175HF 175TA EC DECAY 1971GA38,1960HA18 25NDS 202511
175HF H TYP=FUL$AUT=Jin Wu$CIT=NDS 206, 1 (2025)$CUT=29-Oct-2024$
175HF c 1971Ga38: The {+175}Ta was produced by a proton beam bombarding on a
175HF2c Au target and a {+20}Ne on a Tb target at beam energies of 600 and 20
175HF3c MeV respectively. Measured Ice, E|g, I|g, |g|g coin. Deduced |a(K)exp.
175HF c 1960Ha18: The {+175}Ta was produced by the {+174}Hf(p,2n) reaction at
175HF2c a beam energy of 20 MeV. Measured ce.
175HF c Decay scheme is from 1971Ga38. Assignment of single-particle
175HF2c configurations is largely based on the energy systematics of Nilsson
175HF3c orbitals in Yb and Hf nuclei.
175HF cE TI$From intensity balance at each level.
175HF cG M$From ce subshell ratios or |a(K)exp.
175HF cG E,RI$From 1971Ga38, except as noted.
175HF cG E(X)$From 1960Ha18 and 1971Ga38
175HF cG RI(Y)$From |g|g coin (1971Ga38).
175HF cG RI(U)$I|g for doublet.
175HF cL E$From a least-squares fit to E|g's.
175HF cL BAND(A)$5/2-[512] band
175HF cL BAND(B)$1/2-[521] band
175HF cL BAND(C)$7/2+[633] band
175HF cL BAND(D)$7/2-[514] band
175HF cL BAND(E)$9/2+[624] band
175HF cL BAND(F)$5/2+[642]? band
175HF cL J,T$From Adopted Levels.
175HF cG M,MR$From Adopted Gammas, results obtained in the decay dataset were
175HF2cG listed in comments.
175HF dG Transitio$strength is calculated by Java-RULER (version 08-Feb-2024)
175HF dL E$Least-squares fitting is done by GLSC (version 28-Aug-2024)
175HF DE LOGFT,CK,CL,CM,CN$FROM BetaShape v2.4 (Jun-2024) 2019MO35.
175HF DE EAV,LOGFT$FROM BetaShape v2.4 (Jun-2024) 2023MO21.
175HF DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
175HF DE LOGFT,CK,CL,CM,CN$FROM BetaShape v2.4 (Jun-2024) 2019MO35.
175HF DE EAV,LOGFT$FROM BetaShape v2.4 (Jun-2024) 2023MO21.
175TA P 0 7/2+ 10.5 H 2 2073 28
175TA cP QP$From 2021Wa16
175HF N 0.041 4 1.00 1.0
175HF cN NR$assuming no |e+|b feeding to g.s. and using |SI(|g+ce)(g.s.)=100%.
175HF2cN This is consistent with experimental I(K| x ray)=3000 {I500}
175HF3cN (1971Ga38). The |e transition 7/2[404] |) 5/2[512] has |l=2, and it
175HF4cN is expected to be hindered by selection rules.
175HF PN 3
175HF G 256 2 1 ?
175HFX G %IG=0.08 4
175HF G 275 1.2 AP ?
175HFX G %IG AP 0.0487
175HF G 357 1 0.8 AP
175HFX G %IG AP 0.0325
175HF G 365.7 5.3 15
175HFX G %IG=0.22 6
175HF cG $|a(K)exp|?0.028.
175HF G 375 1 0.3 AP
175HFX G %IG AP 0.012
175HF G 380 1 0.9 7
175HFX G %IG=0.037 29
175HF G 404 1 0.5
175HFX G %IG=0.020
175HF cG $|a(K)exp=1.8.
175HF G 432.8 1.3 5
175HFX G %IG=0.053 21
175HF cG $|a(K)exp=0.34.
175HF G 448.4 0.4 3
175HFX G %IG=0.016 12
175HF G 450.5 1.5 9
175HFX G %IG=0.06 4
175HF G 467.4 7 1.2 5
175HFX G %IG=0.049 21
175HF G 470.6 5 4.2 5
175HFX G %IG=0.171 25
175HF G 481.8 7 1.5 5
175HFX G %IG=0.061 21
175HF G 502.0 8 3.2 10
175HFX G %IG=0.13 4
175HF G 533.0 4 5.2 9
175HFX G %IG=0.21 4
175HF cG $|a(K)exp=0.027.
175HF G 568.4 9 1.5 5
175HFX G %IG=0.061 21
175HF G 572.2 4 5.0 9
175HFX G %IG=0.20 4
175HF G 588.3 6 3.0 9
175HFX G %IG=0.12 4
175HF G 591.8 8 1.1 8
175HFX G %IG=0.045 33
175HF G 609.3 9 4.1 20
175HFX G %IG=0.17 8
175HF G 661.4 4 2.8 14
175HFX G %IG=0.11 6
175HF G 676.2 5 2.2 11
175HFX G %IG=0.09 5
175HF G 694.5 ?
175HF G 697.5 9 6.0 34
175HFX G %IG=0.24 14
175HF G 720.1 5 0.6 6
175HFX G %IG=0.024 25
175HF G 739.4 4 4.7 10
175HFX G %IG=0.19 5
175HF G 759 1 3 1 ?
175HFX G %IG=0.12 4
175HF G 761.9 ?
175HF cG $Ice(K)|?0.07.
175HF G 774 1 1 AP
175HFX G %IG AP 0.0406
175HF G 784.0 5 6.5 16
175HFX G %IG=0.26 7
175HF G 812.0 9 2.0 8
175HFX G %IG=0.081 33
175HF cG $|a(K)exp=0.025.
175HF G 887.2 7 3.3 17
175HFX G %IG=0.13 7
175HF G 933.8 11 1.6 18
175HFX G %IG=0.07 7
175HF G 937.9 6 3.8 18
175HFX G %IG=0.15 8
175HF G 949.0 12 4.7 30
175HFX G %IG=0.19 12
175HF cG $|a(K)exp(947|g + 949|g)=0.0032.
175HF G 959.4 9 6.3 35
175HFX G %IG=0.26 14
175HF G 985.8 7 5.9 19
175HFX G %IG=0.24 8
175HF G 1010.6 4 21 3
175HFX G %IG=0.85 14
175HF cG $|a(K)exp=0.0048.
175HF G 1028.4 4 10.6 22
175HFX G %IG=0.43 10
175HF cG $|a(K)exp=0.0038.
175HF G 1051.9 7 12 6
175HFX G %IG=0.49 25
175HF G 1053.4 15 4 4
175HFX G %IG=0.16 16
175HF cG $|a(K)exp|?0.013.
175HF G 1067.7 16 13 6
175HFX G %IG=0.53 25
175HF G 1071.1 7 4.3 19
175HFX G %IG=0.18 8
175HF G 1083.0 8 4.0 18
175HFX G %IG=0.16 8
175HF G 1107.6 5 10 3
175HFX G %IG=0.41 13
175HF G 1114.4 6 7.4 12
175HFX G %IG=0.30 6
175HF G 1171.8 4 11 3
175HFX G %IG=0.45 13
175HF cG $|a(K)exp=0.0073.
175HF G 1177.6 9 2 2
175HFX G %IG=0.08 8
175HF G 1195.5 6 5.8 21
175HFX G %IG=0.24 9
175HF cG $|a(K)exp=0.0052.
175HF G 1199.1 11 2.1 11
175HFX G %IG=0.09 5
175HF G 1231.0 15 2.6 16
175HFX G %IG=0.11 7
175HF G 1240.5 7 3.0 12
175HFX G %IG=0.12 5
175HF G 1279.3 7 6.8 23
175HFX G %IG=0.28 10
175HF G 1324.7 10 5.6 13
175HFX G %IG=0.23 6
175HF cG $|a(K)exp=0.0043.
175HF G 1376.4 ?
175HF G 1382.6 ?
175HF G 1516.1 7 9.0 22
175HFX G %IG=0.37 10
175HF G 1536.2 6 4.6 14
175HFX G %IG=0.19 6
175HF cG $|a(K)exp=0.0043.
175HF G 1544.1 5 6.8 21
175HFX G %IG=0.28 9
175HF cG $|a(K)exp=0.0060.
175HF G 1578.6 22 1.6 12
175HFX G %IG=0.07 5
175HF cG $|a(K)exp(1577|g + 1579|g)|<0.0029.
175HF G 1590.2 13 2.8 14
175HFX G %IG=0.11 6
175HF G 1620.1 6 10 4
175HFX G %IG=0.41 17
175HF G 1641.8 5 3 LE
175HFX G %IG LT 0.12
175HF G 1650.0 4 7.7 18
175HFX G %IG=0.31 8
175HF cG $|a(K)exp=0.0010.
175HF G 1669.8 5 3.6 9
175HFX G %IG=0.15 4
175HF cG $|a(K)exp=0.0028.
175HF G 1695.3 5 6 LT ?
175HFX G %IG LT 0.24
175HF G 1733.1 13 15 11
175HFX G %IG=0.6 5
175HF cG $|a(K)exp|?0.0077.
175HF G 1767.5 4 5.4 12
175HFX G %IG=0.22 5
175HF G 1849.3 6 1.5 6
175HFX G %IG=0.061 25
175HF G 1880.8 9 1.5 9
175HFX G %IG=0.06 4
175HF G 1891.8 5 7.7 16
175HFX G %IG=0.31 7
175HF L 0.0 5/2(-) 70.65 D 19 A
175HF L 81.50 8 7/2(-) A
175HF G 81.5 1 150 25 M1+E2 +0.232 4 7.25 10
175HFF G FLAG=X
175HFX G %IG=6.1 5
175HFS G KC=5.76 8$LC=1.155 18$MC=0.267 4$NC=0.0631 10$OC=0.00925 14$
175HFS G PC=0.000492 7
175HF cG M,MR$from K:L1:L2:L3:N=>250:100:29:19:10 (1960Ha18).
175HF E 0.252 14.748 7.3 15 LT
175HFS E EAV=448 12$CK=0.8101 16$CL=0.13128 31$CM+=0.04183 14
175HF L 125.91 12 (1/2-) 53.7 US 15 B
175HF G 125.9 2 65 20 [E2] 1.467 22 @
175HFF G FLAG=X
175HFX G %IG=2.6 8
175HFS G KC=0.571 8$LC=0.682 11$MC=0.1698 27$NC=0.0394 6$OC=0.00503 8$
175HFS G PC=3.47E-5 5
175HF L 185.94 13 (9/2-) A
175HF G 104.3 2 78 10 M1+E2 +0.216 +5-4 3.53 5
175HFF G FLAG=X
175HFX G %IG=3.2 5
175HFS G KC=2.86 4$LC=0.512 8$MC=0.1175 19$NC=0.0278 4$OC=0.00415 7$
175HFS G PC=0.000243 4
175HF cG M,MR$from K:L1:L2:L3:M:N=>109:21:4:2:6.5:1.5 (1960Ha18).
175HF G 185.8 3 16 2 (E2) 0.368 6
175HFF G FLAG=X
175HFX G %IG=0.65 10
175HFS G KC=0.2048 30$LC=0.1247 19$MC=0.0307 5$NC=0.00714 11$OC=0.000932 14$
175HFS G PC=1.322E-5 19
175HF cG M$from K:L2:L3=4.5:2:1.5 (1960Ha18).
175HF E 0.094 358.3 297.47 15 8.4 29
175HFS E EAV=402 12$CK=0.8142 13$CL=0.13235 28$CM+=0.04221 13
175HF L 196.42 14 (3/2-) B
175HF G 70.5 1 8 AP M1+E2 +0.912 15 12.67 19
175HFF G FLAG=X
175HFX G %IG AP 0.325
175HFS G KC=5.53 10$LC=5.44 11$MC=1.342 28$NC=0.312 6$OC=0.0402 8$PC=0.000484 9
175HF cG RI$deduced by evaluator from Ice(L)|?44 (1960Ha18) and
175HF2cG |a(L)(theory)=5.41.
175HF cG M,MR$from L1:L2:L3:M=7:20:|?19:|?9 (1960Ha18).
175HF G 196.4 3 4.0 10
175HFF G FLAG=X
175HFX G %IG=0.16 4
175HF E 0.005634AP2.5944 AP9.1 AP 2.6 AP 1U
175HFS E EAV=411 12$CK=0.8118 6$CL=0.14073 33$CM+=0.04534 18
175HF L 207.53 12 (7/2+) 1.55 NS 9 C
175HF G 125.9 2 145 30 @
175HFF G FLAG=XY
175HFX G %IG=5.9 13
175HF G 207.4 3 350 20 (E1) 0.05378
175HFF G FLAG=X
175HFX G %IG=14.2 14
175HFS G KC=0.0448 6$LC=0.00694 10$MC=0.001563 23$NC=0.000367 5$OC=5.40E-5 8$
175HFS G PC=3.00E-6 4
175HF cG M$(E1) from K:L1:N=16.5:3.2:0.8 (1960Ha18).
175HF cG $%I|{-|g}=13.3 (1984SZ07)
175HF E 0.004109AP0.39589 AP8.8 AP 0.4 AP
175HFS E EAV=392 12$CK=0.8149 12$CL=0.13255 27$CM+=0.04227 13
175HF L 213.41 12 (5/2-) B
175HF G 87.5 1 3 AP (E2) 6.00 9
175HFF G FLAG=X
175HFX G %IG AP 0.12
175HFS G KC=1.195 17$LC=3.65 5$MC=0.913 14$NC=0.2114 32$OC=0.0266 4$
175HFS G PC=8.04E-5 11
175HF cG RI$deduced by evaluator from Ice(K)=2.5 (1960Ha18) and
175HF2cG |a(K)(theory)=1.22. I|g<22 reported by 1971Ga38.
175HF cG M$from K:L1:L2:L3=2.5:|?1:|?7:6.5 (1960Ha18).
175HF G 132.0 2
175HFF G FLAG=ZX
175HF cG RI$I|g<6.5 (for E2) and I|g<2.2 (for M1), from Ice(K)<3.3
175HF G 213.4 3 2 LT
175HFF G FLAG=X
175HFX G %IG=0.04 4
175HF L 258.05 13 (9/2+) C
175HF G 50.5 1 9.2 AP M1+E2 +0.356 7 11.93 31
175HFF G FLAG=X
175HFX G %IG AP 0.374
175HFS G LC=9.15 24$MC=2.20 6$NC=0.514 14$OC=0.0692 17$PC=0.001877 29
175HF cG RI$deduced by evaluator from Ice(L23)=57 and |a(L2) +
175HF2cG |a(L3)(theory)=6.05. (1960Ha18)
175HF cG M,MR$from L1:L2:L3:M:N|?30:29:28:|?20:6 (1960Ha18).
175HF G 178 1 7 1 ?
175HFF G FLAG=U
175HFX G %IG=0.28 5
175HF L 312.53 13 (11/2-) A
175HF G 126.6 2 9 3 @
175HFF G FLAG=XY
175HFX G %IG=0.37 13
175HF G 230.8 3 17.6 10 (E2) 0.179426
175HFF G FLAG=X
175HFX G %IG=0.72 8
175HFS G KC=0.1124 16$LC=0.0512 8$MC=0.01248 19$NC=0.00291 4$OC=0.000386 6$
175HFS G PC=7.61E-6 11
175HF cG M$from K:L2:L3=2:|?0.7:0.5 (1960Ha18).
175HF L 335.31 16 (11/2+) C
175HF G 77.3 1 D+Q
175HFF G FLAG=X
175HF L 348.35 12 (7/2-) D
175HF G 35.8 1 [E2] 364 7
175HFF G FLAG=X
175HFS G LC=277 5$MC=68.9 14$NC=15.89 31$OC=1.98 4$PC=0.001108 21
175HF G 90.0 9 10 3 [E1] 0.471 14
175HFX G %IG=0.41 13
175HFS G KC=0.385 11$LC=0.0667 21$MC=0.0151 5$NC=0.00351 11$OC=0.000494 15$
175HFS G PC=2.30E-5 7
175HF G 140.9 2 58 7 (E1) 0.146321
175HFF G FLAG=X
175HFX G %IG=2.4 4
175HFS G KC=0.1212 18$LC=0.01953 28$MC=0.00441 6$NC=0.001031 15$
175HFS G OC=0.0001489 22$PC=7.72E-6 11
175HF cG M$from |a(K)exp=0.077 (1971Ga38).
175HF G 162.5 2 37 7 M1+E2 +0.290 6 0.974 14
175HFF G FLAG=XY
175HFX G %IG=1.50 31
175HFS G KC=0.797 12$LC=0.1371 20$MC=0.0313 5$NC=0.00742 11$OC=0.001115 16$
175HFS G PC=6.70E-5 10
175HF cG M,MR$from K:L1:L3:M:N=24:<7:0.45:1.7:0.5 (1960Ha18).
175HF G 266.9 4 270 32 (M1+E2) +0.445 7 0.231534 @
175HFF G FLAG=X
175HFX G %IG=11.0 16
175HFS G KC=0.1901 28$LC=0.0321 5$MC=0.00731 11$NC=0.001733 25$OC=0.000261 4$
175HFS G PC=1.584E-5 24
175HF cG M$from K:L1:L3:M=54:9:0.5:2.3(1960Ha18).
175HF G 348.5 5 300 15 (M1+E2) +1.01 4 0.087319
175HFF G FLAG=X
175HFX G %IG=12.2 12
175HFS G KC=0.0701 17$LC=0.01332 22$MC=0.00308 5$NC=0.000727 12$
175HFS G OC=0.0001068 18$PC=5.68E-6 15
175HF cG M,MR$from |a(K)exp=0.070 (1971Ga38).
175HF E 0.145 3027.5 336.87 6 27.6 33
175HFS E EAV=331 12$CK=0.8183 8$CL=0.13375 25$CM+=0.04269 13
175HF L 375.52 16 (7/2-) B
175HF G 162.0 2 21 11
175HFF G FLAG=X
175HFX G %IG=0.9 5
175HF G 179.1 3 32 5 (E2) 0.418 6
175HFF G FLAG=X
175HFX G %IG=1.30 23
175HFS G KC=0.2266 33$LC=0.1456 23$MC=0.0359 6$NC=0.00834 13$OC=0.001087 17$
175HFS G PC=1.450E-5 21
175HF cG M$from K:L2:L3:M=5:|?2.4:1.7:1.3 (1960Ha18).
175HF G 294.0 4 4 1
175HFF G FLAG=X
175HFX G %IG=0.16 4
175HF E 0.0077 351.7 78.06 18 1.7 7
175HFS E EAV=318 12$CK=0.8187 8$CL=0.13396 25$CM+=0.04276 14
175HF L 406.05 28 (9/2-) B
175HF G 192.7 3 9.1 13 Q
175HFF G FLAG=X
175HFX G %IG=0.37 6
175HF cG M$(E2) from |a(K)exp=0.22 and K:L2=2:|?0.8 (1960Ha18).
175HF E 0.0012 60.32 148.77 19 0.32 14
175HFS E EAV=305 12$CK=0.8192 7$CL=0.13419 25$CM+=0.04285 14
175HF L 436.12 24 (13/2+) C
175HF G 100.8 2 D+Q
175HFF G FLAG=X
175HF G 178 1 7 1
175HFF G FLAG=U
175HFX G %IG=0.28 5
175HF L 474.96 14 (9/2-) D
175HF G 126.6 2 7 3 @
175HFF G FLAG=XY
175HFX G %IG=0.28 13
175HF G 162.5 2 4.3 8
175HFF G FLAG=XY
175HFX G %IG=0.18 4
175HF G 216.4 3 4.7 6
175HFX G %IG=0.191 30
175HF G 266.9 4 11 4 @
175HFF G FLAG=X
175HFX G %IG=0.45 17
175HF G 288.9 4 37 4 (M1) 0.205730
175HFF G FLAG=X
175HFX G %IG=1.50 21
175HFS G KC=0.1718 25$LC=0.0263 4$MC=0.00593 9$NC=0.001411 20$OC=0.0002166 31$
175HFS G PC=1.445E-5 21
175HF cG M$from |a(K)exp=0.18 (1971Ga38).
175HF G 393.2 6 53 4 (M1) 0.090213
175HFF G FLAG=X
175HFX G %IG=2.15 25
175HFS G KC=0.0755 11$LC=0.01146 17$MC=0.00258 4$NC=0.000614 9$OC=9.43E-5 14$
175HFS G PC=6.31E-6 9
175HF cG M$from |a(K)exp=0.083 (1971Ga38).
175HF G 475.0 7 51 5 (E2) 0.0220432
175HFF G FLAG=X
175HFX G %IG=2.07 27
175HFS G KC=0.01696 25$LC=0.00391 6$MC=0.000919 14$NC=0.0002159 32$
175HFS G OC=3.07E-5 5$PC=1.292E-6 19
175HF cG M$from |a(K)exp=0.019 (1971Ga38).
175HF E 0.0159 406.5 87.43 6 6.5 8
175HFS E EAV=275 12$CK=0.8198 6$CL=0.13469 25$CM+=0.04302 14
175HF L 629.05 29 (11/2-)
175HF G 280.5 4 @ ?
175HFF G FLAG=X
175HF G 443.3 7 3.6 9 (M1) 0.065810
175HFF G FLAG=X
175HFX G %IG=0.15 4
175HFS G KC=0.0551 8$LC=0.00833 12$MC=0.001876 27$NC=0.000446 7$OC=6.85E-5 10$
175HFS G PC=4.60E-6 7
175HF cG M$from |a(K)exp|?0.08 (1971Ga38).
175HF E 9.253E-6 0.09999 10.0 0.1 LT 1U
175HFS E EAV=219 13$CK=0.8072 8$CL=0.1456 5$CM+=0.04717 23
175HF L 644.16 21 (9/2+) E
175HF G 308.9 4 3.6 12 (M1) 0.171725
175HFF G FLAG=X
175HFX G %IG=0.15 5
175HFS G KC=0.1434 21$LC=0.02193 32$MC=0.00495 7$NC=0.001175 17$
175HFS G OC=0.0001805 26$PC=1.205E-5 17
175HF cG M$from |a(K)exp=0.18 (1971Ga38).
175HF G 331.1 6 1.4 6
175HFX G %IG=0.057 25
175HF G 386.0 6 14.9 15 (M1) 0.094714
175HFF G FLAG=X
175HFX G %IG=0.61 8
175HFS G KC=0.0792 12$LC=0.01204 18$MC=0.00271 4$NC=0.000645 9$OC=9.90E-5 14$
175HFS G PC=6.63E-6 10
175HF cG M$from |a(K)exp=0.081 (1971Ga38).
175HF G 436.4 7 95 5 (M1) 0.068610
175HFF G FLAG=X
175HFX G %IG=3.9 4
175HFS G KC=0.0574 8$LC=0.00868 13$MC=0.001956 29$NC=0.000465 7$OC=7.15E-5 10$
175HFS G PC=4.79E-6 7
175HF cG M$from |a(K)exp=0.058 (1971Ga38).
175HF E 4.762E-4 0.8 87.8 GE 0.8 8
175HFS E EAV=200 13$CK=0.8201 5$CL=0.13585 28$CM+=0.04345 15
175HF L 732.63 35 (5/2+) F
175HF G 525.0 4 8.4 14 (M1+E2) +0.72 8 0.033814
175HFX G %IG=0.34 7
175HFS G KC=0.0280 12$LC=0.00450 14$MC=0.001022 30$NC=0.000242 7$OC=3.67E-5 12$
175HFS G PC=2.30E-6 10
175HF cG M$from |a(K)exp|?0.028 (1971Ga38).
175HF E 5.144E-5 0.24995 8.7 0.25 LT
175HFS E EAV=160 13$CK=0.8196 5$CL=0.13648 30$CM+=0.04369 16
175HF L 797.62 23 (11/2+) E
175HF G 361.4 5 7.6 10 (M1) 0.112816
175HFF G FLAG=X
175HFX G %IG=0.31 5
175HFS G KC=0.0943 14$LC=0.01436 21$MC=0.00324 5$NC=0.000769 11$
175HFS G OC=0.0001181 17$PC=7.90E-6 11
175HF cG M$from |a(K)exp=0.11 (1971Ga38).
175HF G 461.9 7 5.8 11 (M1+E2) +0.99 7 0.041614
175HFF G FLAG=X
175HFX G %IG=0.24 5
175HFS G KC=0.0340 12$LC=0.00589 15$MC=0.001347 32$NC=0.000319 8$OC=4.76E-5 12$
175HFS G PC=2.77E-6 11
175HF cG M$from |a(K)exp=0.034 (1971Ga38).
175HF G 485.6 6 3.5 9
175HFX G %IG=0.14 4
175HF G 539.6 3 24 3 (M1+E2) +0.35 LE 0.038214
175HFX G %IG=0.98 15
175HFS G KC=0.0320 12$LC=0.00485 14$MC=0.001092 31$NC=0.000259 7$OC=3.98E-5 12$
175HFS G PC=2.65E-6 10
175HF cG M$from |a(K)exp=0.032 (1971Ga38).
175HF E 6E-6 50.75 288.91 17 0.75 28 ?
175HFS E EAV=137 14$CK=0.8034 10$CL=0.1483 7$CM+=0.04823 28
175HF L 807.4 4 (7/2+)
175HF G 549.5 8 1.8 8
175HFX G %IG=0.073 33
175HF G 599.8 4 5.7 11 (M1+E2) +0.29 +12-19 0.028713
175HFX G %IG=0.23 5
175HFS G KC=0.0240 11$LC=0.00364 13$MC=0.000819 29$NC=0.000195 7$OC=2.99E-5 11$
175HFS G PC=1.99E-6 9
175HF cG M$from |a(K)exp|?0.024 (1971Ga38).
175HF E 1.9E-5 160.32 98.52 12 0.32 9
175HFS E EAV=125 13$CK=0.8190 6$CL=0.13705 33$CM+=0.04391 17
175HF L 1060.4 4
175HF G 801.1 10 2.1 11
175HFX G %IG=0.09 5
175HF G 852.3 6 3.0 22
175HFX G %IG=0.12 9
175HF E 0.18 LT8.6 GT 0.18 LT ?
175HFS E CK=0.8155 8$CL=0.13959 47$CM+=0.04489 22
175HF L 1124.26 32 (7/2+,9/2,11/2+)
175HF G 789.1 9 3.1 11
175HFX G %IG=0.13 5
175HF G 866.3 4 13.5 14
175HFX G %IG=0.55 8
175HF G 915.8 7 1.7 11
175HFX G %IG=0.07 5
175HF E 0.56 218.01 17 0.56 21
175HFS E CK=0.8143 8$CL=0.1405 5$CM+=0.04523 23
175HF L 1205.98 17 (9/2-)
175HF G 561.6 4 3.7 9
175HFX G %IG=0.15 4
175HF G 730.6 4 12.8 16 (M1) 0.0182226
175HFX G %IG=0.52 8
175HFS G KC=0.01530 22$LC=0.002275 32$MC=0.000511 7$NC=0.0001215 17$
175HFS G OC=1.871E-5 26$PC=1.264E-6 18
175HF cG M$from |a(K)exp=0.016 (1971Ga38).
175HF G 857.7 3 80 7 (M1) 0.0121817
175HFX G %IG=3.3 4
175HFS G KC=0.01024 14$LC=0.001514 21$MC=0.000340 5$NC=8.08E-5 11$
175HFS G OC=1.245E-5 17$PC=8.43E-7 12
175HF cG M$from |a(K)exp=0.012 (1971Ga38).
175HF G 893.5 7 3.8 12 (M1) 0.0110016
175HFX G %IG=0.15 5
175HFS G KC=0.00925 13$LC=0.001366 19$MC=0.000307 4$NC=7.29E-5 10$
175HFS G OC=1.123E-5 16$PC=7.61E-7 11
175HF cG M$from |a(K)exp=0.01 (1971Ga38).
175HF G 947.1 11 5 3
175HFX G %IG=0.20 12
175HF G 993.8 9 5.8 19 ?
175HFX G %IG=0.24 8
175HF G 998.3 4 64 7 (E1) 1.64E-32
175HFX G %IG=2.6 4
175HFS G KC=0.001392 20$LC=0.0001942 27$MC=4.33E-5 6$NC=1.024E-5 14$
175HFS G OC=1.566E-6 22$PC=1.036E-7 15
175HF cG M$from |a(K)exp=0.0019 (1971Ga38).
175HF G 1019.5 6 10 4 ?
175HFX G %IG=0.41 17
175HF G 1124.5 7 3.6 9
175HFX G %IG=0.15 4
175HF G 1205.8 6 12 4
175HFX G %IG=0.49 17
175HF E 7.6 106.80 7 7.6 10
175HFS E CK=0.8125 10$CL=0.1418 6$CM+=0.04573 26
175HF L 1224.97 20 (7/2-,9/2-)
175HF G 749.5 4 6.0 11 (M1) 0.0170924
175HFX G %IG=0.24 5
175HFS G KC=0.01434 20$LC=0.002132 30$MC=0.000479 7$NC=0.0001139 16$
175HFS G OC=1.753E-5 25$PC=1.185E-6 17
175HF cG M$from |a(K)exp=0.02 (1971Ga38).
175HF G 819.2 11 1.2 9
175HFX G %IG=0.05 4
175HF G 849.1 4 12.2 15 (E2) 0.005738
175HFX G %IG=0.50 8
175HFS G KC=0.00469 7$LC=0.000804 11$MC=0.0001837 26$NC=4.34E-5 6$OC=6.46E-6 9$
175HFS G PC=3.67E-7 5
175HF cG M$from |a(K)exp=0.0041 (1971Ga38).
175HF G 876.4 4 18.9 21 (E2) 0.005368
175HFX G %IG=0.77 11
175HFS G KC=0.00440 6$LC=0.000746 10$MC=0.0001702 24$NC=4.02E-5 6$OC=5.99E-6 8$
175HFS G PC=3.44E-7 5
175HF cG M$from |a(K)exp=0.001 (1971Ga38).
175HF G 967.0 12 4.7 21
175HFX G %IG=0.19 9
175HF G 1144.1 5 28 8 (M1) 0.005978
175HFX G %IG=1.14 34
175HFS G KC=0.00502 7$LC=0.000736 10$MC=0.0001652 23$NC=3.93E-5 6$OC=6.05E-6 8$
175HFS G PC=4.12E-7 6
175HF cG M$from |a(K)exp=0.006 {I3} (1971Ga38).
175HF G 1225.6 4 62 9
175HFX G %IG=2.5 4
175HF E 5.6 86.91 7 5.6 8
175HFS E CK=0.812 1$CL=0.1421 6$CM+=0.04586 27
175HF L 1248.59 21 (7/2-,9/2-)
175HF G 619.4 4 11.2 22 &
175HFX G %IG=0.46 10
175HF G 774 1 1 AP ?
175HFX G %IG AP 0.0406
175HF G 842.7 6 3.1 16 (M1) 0.0127318
175HFX G %IG=0.13 7
175HFS G KC=0.01070 15$LC=0.001583 22$MC=0.000356 5$NC=8.45E-5 12$
175HFS G OC=1.302E-5 18$PC=8.81E-7 12
175HF cG M$from |a(K)exp=0.016 (1971Ga38).
175HF G 872.9 5 7.9 11 (M1+E2) +3.2 LE 0.008829
175HFX G %IG=0.32 5
175HFS G KC=0.0074 24$LC=0.00113 32$MC=2.6E-4 7$NC=6.1E-5 17$OC=9.2E-6 27$
175HFS G PC=6.0E-7 21
175HF cG M,MR$from |a(K)exp=0.0076 {I27} (1971Ga38).
175HF G 900.2 4 16.9 24 (M1) 0.0108015
175HFX G %IG=0.69 12
175HFS G KC=0.00908 13$LC=0.001340 19$MC=0.000301 4$NC=7.15E-5 10$
175HFS G OC=1.102E-5 15$PC=7.47E-7 10
175HF cG M$from |a(K)exp=0.012 (1971Ga38).
175HF G 990.5 5 11.7 23 & ?
175HFX G %IG=0.48 10
175HF G 1035.4 4 20 3 (E2) 0.003815
175HFX G %IG=0.81 14
175HFS G KC=0.00316 4$LC=0.000508 7$MC=0.0001154 16$NC=2.73E-5 4$OC=4.10E-6 6$
175HFS G PC=2.468E-7 35
175HF cG M$from |a(K)exp=0.0045 {I17} (1971Ga38).
175HF G 1061.9 11 3 LE
175HFX G %IG LT 0.12
175HF G 1249.0 13 15 6
175HFX G %IG=0.61 25
175HF E 3.3 97.11 12 3.3 9
175HFS E CK=0.8114 11$CL=0.1426 7$CM+=0.04603 28
175HF L 1466.20 24 (7/2+)
175HF G 259.8 4 13 4
175HFX G %IG=0.53 17
175HF G 990.5 5 11.7 23 & ?
175HFX G %IG=0.48 10
175HF G 1091.3 9 4.6 10
175HFX G %IG=0.19 4
175HF G 1118.4 5 20 5 (E1) 1.34E-32
175HFX G %IG=0.81 22
175HFS G KC=0.001133 16$LC=0.0001571 22$MC=3.50E-5 5$NC=8.29E-6 12$
175HFS G OC=1.269E-6 18$PC=8.45E-8 12
175HF cG M$from |a(K)exp=0.0014 {I5} (1971Ga38).
175HF G 1208.5 7 14 3
175HFX G %IG=0.57 13
175HF G 1259.2 8 12 4
175HFX G %IG=0.49 17
175HF G 1386 1 3 1
175HFX G %IG=0.12 4
175HF G 1465.6 13 5 3
175HFX G %IG=0.20 12
175HF E 2.6 76.93 13 2.6 7
175HFS E CK=0.8030 19$CL=0.1487 13$CM+=0.04839 46
175HF L 1468.9 5 (7/2-)
175HF G 1120.3 15 8 LE
175HFX G %IG LT 0.325
175HF G 1212.1 9 15 3
175HFX G %IG=0.61 13
175HF G 1261.1 10 5.3 25
175HFX G %IG=0.22 10
175HF G 1468.3 7 14 4 (M1) 0.003335
175HFX G %IG=0.57 17
175HFS G KC=0.00274 4$LC=0.000398 6$MC=8.93E-5 13$NC=2.122E-5 30$OC=3.27E-6 5$
175HFS G PC=2.236E-7 31
175HF cG M$from |a(K)exp=0.0036 {I16} (1971Ga38).
175HF E 1.6 67.14 17 1.6 6
175HFS E CK=0.8028 19$CL=0.1488 13$CM+=0.04843 47
175HF L 1606.26 22 (9/2+,11/2+)
175HF G 400.8 13 0.6 6
175HFX G %IG=0.024 25
175HF G 545.2 5 3.2 7
175HFX G %IG=0.130 31
175HF G 808.6 4 16.4 22 (M1+E2) +0.62 LE 0.013011
175HFX G %IG=0.67 11
175HFS G KC=0.0109 9$LC=0.00164 12$MC=0.000369 27$NC=8.8E-5 6$OC=1.35E-5 10$
175HFS G PC=9.0E-7 8
175HF cG M$from |a(K)exp=0.011 (1971Ga38).
175HF G 962.1 4 36 5
175HFX G %IG=1.46 24
175HF G 1271.1 5 15 4
175HFX G %IG=0.61 17
175HF G 1293.3 6 11.1 16
175HFX G %IG=0.45 8
175HF G 1348.9 10 7 3
175HFX G %IG=0.28 13
175HF G 1399.2 6 7.9 6 (E2) 2.16E-33
175HFX G %IG=0.32 4
175HFS G KC=0.001774 25$LC=0.000268 4$MC=6.02E-5 8$NC=1.428E-5 20$
175HFS G OC=2.170E-6 30$PC=1.385E-7 19
175HF cG M$from |a(K)exp=0.0022 {I5} (1971Ga38).
175HF G 1419.0 10 2.4 10
175HFX G %IG=0.10 4
175HF G 1525.9 7 3.3 16
175HFX G %IG=0.13 7
175HF E 4.3 66.46 9 4.3 6
175HFS E CK=0.7926 33$CL=0.1561 23$CM+=0.0513 7
175HF L 1658.92 24 (5/2+,7/2+)
175HF G 925.2 7 2.9 10
175HFX G %IG=0.12 4
175HF G 1282.8 9 5.1 19
175HFX G %IG=0.21 8
175HF G 1446.6 7 4.4 18 &
175HFX G %IG=0.18 8
175HF G 1451.6 5 9.2 22
175HFX G %IG=0.37 10
175HF G 1462.0 6 7.3 18
175HFX G %IG=0.30 8
175HF G 1577.0 9 3.6 14
175HFX G %IG=0.15 6
175HF G 1659.2 4 27 3 (E1) 9.80E-414
175HFX G %IG=1.10 16
175HFS G KC=0.000574 8$LC=7.84E-5 11$MC=1.742E-5 24$NC=4.13E-6 6$OC=6.35E-7 9$
175HFS G PC=4.31E-8 6
175HF cG M$from |a(K)exp=0.0008 {I4} (1971Ga38).
175HF E 2.45 346.58 9 2.45 34
175HFS E CK=0.7866 43$CL=0.1605 30$CM+=0.0529 10
175HF L 1746.7 5 (5/2+,7/2+,9/2+)
175HF G 280.5 4 14.1 10 (M1+E2) +0.526 +31-32 0.196 4 @
175HFF G FLAG=X
175HFX G %IG=0.57 7
175HFS G KC=0.1600 34$LC=0.0275 4$MC=0.00629 9$NC=0.001491 22$OC=0.0002235 34$
175HFS G PC=1.327E-5 30
175HF cG M$from |a(K)exp=0.16 (1971Ga38).
175HF E 0.71 96.88 11 0.71 9
175HFS E CK=0.771 8$CL=0.172 5$CM+=0.0573 18
175HF L 1793.41 20 (5/2+,7/2+)
175HF G 1446.6 7 4.4 18 &
175HFX G %IG=0.18 8
175HF G 1586.0 4 40 6
175HFX G %IG=1.62 28
175HF cG E$authors' value of 1580.0 is possibly a misprint.
175HF G 1711.8 4 29 4
175HFX G %IG=1.18 19
175HF G 1793.1 3 115 14 (E1) 9.97E-414
175HFX G %IG=4.7 7
175HFS G KC=0.000505 7$LC=6.88E-5 10$MC=1.527E-5 21$NC=3.62E-6 5$OC=5.57E-7 8$
175HFS G PC=3.79E-8 5
175HF E 7.9 105.67 13 7.9 10
175HFS E CK=0.757 12$CL=0.181 8$CM+=0.0612 27
175HF L 1802.95 31 (7/2-,9/2-)
175HF G 1490.1 5 20 3 (E2) 1.95E-33
175HFX G %IG=0.81 14
175HFS G KC=0.001578 22$LC=0.0002356 33$MC=5.30E-5 7$NC=1.256E-5 18$
175HFS G OC=1.912E-6 27$PC=1.232E-7 17
175HF cG M$from |a(K)exp=0.018 {I6} (1971Ga38).
175HF G 1616 1 9 AP
175HFX G %IG AP 0.366
175HF G 1721.8 4 29 4
175HFX G %IG=1.18 19
175HF E 2.4 AP6.2 AP 2.4 AP
175HFS E CK=0.754 13$CL=0.184 9$CM+=0.0623 29
175HF L 1818.36 22 (9/2+)
175HF G 1021.6 8 1 LE
175HFX G %IG LT 0.0406
175HF G 1087.7 11 2.9 21
175HFX G %IG=0.12 9
175HF G 1174.0 7 5.5 22 (M1) 0.005618
175HFX G %IG=0.22 9
175HFS G KC=0.00472 7$LC=0.000691 10$MC=0.0001549 22$NC=3.68E-5 5$OC=5.68E-6 8$
175HFS G PC=3.86E-7 5
175HF cG M$from |a(K)exp=0.007 {I6} (1971Ga38).
175HF G 1483.0 4 8.4 13 (M1+E2) +0.5840 0.002934
175HFX G %IG=0.34 6
175HFS G KC=0.002400 34$LC=0.000350 5$MC=7.86E-5 11$NC=1.867E-5 26$
175HFS G OC=2.87E-6 4$PC=1.944E-7 27
175HF cG M$from |a(K)exp=0.0024 {I12} (1971Ga38).
175HF G 1506.1 13 12 3
175HFX G %IG=0.49 13
175HF G 1560.3 6 7.5 18 &
175HFX G %IG=0.31 8
175HF G 1611.3 6 6.7 16 (M1) 0.002754
175HFX G %IG=0.27 7
175HFS G KC=0.002192 31$LC=0.000318 4$MC=7.12E-5 10$NC=1.692E-5 24$
175HFS G OC=2.61E-6 4$PC=1.786E-7 25
175HF cG M$from |a(K)exp=0.0022 {I10} (1971Ga38).
175HF G 1631.4 6 9 AP
175HFX G %IG AP 0.366
175HF cG RI$includes a contribution from an impurity line.
175HF G 1736.7 4 23 3 (E1) 9.88E-414
175HFX G %IG=0.93 15
175HFS G KC=0.000532 7$LC=7.26E-5 10$MC=1.612E-5 23$NC=3.82E-6 5$OC=5.88E-7 8$
175HFS G PC=3.99E-8 6
175HF cG M$from |a(K)exp=0.00074 {I23} (1971Ga38).
175HF E 3.1 75.97 16 3.1 7
175HFS E CK=0.747 15$CL=0.188 11$CM+=0.0640 35
175HF L 1825.80 23 (5/2+,7/2+)
175HF G 619.4 4 11.2 22 &
175HFX G %IG=0.46 10
175HF G 701.0 7 5 3 ?
175HFX G %IG=0.20 12
175HF G 1618.2 6 33 4 (M1+E2) +4.2 LE 0.00235
175HFX G %IG=1.34 20
175HFS G KC=0.0018 4$LC=0.00026 5$MC=5.8E-5 12$NC=1.39E-5 29$OC=2.1E-6 5$
175HFS G PC=1.43E-7 34
175HF cG M$from |a(K)exp=0.0018 {I4} (1971Ga38).
175HF G 1744.8 5 34 4 (E1) 9.89E-414
175HFX G %IG=1.38 20
175HFS G KC=0.000528 7$LC=7.20E-5 10$MC=1.599E-5 22$NC=3.79E-6 5$OC=5.83E-7 8$
175HFS G PC=3.96E-8 6
175HF cG M$from |a(K)exp=0.00076 {I21} (1971Ga38).
175HF G 1826.1 4 31 5 (E1) 1.00E-31
175HFX G %IG=1.26 23
175HFS G KC=0.000490 7$LC=6.67E-5 9$MC=1.481E-5 21$NC=3.51E-6 5$OC=5.40E-7 8$
175HFS G PC=3.68E-8 5
175HF cG M$from |a(K)exp=0.00048 {I21} (1971Ga38).
175HF E 4.6 65.77 15 4.6 6
175HFS E CK=0.744 17$CL=0.191 12$CM+=0.0651 37
175HF L 1887.85 32
175HF G 1680.2 5 5.9 15
175HFX G %IG=0.24 7
175HF G 1887.9 4 9.4 17
175HFX G %IG=0.38 8
175HF E 0.64 166.29 23 0.64 16
175HFS E CK=0.698 40$CL=0.224 29$CM+=0.078 9
175HF L 1894.05 23 (9/2+)
175HF G 1095.7 11 8.0 20 (M1) 0.006649
175HFX G %IG=0.33 9
175HFS G KC=0.00559 8$LC=0.000820 12$MC=0.0001839 26$NC=4.37E-5 6$
175HFS G OC=6.74E-6 10$PC=4.58E-7 7
175HF cG M$from |a(K)exp=0.008 {I4} (1971Ga38).
175HF G 1249.8 5 60 15
175HFX G %IG=2.4 7
175HF G 1560.3 6 7.5 18 &
175HFX G %IG=0.31 8
175HF G 1581.2 8 7 LE
175HFX G %IG LT 0.28
175HF G 1636.0 4 42 6 (M1) 0.002664
175HFX G %IG=1.71 29
175HFS G KC=0.002114 30$LC=0.000306 4$MC=6.86E-5 10$NC=1.631E-5 23$
175HFS G OC=2.516E-6 35$PC=1.722E-7 24
175HF cG M$from |a(K)exp=0.0024 {I8} (1971Ga38).
175HF G 1686.4 4 2.9 15
175HFX G %IG=0.12 6
175HF cG RI$uncertainty in I|g is evaluator' estimate.
175HF G 1707.7 12 12 3
175HFX G %IG=0.49 13
175HF G 1811.8 6 9.4 22
175HFX G %IG=0.38 10
175HF E 6.0 155.28 24 6.0 15
175HFS E CK=0.691 45$CL=0.229 32$CM+=0.081 10