165HO 165DY B- DECAY (2.331 H) 1972MA06,2004MI18 24NDS 202401
165HO H TYP=FUL$AUT=Balraj Singh and Jun Chen$CIT=NDS 194, 460 (2024)$
165HO2 H CUT=31-Oct-2022$
165HO DB EAV,LOGFT$FROM BetaShape v2.3.1 (Dec-2023) 2023MO21.
165HO c 1972Ma06: measured E|g, I|g, |g|g, ce; magnetic spectrometer for ce
165HO c 2014Mi01: measured conversion data for 361.7-keV transition using
165HO2c a magnetic |b spectrometer; deduced M2+E3 mixing ratio.
165HO d 2013LaZX superseded by 2014Mi01
165HO c 2004Mi18: measured E|g, I|g; emission probability of 94.7|g;
165HO2c relative intensities of 19 |g rays from 94.7 to 1079.6 keV
165HO c 1991Mi26: measured ce data for 94.7|g, 279.8|g, 361.7|g and 633.4|g
165HO2c using high-resolution magnetic spectrometer
165HO c Others:
165HO c |g: 1971Lu08, 1965Sc09, 1964Re09, 1963Ma08, 1962Ni11, 1962Ha46,
165HO2c 1956An34
165HO c ce: 1963Pe11, 1962No07, 1962Vo02
165HO c |g(|q,T) from oriented {+165}Dy: 1982HaYO
165HO c |b: 1963Pe11, 1959Cr73, 1955Ro57, 1947Sl14
165HO c |g|g(|q): 1964Si24, 1959Gr01
165HO c |g(t): 1967Ba27, 1964Ha19, 1959Gr01, 1959Cr80, 1958Ka10, 1951Wr13
165HO c |b|g: 1959Bo52
165HO cB IB$ce(K)(94.7|g)/|b{+-}=0.093 {I10} (1963Pe11)
165HO cG E,RI$From 1972Ma06, except where noted otherwise. The intensities
165HO2cG quoted by 1972Ma06 have been divided by a factor of 42.6 so that
165HO3cG the two sets of intensities (from 1972Ma06 and 2004Mi18) are on
165HO4cG the same scale.
165HO cG RI(B)$From 2004Mi18, corresponding value in 1972Ma06 is in
165HO2cG agreement but much less precise
165HO cG E(A)$From 1965Sc09 (curved-crystal spectrometer)
165HO cG M,MR$Deduced from conversion coefficients, unless otherwise noted.
165HO2cG |a(K)exp were deduced from I|g (1972Ma06), ce (1972Ma06,1963Pe11)
165HO3cG and normalized to |a(K)(94.7|g)=2.59 (for M1+E2, |d=0.168 {I9}).
165HO4cG From ce data, mixing ratios are deduced using the BrIccMixing
165HO5cG program. |g rays with significant |d>0.1 are interpreted as M1+E2,
165HO6cG based on Weisskopf estimates for transition probabilities
165HO cL E$From least-squares fit to E|g data
165HO cL J,T$From Adopted Levels
165DY P 0.0 7/2+ 2.331 H 4 1285.7 8
165DY cP J,T$From {+165}Dy Adopted Levels
165DY cP QP$From 2021Wa16
165HO N 0.0380 5 1.0 1.0
165HO PN 4
165HO cN NR$from I|g(94.7|g)/100 decays of {+165}Dy=3.80 {I5} (2004Mi18)
165HO G 356.90 25 0.023 12
165HO2 G %IG=0.0009 5$
165HO L 0.0 7/2- STABLE
165HO B 82.6 4 6.248 4
165HOS B EAV=452.03 33
165HO cB $Measured E|b=1285 {I10} (1963Pe11), 1280 (1959Cr73),
165HO2cB 1305 {I20} (1959Bo52)
165HO cB IB$measured %I|b=83 {I2} (1963Pe11), 84 (1959Cr73), 80 (1959Bo52)
165HO L 94.700 3 9/2- 22.2 PS 8
165HO cL T$value from this dataset: 25 ps {I10}, from |g|g(t) (1967Ba27)
165HO B 15.3 4 6.857 13
165HOS B EAV=413.07 33
165HO cB $Measured E|b=1190 (1959Cr73), 1215 {I20} (1959Bo52)
165HO cB IB$measured %I|b=14 (1959Cr73), 16 (1959Bo52)
165HO G 94.700 3 100.0 6 M1+E2 0.160 5 3.06 4 A
165HO2 G %IG=3.80 5$
165HOF G FLAG=B
165HOS G KC=2.53 4$LC=0.414 6$MC=0.0924 14
165HOS G NC=0.02138 32$OC=0.00305 4$PC=0.0001565 22
165HO cG E$from 1965Sc09. Others: 94.692 {I3} (1971Lu08), 94.705 {I3}
165HO2cG (1964Re09), 94.697 {I5} (1963Ma08), 94.697 {I4} (1962Ni11), 94.702
165HO3cG {I10} (1962Ha46)
165HO cG MR$weighted average of 0.168 {I9} from subshell ratios (1991Mi26) and
165HO2cG +0.157 {I5} from E2 and M1 matrix elements in Coulomb excitation
165HO3cG (2003Iw01).
165HO cG $|a(K)exp=2.62 {I20}, K:L1:L2:L3=1000 {I150}:120 {I6}:22 {I4}:8.6 {I20}
165HO2cG (1963Pe11). Others: |a(K)exp=2.5 {I2}, K:L1:L2:L3=1000 {I30}:128:19.7
165HO3cG {I6}:9.6 {I3} (1962No07); |a(K)exp=2.60, K:L1:L2:L3=1000:133 {I7}:17.8
165HO4cG {I18}:8.2 {I8} (1972Ma06); for L:M:N+O and L:M1:N1 see 1970Mi15,
165HO5cG 1963Pe11, 1962Vo02. |d=0.168 {I9} (1991Mi26) from L1/L2/L3=100.0
165HO6cG {I5}/14.2 {I3}/8.0 {I2}.
165HO L 209.805 11 11/2- 12.7 PS 14
165HO B 0.016 2 10.25 +6-5 1U
165HOS B EAV=367.6 3
165HO G 115.104 10 0.199 14 M1+E2 +0.17 +1-3 1.744 24 A
165HO2 G %IG=0.0076 5$
165HOS G KC=1.448 21$LC=0.231 5$MC=0.0514 13
165HOS G NC=0.01190 29$OC=0.001704 35$PC=8.93E-5 14
165HO cG MR$from the Adopted Gammas
165HO G 209.70 25 0.028 14 E2 0.2084 30
165HO2 G %IG=0.0011 5$
165HOS G KC=0.1396 20$LC=0.0531 8$MC=0.01252 19
165HOS G NC=0.00284 4$OC=0.000356 5$PC=6.69E-6 10
165HO L 361.674 11 3/2+ 1.512 US 4 M
165HO2 L %IT=100
165HO cL T$adopted value from |g(t) in 1959Cr80. Other: 1.65 |ms {I20}
165HO2cL (|g(t),1958Ka10)
165HO B ?
165HO cB $I|b=0.09 {I8} is consistent with expected no feeding for |DJ=2,
165HO2cB |D|p=no
165HO G 266.80 15 0.031 8 [E3] 0.446 6
165HO2 G %IG=0.00118 30$
165HOS G KC=0.2155 30$LC=0.1767 25$MC=0.0432 6
165HOS G NC=0.00982 14$OC=0.001202 17$PC=1.246E-5 18
165HO G 361.68 2 23.79 12 M2+E3 0.33 4 0.265 5 A
165HO2 G %IG=0.904 13$
165HOF G FLAG=B
165HO cG E$from 1965Sc09. Others: 361.676 {I30} (1971Lu08), 361.699 {I25}
165HO2cG (1964Re09)
165HO2 G K:L1:L2:L3=643 8:100:17.9 8:6.9 8 (2014Mi01)
165HOS G KC=0.212 4$LC=0.0406 6$MC=0.00925 13
165HOS G NC=0.002148 30$OC=0.000305 4$PC=1.527E-5 33
165HO cG M,MR$from ce data in 2014Mi01 (earlier values from the same
165HO2cG experimental group reported in 1991Mi26: K/L=5.2 {I3}; L/M=8.1 {I14};
165HO3cG L1:L2:L3=100.0 {I9}:12.2 {I7}:5.5 {I8}). Others: K/L=6.3 {I18}
165HO4cG (1965Bo40). |a(K)exp=0.22 {I4}, K/L=4.8 {I12} (1963Pe11). The |d(E3/M2)
165HO5cG value is deduced by evaluators by fitting ce data in 2014Mi01 using
165HO6cG BrIccMixing code. 2014Mi01 give |d(E3/M2)=0.329 {I22} using a somewhat
165HO7cG different procedure. Inclusion of ce data from 1965Bo40 and 1963Pe11
165HO8cG gives |d(E3/M2)=0.33 {I6}. Fitting with all the ce data, including
165HO9cG those from 1991Mi26 gives |d(E3/M2)=0.28 {I6}, with a large and
165HOAcG unacceptable reduced |h{+2}=12, with L/M, L1/L2 and L1/L3 data from
165HOBcG 1991Mi26 poorly fitted.
165HO L 419.543 11 5/2+
165HO B 0.03 LT 9.1 GT ?
165HOS B EAV=283.82 31
165HO cB $I|b=-0.02 {I5}
165HO cB E$880 from 1955Ro57, 1947Sl14. Other: 1000 {I30} (1959Bo52)
165HO cB IB$observation of this |b{+-} transition is not compatible
165HO2cB with very small I|b{+-}<0.05% expected from the balance of I(|g+ce)
165HO G 57.864 5 0.39 6 M1+E2 0.130 +46-30 12.77 24 A
165HO2 G %IG=0.0148 23$
165HOS G KC=10.37 18$LC=1.87 22$MC=0.42 5
165HOS G NC=0.097 12$OC=0.0136 13$PC=0.000657 12
165HO cG M$L1:L2:L3=100 {I20}:14.8 {I59}:12.0 {I48}; |a(L1)exp=1.32
165HO2cG {I33} (1972Ma06)
165HO L 429.387 11 1/2+
165HO G 67.712 4 0.40 20 M1 8.03 11 A
165HO2 G %IG=0.015 8$
165HOS G KC=6.74 9$LC=1.011 14$MC=0.2232 31
165HOS G NC=0.0518 7$OC=0.00753 11$PC=0.000421 6
165HO cG M$|a(K)exp=6.3 {I37}; K/L=7.4 {I32} (1972Ma06)
165HO L 449.258 11 3/2+
165HO G 29.715 3 0.12 6 M1 14.61 20 A
165HO2 G %IG=0.0046 23$
165HOS G LC=11.42 16$MC=2.522 35
165HOS G NC=0.585 8$OC=0.0849 12$PC=0.00474 7
165HO cG M$|a(L1)exp=12.9 {I69}; L1:L2:L3=100 {I20}:80.1 {I32}:<5.7 (1972Ma06)
165HO G 87.585 4 0.40 4 M1(+E2) 0.32 LT 3.86 7 A
165HO2 G %IG=0.0152 15$
165HOS G KC=3.13 9$LC=0.57 9$MC=0.128 23
165HOS G NC=0.030 5$OC=0.0041 6$PC=0.000193 7
165HO cG M$|a(K)exp=3.3 {I7}, K/L=7.2 {I26} (1972Ma06)
165HO L 491.046 14 7/2+
165HO B 0.015 4 9.23 +14-10
165HOS B EAV=256.49 30
165HO G 71.502 10 0.066 10 M1(+E2) 0.41 LT 7.12 27 A
165HO2 G %IG=0.0025 4$
165HOS G KC=5.50 27$LC=1.3 4$MC=0.29 10
165HOS G NC=0.066 22$OC=0.0089 25$PC=0.000340 19
165HO cG M$|a(K)exp=4.4 {I15}, K/L=5.0 {I21} (1972Ma06)
165HO G 129.39 3 0.014 5 A
165HO2 G %IG=0.00053 19$
165HO L 515.475 11 3/2- 10.4 PS 11
165HO cL T$value from this dataset: <0.1 ns from |g(t) (1964Ha19)
165HO B 0.0025 22 10.3 +9-3 1U?
165HOS B EAV=255.03 29
165HO G 95.931 4 0.026 4 [E1] 0.354 5 A
165HO2 G %IG=0.00099 15$
165HOS G KC=0.294 4$LC=0.0466 7$MC=0.01029 14
165HOS G NC=0.002342 33$OC=0.000315 4$PC=1.334E-5 19
165HO G 153.803 6 0.160 13 [E1] 0.1006 14 A
165HO2 G %IG=0.0061 5$
165HOS G KC=0.0844 12$LC=0.01264 18$MC=0.00278 4
165HOS G NC=0.000637 9$OC=8.80E-5 12$PC=4.09E-6 6
165HO G 515.467 25 1.06 5 (E2) 0.0146 2
165HO2 G %IG=0.0403 20$
165HOS G KC=0.01172 16$LC=0.002234 31$MC=0.000506 7
165HOS G NC=0.0001162 16$OC=1.592E-5 22$PC=6.54E-7 9
165HO L 539.010 13 5/2+
165HO B ?
165HO cB $I|b=-0.019 {I4}
165HO G 89.753 8 0.080 16 M1(+E2) 0.5 LT 3.63 9 A
165HO2 G %IG=0.0030 6$
165HOS G KC=2.83 16$LC=0.62 17$MC=0.14 4
165HOS G NC=0.032 10$OC=0.0044 11$PC=0.000173 13
165HO cG M$|a(K)exp=2.7 {I10}, K/L>3 (1972Ma06)
165HO G 109.59 3 0.016 5 A
165HO2 G %IG=0.00061 19$
165HO G 119.47 3 0.200 14 M1(+E2) 0.6 LT 1.556 26
165HO2 G %IG=0.0076 5$
165HOS G KC=1.24 8$LC=0.25 5$MC=0.056 13
165HOS G NC=0.0129 29$OC=0.00177 32$PC=7.5E-5 7
165HO cG M$|a(K)exp=1.44 {I31}, K/L>3.3 (1972Ma06)
165HO L 565.719 20 (5/2)- 27 PS 10
165HO B 0.0012 8 10.2 +5-2
165HOS B EAV=228.46 30
165HO G 472.11 15 0.040 8
165HO2 G %IG=0.00152 30$
165HOF G FL=94.700
165HO cG E$poor fit; level-energy difference=471.05. E|g not used in fitting
165HO G 565.718 20 0.08 AP @
165HO2 G %IG AP 0.00304$
165HO cG RI$deduced from branching ratios in Coul. ex. and (n,n'|g)
165HO L 589.801 18 7/2+
165HO B ?
165HO cB $I|b=-0.0082 {I9}
165HO G 98.80 15 0.023 5
165HO2 G %IG=0.00087 19$
165HO G 140.544 20 0.059 6 A
165HO2 G %IG=0.00224 23$
165HO G 170.22 3 0.085 9 A
165HO2 G %IG=0.00323 34$
165HO G 228.3 3 0.012 6
165HO2 G %IG=0.00046 23$
165HO L 715.331 11 7/2+ 0.1 US LT
165HO cL T$|g(t) (1958Ka10)
165HO cL J$|g(|q) from oriented {+165}Dy |b decay for 620|g and 715|g
165HO2cL agree only with J|p=5/2+, not with 7/2+; however, 620|g to 9/2-
165HO3cL disfavors 5/2+; L=4 and analyzing powers in (pol t,|a) strongly
165HO4cL favor 7/2+
165HO B 0.069 6 8.07 4
165HOS B EAV=174.18 28
165HO G 620.635 20 2.64 2
165HO2 G %IG=0.1003 15$
165HOF G FLAG=B
165HO cG RI$other: 2.72 {I11} (1972Ma06)
165HO G 715.328 20 15.21 10
165HO2 G %IG=0.578 9$
165HOF G FLAG=B
165HO2 G EKC<0.008
165HO cG RI$other: 14.9 {I3} (1972Ma06)
165HO L 820.108 16 (9/2+)
165HO B 0.012 2 8.54 +8-7
165HOS B EAV=137.87 27
165HO G 610.29 5 0.148 15
165HO2 G %IG=0.0056 6$
165HO G 725.39 3 0.39 4
165HO2 G %IG=0.0148 15$
165HO G 820.106 25 0.225 15
165HO2 G %IG=0.0085 6$
165HO L 995.094 11 5/2+
165HO B 1.80 3 5.693 12
165HOS B EAV=81.03 25
165HO cB $Measured E|b=305 {I10} (1959Bo52)
165HO G 174.96 3 0.031 6 A
165HO2 G %IG=0.00118 23$
165HO G 279.763 12 14.06 8 M1+E2 -0.38 +3-1 0.1398 23 A
165HO2 G %IG=0.534 8$
165HOF G FLAG=B
165HOS G KC=0.1166 20$LC=0.01807 25$MC=0.00401 6
165HOS G NC=0.000929 13$OC=0.0001335 19$PC=7.08E-6 13
165HO cG M$|a(K)exp=0.126 {I36}; K/L=5.4 {I7} (1991Mi26).
165HO2cG Others: >5.5 (1963Pe11), K/L=4.3 {I6} (1962Vo02).
165HO3cG L1/L2/L3=100 {I6}/15 {I4}/<7 (1991Mi26)
165HO cG E$from 1965Sc09. Others: 279.759 {I20} (1971Lu08), 279.784
165HO2cG {I41} (1964Re09), 279.755 {I30} (1962Ni11)
165HO cG MR$|g(|q,T) (1982HaYO) gives -0.38 {I+3-1} or +5.3 {I4}. The ce data of
165HO2cG 1991Mi26 gives 0.55 {I16} from K/L and L1/L2, which supports lower
165HO3cG |d of 1982HaYO
165HO G 405.25 3 0.298 15
165HO2 G %IG=0.0113 6$
165HO G 456.093 25 1.19 2 M1+E2 -0.52 +14-260.0364 35
165HO2 G %IG=0.0452 10$
165HOF G FLAG=B
165HOS G KC=0.0305 31$LC=0.00458 29$MC=0.00101 6
165HOS G NC=0.000235 14$OC=3.39E-5 24$PC=1.84E-6 20
165HO cG MR$from |g(|q), may also be |d|>+29.4 (1982HaYO)
165HO G 479.622 25 1.22 2
165HO2 G %IG=0.0464 10$
165HOF G FLAG=B
165HO G 504.10 15 0.031 8
165HO2 G %IG=0.00118 30$
165HO G 545.834 20 4.53 14 M1+E2 +0.14 6 0.0255 4
165HO2 G %IG=0.172 6$
165HOS G KC=0.0215 4$LC=0.00308 5$MC=0.000678 11
165HOS G NC=0.0001574 25$OC=2.30E-5 4$PC=1.306E-6 23
165HO cG RI$4.72 {I4} for 540.5+545.8 (2004Mi18)
165HO cG MR$from |g(|q), may also be |d=+10.5 {I+36-53} (1982HaYO)
165HO G 565.718 20 3.59 3 @
165HO2 G %IG=0.1364 21$
165HOF G FLAG=B
165HO cG RI$other: 3.69 {I11} (1972Ma06)
165HO G 575.558 20 2.13 2 M1+E2 -0.35 +6-4 0.0212 5
165HO2 G %IG=0.0809 13$
165HOF G FLAG=B
165HOS G KC=0.0179 4$LC=0.00259 5$MC=0.000570 11
165HOS G NC=0.0001324 25$OC=1.93E-5 4$PC=1.082E-6 25
165HO cG RI$other: 2.20 {I7} (1972Ma06)
165HO cG MR$from |g(|q), may also be |d=+4.9 {I+8-10} (1982HaYO)
165HO G 633.415 20 16.12 10 M1+E2 +0.18 1 0.0173825
165HO2 G %IG=0.613 9$
165HOF G FLAG=B
165HOS G KC=0.01471 21$LC=0.002094 29$MC=0.000460 6
165HOS G NC=0.0001069 15$OC=1.560E-5 22$PC=8.89E-7 13
165HO cG RI$other: 15.87 {I32} (1972Ma06)
165HO cG M,MR$|g(|q,T) (1982HaYO) gives +0.18 {I1} or +9.9 {I+11-9}.
165HO2cG |a(K)exp=0.018 {I7} (1963Pe11); 0.014 {I3} (1991Mi26) support lower |d
165HO G 900.41 5 0.070 7
165HO2 G %IG=0.00266 27$
165HO G 995.089 25 1.66 2
165HO2 G %IG=0.0631 11$
165HOF G FLAG=B
165HO cG RI$other: 1.54 {I5} (1972Ma06)
165HO L 1055.761 25 5/2+
165HO B 0.0469 10 6.954 15
165HOS B EAV=62.60 24
165HO G 694.08 4 0.324 16
165HO2 G %IG=0.0123 6$
165HO G 1055.76 3 0.91 1 D+Q +0.32 +32-18
165HO2 G %IG=0.0346 6$
165HOF G FLAG=B
165HO cG RI$other: 0.87 {I5} (1972Ma06)
165HO cG M$M1+E2 for 1055.76|g inconsistent with adopted |DJ|p which
165HO2cG requires E1+M2
165HO cG MR$from |g(|q), may also be |d|>+2.1 (1982HaYO)
165HO L 1079.621 17 7/2+
165HO B 0.167 3 6.253 14
165HOS B EAV=55.58 23
165HO G 259.53 5 0.41 1
165HO2 G %IG=0.0156 4$
165HOF G FLAG=B
165HO G 489.90 10 0.096 10
165HO2 G %IG=0.0036 4$
165HO G 512.57 25 0.089 18 ?
165HO2 G %IG=0.0034 7$
165HOF G FL=565.719
165HO cG E$poor fit; level-energy difference=513.87; E|g not used in the fitting
165HO2cG procedure
165HO G 540.52 5 0.157 16
165HO2 G %IG=0.0060 6$
165HO G 588.57 5 0.092 9
165HO2 G %IG=0.00350 35$
165HO G 660.08 3 0.74 1 M1(+E2) +0.37 +11-99 0.015013
165HO2 G %IG=0.0281 5$
165HOF G FLAG=B
165HOS G KC=0.0126 11$LC=0.00181 13$MC=0.000399 27
165HOS G NC=9.3E-5 6$OC=1.35E-5 10$PC=7.6E-7 7
165HO cG RI$other: 0.74 {I4} (1972Ma06)
165HO cG MR$from |g(|q), may also be |<-6.1 (1982HaYO)
165HO G 984.92 4 0.178 13
165HO2 G %IG=0.0068 5$
165HO G 1079.63 3 2.63 3
165HO2 G %IG=0.0999 17$
165HOF G FLAG=B
165HO cG RI$other: 2.56 {I8} (1972Ma06)
165HO L 1140.36 5 7/2+
165HO B 0.0020 2 7.70 5
165HOS B EAV=38.17 22
165HO G 1045.60 15 0.0141 21
165HO2 G %IG=0.00054 8$
165HO G 1140.36 5 0.038 3
165HO2 G %IG=0.00144 12$
165HO L 1186.59 6 9/2+
165HO B 0.0018 2 7.24 6
165HOS B EAV=25.49 22
165HO G 976.74 20 0.0063 13
165HO2 G %IG=0.00024 5$
165HO G 1091.91 8 0.028 3
165HO2 G %IG=0.00106 11$
165HO G 1186.56 10 0.0129 13
165HO2 G %IG=0.00049 5$