44610 E1,E2 0.0026 11 170TMS G KC= 0.0023 9$LC= 0.00035 13 170TM cG |a(K)exp={ 0.00208 {I25}}. 170TM L 1168.780 5 (2)- 170TM cL J (0-,2-) based on primary |g feeding from 1+, but not from 0+, 170TM2cL resonances (1968Lo09). 170TM G 485.210 4 0.136 5 170TM cG |a(K)exp={ 0.0305 {I18}}. 170TM cG M,MR M1+E2 (|d=0.54 {I14}) from |a(K)exp; inconsistent with 170TM2cG placement to (0)- state. 170TM G 964.32918 0.141 4 170TM L 1178.910 3 (2)- 170TM G 396.739 8 0.0124 9 170TM G 463.286 5 0.0236 9 170TM G 517.060 4 0.112 4 170TM G 959.20211 0.343 5 E2 0.00369 & 170TMS G KC= 0.00318 $LC= 0.000512 170TM cG |a(K)exp={ 0.00333 {I20}}. 170TM G 995.71 6 0.10110 E2 0.00342 170TMS G KC= 0.00295 $LC= 0.000464 170TM3 G FL=183.1896 170TM cG |a(K)exp={ 0.0037 {I7}}. 170TM cG M E2(+M1) from |a(K)exp; M1 component inconsistent with 170TMxcG placement. 170TM G 1140.19115 0.47214 170TM G 1178.88725 0.89 3 170TM L 1192.829 10 (2)- 170TM G 602.59814 0.034 3 170TM G 973.08719 0.160 5 E2+M1 1.7 +9-4 0.0045 4 170TMS G KC= 0.0039 4$LC= 0.00060 6 170TM cG |a(K)exp={ 0.0039 {I4}}. 170TM G 1043.14422 0.285 8 E2 0.00311 170TMS G KC= 0.00270 $LC= 0.000407 170TM cG |a(K)exp={ 0.00296 {I24}}. 170TM G 1154.19 6 0.136 9 170TM L 1210.679 10 (2+) 170TM cL J 1- favored based on primary |g feeding intensities from 170TM2cL 0+ and 1+ resonances (1968Lo09). 170TM G 666.62711 0.060022 M1+E2 1.3 +6-4 0.0119 18 170TMS G KC= 0.0102 16$LC= 0.00161 22 170TM cG |a(K)exp={ 0.0102 {I14}}. 170TM G 1171.93 3 0.197 8 170TM G 1210.68719 0.562 9 170TM L 1238.144 10 (1,2)- 170TM cL J 1- favored based on primary |g feeding intensities from 170TM2cL 0+ and 1+ resonances (1968Lo09). 170TM G 504.32524 0.028013 170TM G 694.10021 0.09 7 170TM G 1000.89114 0.299 7 M1+E2 1.00 +21-17 0.0050 3 170TMS G KC= 0.0043 3$LC= 0.00064 4 170TM cG |a(K)exp={ 0.00434 {I26}}. 170TM G 1018.49 3 0.209 8 E2 0.00326 170TMS G KC= 0.00283 $LC= 0.000435 170TM cG |a(K)exp={ 0.0031 {I3}}. 170TM G 1238.05 9 0.10817 170TM L 1265.075 12 (0,1,2)- 170TM G 1027.82013 0.46516 170TM G 1045.44 3 0.136 5 E2(+M1) 0.0045 14 170TMS G KC= 0.0039 12$LC= 0.00056 17 170TM cG |a(K)exp={ 0.0033 {I5}}. 170TM G 1226.30 6 0.233 8 170TM G 1265.1310 0.16623 170TM L 1299.108 13 (2)- 170TM G 438.62 4 0.009313 170TM G 695.16 3 0.065 3 170TM G 940.94 3 0.090 8 (E2) 00.00384 170TMS G KC= 0.00331 $LC= 0.000537 170TM cG |a(K)exp={ 0.0049 {I10}}. 170TM cG M M1+E2 from |a(K)exp; M1 component inconsistent with 170TMxcG placement. 170TM G 1061.86919 0.37216 E2 0.00300 170TMS G KC= 0.00262 $LC= 0.000386 170TM cG |a(K)exp={ 0.0027 {I3}}. 170TM G 1184.55 4 0.29623 170TM L 1354.73 7 (2)- ? 170TM G 1354.72 7 0.21 4 ? 170TM L 1381.2 21(1-) 170TM L 1435.2 21(1-) 170TM L 1445.2 21(1-) 170TM L 1472.2 21(1-) 170TM L 1517.2 21(0-,2-) 170TM L 1543 4(1-) 170TM L 1612.2 21(0-,1-,2-) 170TM L 1644.2 21(1-) 170TM L 1676.2 21(1-) 170TM L 1793.2 21(1-) 170TM L 1823.2 21(0-,1-,2-) 170TM L 1846.2 21(1-) 170TM L 1861.2 21(1-) 170TM L 1944.2 21(0-,2-) 170TM L 1955.2 21(0-,1-,2-) 170TM L 6594.5 4 0+,1+ S 170TM cL E$6389.7 12 from 1995Au04. 170TM2cL Observed deexcitation intensity is 98% of GS feeding. 170TM G 4639 3 A 170TM G 4650 3 A 170TM G 4733 3 A 170TM G 4748 3 A 170TM G 4771 3 A 170TM G 4801 3 A 170TM G 4918 3 A 170TM3 G FLAG=C 170TM G 4950 3 A 170TM G 4982 3 A 170TM G 5051 5 A 170TM3 G FLAG=C 170TM G 5077 3 0.21016 170TM G 5122 3 0.19 2 170TM G 5149 3 A 170TM G 5159 3 0.68 3 170TM G 5213 3 A 170TM G 5326 6 0.14 5 170TM3 G FLAG=C 170TM G 5360 6 0.07619 170TM3 G FLAG=C 170TM G 5383 3 0.06422 170TM G 5398 3 0.18018 170TM G 5416 3 0.31017 170TM G 5428 5 0.18016 170TM3 G FLAG=C 170TM G 5447 3 0.03616 170TM cG RI for (5447|g+5453|g) doublet. 170TM G 5453 3 0.03616 170TM cG RI for (5447|g+5453|g) doublet. 170TM G 5518 6 0.12016 170TM G 5684 3 0.06015 170TM G 5730 3 0.14 4 170TM cG RI from 1966Sh03. 170TM G 5737 3 0.88017 170TM G 5771 3 A 170TM G 5809 3 0.05015 170TM cG RI from 1966Sh03. 170TM G 5858 3 0.23014 170TM G 5900 3 0.32015 170TM G 5911 3 0.31017 170TM G 5945 3 0.78015 170TM3 G FL=648.7462 170TM G 6003 3 0.60015 170TM G 6356 3 0.19012 170TM G 6375 3 0.07916 170TM cG RI from 1966Sh03. 170TM G 6389 3 0.80014 170TM G 6444.210 0.20011 170TM cG E from 1966Sh03. 170TM G 6556.4 5 0.49015 170TM cG E from 1966Sh03. 170TM G 6594 3 0.02110