162TM 162YB EC DECAY 1982AD03 24NDS 202403
162TM H TYP=FUL$AUT=N. NICA$CIT=NDS 195, 1 (2024)$CUT=19-Sep-2023$
162TM D DATA SET UPDATED (MARCH, 2006) BY CW REICH TO INCLUDE A REVISED
162TM2D Q(EC) VALUE, REVISED CC CALCULATIONS AND TO ADD A REFERENCE TO THE
162TM3D WORK OF 2001AlZU.
162TM c Data are from 1982Ad03 except as otherwise noted. Source
162TM2c produced by spallation of Ta and Hf targets with 660-MeV p
162TM3c with chemical and isotope separations. |g and ce singles and |g|g
162TM4c and |ge{+-} coincidences measured with Ge |g detectors and Si(Li),
162TM5c magnetic spectrographs and spectrometers for ce detectors.
162TM c 2001AlZU studied the {+162}Yb |e decay using a constant-field
162TM2c magnetic |b spectrograph. They report ce lines from previously
162TM3c unreported |g's with energies of 66.93, 223.4, 245.7, 408.2, 415.8
162TM4c and 672.5 keV but provide no other information about these |g's.
162TM D Experimental methods:
162TM D 1969Pa16: Produced by 169TM(P,8N) and ER(A,XN) reactions and isotope
162TM2D separation. G singles and GG coincidences measured with Ge
162TM3D detectors and CE spectra measured with Si detector.
162TM D 1972Ch23: Produced by 164ER(A,6N) reaction and isotope separation. G
162TM2D singles and GG coincidences measured with Ge detectors.
162TM D 1972Go34: Produced by (3HE,XN) reactions on enriched (76%) 164ER and
162TM2D (95%) 166ER. G and CE singles and GG and GE- coincidences
162TM3D measured with Ge and Si(Li) detectors. Level lifetime measured
162TM4D by XG coincidences with NaI(Tl) and Ge detectors.
162TM D 1975St12: Produced by spallation of Ta target with 660-MeV P followed
162TM2D chemical and isotopic separation. G singles and GG coincidences
162TM3D measured with Ge detectors, CE singles measured with magnetic
162TM4D spectrographs, and GB+ coincidences measured with NaI(Tl) and
162TM5D Si(Li) detectors.
162TM D 1980AdZV: Abstract; see 1982Ad03 for published version.
162TM D 1981AdZW: Abstract; see 1982Ad03 for published version.
162TM D 1982Ad03: Produced by spallation of Ta and Hf targets with 660-MeV P
162TM2D with chemical and isotope separations. G and CE singles and GG
162TM3D and GE- coincidences measured with Ge G detectors and Si(Li),
162TM4D magnetic spectrographs and spectometers for CE detectors.
162TM D 1989So01: Theoretical calculation of LOGFT for 0+ to 1+ B+ transition.
162TM cE TI Values are from |g-intensity balances and I|g normalization
162TM2cE and assume the decay scheme given is complete. The values of
162TM3cE less than 1% may not be meaningful since there are unplaced
162TM4cE |g's with intensities of up to 0.4%.
162TM cG Data are from 1982Ad03 except as otherwise noted.
162TM cG E The uncertainties may be underestimated since the fit of the
162TM2cG level energies has a reduced-|h{+2} value of 2.6.
162TM cG RI I(K x)=250 {I18}
162TM cG M From 1982Ad03 and based on L subshell ratios and |a(K)exp
162TM2cG values. For |g's of 44, 118, and 163 keV, the same assignments are made
162TM3cG by 1969Pa16, 1972Ch23, 1972Go34, and 1975St12.
162TM cG MR From 1982Ad03 with similar values given by 1975St12 and
162TMxcG 1972Go34.
162TM cL Coincidence information in the plot is from 1982Ad03.
162TM cL E Computed from least-squares fit to the |g energies. The
162TM2cL uncertainties may be underestimated since the reduced-|h{+2}
162TM3cL value is 2.6.
162TM cL J From {+162}Tm Adopted Levels, but determined primarily from
162TM2cL this study.
162TM cL T For the excited levels from data from this decay mode only.
162TM2cL See {+162}Tm Adopted Levels for a summary of all such data.
162TM DL T Data in 1977AnZG are taken to be a preliminary version of dat
162TM2DL in 1978Sc10.
162TM CL BAND(A) KPI=1- band. CONF=(|n 3/2[521])-(|p 1/2[411])
162TM CL BAND(B) KPI=1+ band. CONF=(|p 7/2[523])-(|n 5/2[523])
162TM DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
162TM CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
162TM2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
162YB P 0 0+ 18.87 M 19 1660 30
162YB DP T from 162YB Adopted Levels and based on value from 1972Ch23.
162YB cP QP$From 2021Wa16
162TM N 0.40 4 1.0 1.0
162TM PN 4
162TM cN NR From 1972Ch23 and 1975St12; based on total number of sample
162TM2cN decays computed from intensity of K x-ray and 511-keV annihilation
162TM3cN radiations.
162TM G 184.9 4 0.77 21E1 0.0659
162TM2 G %IG=0.31 9
162TMS G KC=0.0552 9$LC=0.00833 13$MC=0.00185 3
162TMS G NC=0.000428 7$OC=5.86E-5 9$PC=2.68E-6 4
162TM G 194.64 9 0.48 5
162TM2 G %IG=0.192 28
162TM G 210.68 8 1.04 10E1 0.0469
162TM2 G %IG=0.42 6
162TMS G KC=0.0394 6$LC=0.00589 9$MC=0.001306 19
162TMS G NC=0.000302 5$OC=4.16E-5 6$PC=1.94E-6 3
162TM G 217.52 7 0.50 10
162TM2 G %IG=0.20 4
162TM G 335.02 8 0.72 10M1(+E2) 0.080 29
162TM2 G %IG=0.29 5
162TMS G KC=0.064 27$LC=0.0118 16$MC=0.0027 3
162TMS G NC=0.00063 8$OC=8.6E-5 15$PC=3.7E-6 18
162TM G 353.57 17 0.24 10
162TM2 G %IG=0.10 4
162TM G 357.14 13 0.32 10E2 0.0427
162TM2 G %IG=0.13 4
162TMS G KC=0.0321 5$LC=0.00820 12$MC=0.00192 3
162TMS G NC=0.000442 7$OC=5.72E-5 8$PC=1.696E-6 24
162TM G 365.93 23 0.16 10
162TM2 G %IG=0.06 4
162TM G 372.77 12 0.48 10
162TM2 G %IG=0.19 4
162TM G 425.40 10 0.56 10
162TM2 G %IG=0.22 5
162TM G 540.04 9 0.56 10
162TM2 G %IG=0.22 5
162TM G 550.86 19 0.32 10
162TM2 G %IG=0.13 4
162TM G 730.71 20 0.48 10
162TM2 G %IG=0.19 4
162TM G 774.31 10 0.88 10
162TM2 G %IG=0.35 5
162TM L 0.0 1- 21.70 M 19 A
162TM cL T from {+162}Tm Adopted Levels and based on 21.5 min {I10}
162TM2cL (1963Ab02), 22.5 min {I10} (1969Pa16), 21.77 min {I26} (1971Ch30), and
162TMxcL 21.55 min {I30} (1974DeZF).
162TM E 0.07 5 15 10 5.4 3 15 10
162TMS E EAV=302 14$CK=0.8236 7$CL=0.13179 25$CM+=0.03968 8
162TM cE TI log| {Ift} systematics (1973Ra10) suggest that the log|
162TM2cE {Ift} of this transition should be |>5.9 or I(|e+|b{++})|<5%.
162TM L 44.651 18 2- 1.44 NS 13 A
162TM cL T weighted average of 1.55 ns {I25} (1975AlYV) and 1.40 ns
162TM2cL {I15} (1978Sc10). Also: 1977AnZG.
162TM G 44.65 2 7.6 3 M1+E2 0.28 3 11.9 14 C
162TM2 G %IG=3.04 33
162TMS G LC=9.2 11$MC=2.2 3
162TMS G NC=0.49 6$OC=0.062 7$PC=0.00157 3
162TM L 163.351 20 1+ 1.1 NS 1 B
162TM cL T from 1978Sc10. Other: <15 ns (1972Go34). Also: 1977AnZG.
162TM E 0.11 3 73 8 4.63 6 73 8
162TMS E EAV=230 14$CK=0.8254 2$CL=0.13297 21$CM+=0.04008 7
162TM cE LOGFT see 1989So01 for theoretical discussion of this |b{++}
162TMxcE transition.
162TM G 118.70 2 84 4 E1 0.212 C
162TM2 G %IG=34 4
162TMS G KC=0.1763 25$LC=0.0279 4$MC=0.00620 9
162TMS G NC=0.001426 20$OC=0.000191 3$PC=8.05E-6 12
162TM G 163.35 3 100 4 E1 0.0911 C
162TM2 G %IG=40 4
162TMS G KC=0.0762 11$LC=0.01164 17$MC=0.00259 4
162TMS G NC=0.000597 9$OC=8.13E-5 12$PC=3.64E-6 5
162TM L 290.30 4 2+ B
162TM G 126.78 10 1.2 3 M1(+E2) 1.42 16 C
162TM2 G %IG=0.48 13
162TMS G KC=0.95 37$LC=0.36 17$MC=0.086 42
162TMS G NC=0.0198 94$OC=0.00246 97$PC=5.3E-5 28
162TM G 290.35 4 0.96 10E1 0.0208
162TM2 G %IG=0.38 6
162TMS G KC=0.01755 25$LC=0.00256 4$MC=0.000568 8
162TMS G NC=0.0001318 19$OC=1.84E-5 3$PC=8.95E-7 13
162TM L 408.31 10
162TM G 244.83 10 0.56 10 C
162TM2 G %IG=0.22 5
162TM L 415.88 5 1+
162TM E 1.7 3 6.10 8 1.7 3
162TMS E CK=0.8245 3$CL=0.13471 24$CM+=0.04069 9
162TM G 125.58 3 1.97 21E2(+M1) 1.47 16 C
162TM2 G %IG=0.79 12
162TMS G KC=0.98 38$LC=0.38 18$MC=0.090 44
162TMS G NC=0.0205 99$OC=0.0026 11$PC=5.4E-5 29
162TM L 451.02 6
162TM G 406.39 6 0.80 10 C
162TM2 G %IG=0.32 5
162TM G 450.69 18 0.56 10
162TM2 G %IG=0.22 5
162TM L 739.45 5 1+
162TM E 3.3 4 5.53 6 3.3 4
162TMS E CK=0.8201 6$CL=0.1380 5$CM+=0.04188 16
162TM G 576.10 4 8.1 5 M1(+E2) 0.0192 72 C
162TM2 G %IG=3.2 4
162TMS G KC=0.0159 63$LC=0.00253 70$MC=5.7E-4 15
162TMS G NC=1.32E-4 36$OC=1.87E-5 55$PC=9.3E-7 40
162TM L 747.40 7 0+,1+,2+,3+
162TM E 0.6 1 6.27 8 0.6 1
162TMS E CK=0.8199 6$CL=0.1382 5$CM+=0.04193 16
162TM G 457.38 19 0.72 10 C
162TM2 G %IG=0.29 5
162TM G 584.07 7 1.60 20E2 0.01163 C
162TM2 G %IG=0.64 10
162TMS G KC=0.00936 14$LC=0.001763 25$MC=0.000402 6
162TMS G NC=9.32E-5 13$OC=1.267E-5 18$PC=5.22E-7 8
162TM L 754.93 11 0-,1-,2-
162TM E 0.4 1 6.44 12 0.4 1
162TMS E CK=0.8198 7$CL=0.1383 5$CM+=0.04196 17
162TM G 591.58 10 1.12 20E1 0.00405 C
162TM2 G %IG=0.45 9
162TMS G KC=0.00343 5$LC=0.000480 7$MC=0.0001059 15
162TMS G NC=2.47E-5 4$OC=3.50E-6 5$PC=1.84E-7 3
162TM L 771.00 6 1+
162TM E 2.1 4 5.70 9 2.1 4
162TMS E CK=0.8194 7$CL=0.1385 5$CM+=0.04205 17
162TM G 607.68 5 5.7 6 E2 0.01058 C
162TM2 G %IG=2.28 33
162TMS G KC=0.00854 12$LC=0.001579 23$MC=0.000359 5
162TMS G NC=8.34E-5 12$OC=1.137E-5 16$PC=4.77E-7 7
162TM G 725.96 18 0.64 10 C
162TM2 G %IG=0.26 5
162TM L 780.20 14
162TM E 0.9 2 6.06 11 0.9 2
162TMS E CK=0.8193 7$CL=0.1386 5$CM+=0.04210 18
162TM G 329.3 3 0.6 3
162TM2 G %IG=0.24 12
162TM G 616.84 10 1.7 3 C
162TM2 G %IG=0.68 14
162TM L 782.64 7 1+
162TM E 1.9 3 5.73 8 1.9 3
162TMS E CK=0.8192 7$CL=0.1387 5$CM+=0.04211 18
162TM G 619.55 15 2.2 4 E2 0.01010 C
162TM2 G %IG=0.88 18
162TMS G KC=0.00817 12$LC=0.001497 21$MC=0.000341 5
162TMS G NC=7.90E-5 11$OC=1.079E-5 16$PC=4.57E-7 7
162TM G 738.07 13 1.8 4 &C
162TM2 G %IG=0.72 18
162TM G 782.47 10 0.76 10
162TM2 G %IG=0.30 5
162TM L 791.82 13
162TM E 0.3 1 6.52 15 0.3 1
162TMS E CK=0.8190 7$CL=0.1388 5$CM+=0.04217 18
162TM G 628.47 12 0.72 10 C
162TM2 G %IG=0.29 5
162TM L 800.48 8
162TM E 0.6 1 6.21 8 0.6 1
162TMS E CK=0.8188 7$CL=0.1390 6$CM+=0.04222 19
162TM G 349.44 7 1.04 10E1 0.01327
162TM2 G %IG=0.42 6
162TMS G KC=0.01120 16$LC=0.001617 23$MC=0.000358 5
162TMS G NC=8.32E-5 12$OC=1.166E-5 17$PC=5.80E-7 9
162TM G 384.85 24 0.24 10 C
162TM2 G %IG=0.10 4
162TM G 637.13 20 0.24 10 C
162TM2 G %IG=0.10 4
162TM L 815.75 15 0+,1+,2+
162TM E 0.4 1 6.37 12 0.4 1
162TMS E CK=0.8185 8$CL=0.1392 6$CM+=0.04231 19
162TM G 399.86 14 0.40 10M1 0.0676 C
162TM2 G %IG=0.16 4
162TMS G KC=0.0569 8$LC=0.00837 12$MC=0.00186 3
162TMS G NC=0.000435 7$OC=6.27E-5 9$PC=3.43E-6 5
162TM G 652.5 5 0.50 20 C
162TM2 G %IG=0.20 8
162TM L 857.74 15
162TM E 0.4 1 6.32 12 0.4 1
162TMS E CK=0.8174 8$CL=0.1400 6$CM+=0.04258 22
162TM G 694.39 14 1.04 10 C
162TM2 G %IG=0.42 6
162TM L 901.40 11
162TM E 0.8 2 5.97 12 0.8 2
162TMS E CK=0.8162 10$CL=0.1409 7$CM+=0.04290 25
162TM G 738.07 13 1.8 4 &C
162TM2 G %IG=0.72 18
162TM G 856.71 18 0.32 10 C
162TM2 G %IG=0.13 4
162TM L 954.04 11 0-,1-,2-
162TM E 0.9 1 5.85 7 0.9 1
162TMS E CK=0.8146 11$CL=0.1421 8$CM+=0.0433 3
162TM G 183.05 22 1.13 13E1 0.0676 C
162TM2 G %IG=0.45 7
162TMS G KC=0.0566 9$LC=0.00856 13$MC=0.00190 3
162TMS G NC=0.000439 7$OC=6.02E-5 9$PC=2.75E-6 4
162TM G 206.82 12 0.72 7 E1 0.0492
162TM2 G %IG=0.29 4
162TMS G KC=0.0413 6$LC=0.00618 9$MC=0.001372 20
162TMS G NC=0.000317 5$OC=4.37E-5 7$PC=2.03E-6 3
162TM G 545.40 16 0.32 10
162TM2 G %IG=0.13 4