175LU 175YB B- DECAY 1994MI04,1971GR41,1970BR3825NDS 202511
175LU H TYP=FUL$AUT=Jin Wu$CIT=NDS 206, 1 (2025)$CUT=29-Oct-2024$
175LU cB IB$From |g-ray transition intensity balance.
175LU cG E$From 1970Br38
175LU cG RI$Weighted average of I|g from 1994Mi04, 1970Br38, 1970Re08, and
175LU2cG 1966Em03 (limitation of relative statistical weight method for 1.79
175LU3cG {I12}, I|g of 137.658|g).
175LU cL E$From a least-squares fit to E|g's.
175LU c 1970Br38: {+175}Yb was produced by the irradiation of Yb{-2}O{-3} for
175LU2c 101 h using a thermal neutron flux. |b-delayed |g rays were detected
175LU3c using a 44 cm{+3} coaxial Ge(Li) detector for high-energy part and a
175LU4c high-resolution planar detector for low energy ones. Measured E|g,
175LU5c I|g.
175LU c 1994Mi04: {+175}Yb was produced by the irradiation of
175LU2c Yb{-2}O{-3}powder with thermal neutron flux. |b-delayed |g rays were
175LU3c detected using a 4|p|b(ppc)-|g(HPGe) coincidence apparatus. Measured
175LU4c E|g, I|g.
175LU c 1971Gr41: Measured |a(K)exp.
175LU c Others: 1965Ro17, 1966Mc08, 1960Bl10, 1965Ay04, 1965Ay01, 1962Be46,
175LU2c 1970Re08, 1966Em03, 1966As02, 1969Ni01, 1974Co18, 1975Qu02, 1976Kr21,
175LU3c 1966Ha04, 1972Kr18, 1976Mi07,
175LU cL J,T$From Adopted Levels, values obtained from this data sheet were
175LU2cL listed in the comments
175LU cG M,MR$From Adopted Gammas, values obtained from this data set are
175LU2cG listed in the comments.
175LU dG Transitio$strength is calculated by Java-RULER (version 28-Apr-2023)
175LU DB EAV,LOGFT$FROM BetaShape v2.4 (Jun-2024) 2023MO21.
175LU DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
175LU DB EAV,LOGFT$FROM BetaShape v2.4 (Jun-2024) 2023MO21.
175YB P 0.0 7/2- 4.1615 D 30 470.1 12
175YB cP QP$From 2021WA16
175LU N 0.1315 26 1.0
175LU cN NR$from I|g(396 |g)=13.15% {I16}, experimental value in 1994Mi04.
175LU PN 3
175LU L 0.0 7/2+ STABLE
175LU B 72.5 4 6.4977 44
175LUS B EAV=138.83 40
175LU L 113.804 4 9/2+ 86 PS 6
175LU cL T$99 ps {i9} (1965Ro17), 101 ps {I7} (1960Bl10); 106 ps {I11}
175LU2cL (1965Ay04).
175LU G 113.803 4 29.4 5 M1+E2 +0.459 7 2.455 34
175LUX G %IG=3.87 8
175LUS G KC=1.880 27$LC=0.444 7$MC=0.1038 16$NC=0.0242 4$OC=0.00333 5$
175LUS G PC=0.0001380 20
175LU cG M$from |a(K)exp=1.98 {I5} (weighted average of 2.07 {I6} (1966As02),
175LU2cG 1.94 {I20} (1969Ni01), 1.80 {I18} and 1.90 {I8} (1970Re08), and 1.82
175LU3cG {I15} (1974Co18)) and K:L1:L2:L3 exp=674 {I4}:100.0 {I3}:41.5
175LU4cG {I8}:31.0 {I4} (1969Ni01).
175LU cG MR$+0.465 {i5} from |g|g(|q), in 1975Qu02, +0.456 {I14} deduced by
175LU2cG evaluator from least-squares fit of |a(K)exp and K:L1:L2:L3 exp.
175LU B 6.71 18 7.136 13
175LUS B EAV=61.21 18
175LU2 B C1=-1.36 23 $C3=0.47 8 (1975RA38)
175LU DB $Cexp(W) = 1+C{-1}W+C{-3}W{+2}
175LU cB IB$I|b=2.63% {I21} (1962Ba32).
175LU L 251.461 6 11/2+ 32.4 PS 16
175LU G 137.656 6 1.79 12 M1+E2 +0.484 20 1.390 20
175LUX G %IG=0.235 17
175LUS G KC=1.087 18$LC=0.234 4$MC=0.0544 11$NC=0.01274 25$OC=0.001772 31$
175LUS G PC=7.95E-5 14
175LU cG M$from |a(K)exp=1.19 {I8} (1966As02), K/L exp=4.3 {I5} (1960Be16).
175LU cG MR$+0.48 {I8} deduced by evaluator from least-squares fit of |a(K)exp
175LU2cG and K/L exp.
175LU G 251.470 17 1.31 19 E2 0.131918
175LUX G %IG=0.172 25
175LUS G KC=0.0875 12$LC=0.0340 5$MC=0.00821 11$NC=0.001901 27$OC=0.0002447 34$
175LUS G PC=5.30E-6 7
175LU cG M$from |a(K)exp=0.088 deduced by evaluator from data in 1971Gr41.
175LU B 0.05 LT 8.1 GT 1U
175LUS B EAV=68.22 39
175LU L 396.322 7 9/2- 3.31 NS 10
175LU cL T$3.31 ns {i10} (1966Mc08), 3.25 ns {I10} (1962Be46); 3.29 ns {I16}
175LU2cL (1965Ay01).
175LU G 144.861 5 5.11 5 E1(+M2) -0.014 23 0.134 10
175LUX G %IG=0.672 15
175LUS G KC=0.111 8$LC=0.0178 19$MC=0.0040 5$NC=0.00093 11$OC=0.000130 16$
175LUS G PC=6.4E-6 9
175LU cG M$from |a(K)exp=0.096 {I8}, (weighted average of 0.084 {I6}
175LU2cG (1966Ha04), 0.101 {I15} & 0.106 {I16} (1970Re08) and 0.114 {I8}
175LU3cG (1971Gr41)) and K:L1:L2 exp=114 {I8}: 122 {I11}:28 {I6} (1971Gr41).
175LU4cG Weak experimental evidence of nuclear penetration effects
175LU5cG (1966Ha04,1971Gr41).
175LU cG MR$-0.014 {i23} from |g|g(|q) in 1972Kr18, < +0.028 deduced by
175LU2cG evaluator from least-squares fit of |a(K)exp and K:L1:L2 exp.
175LU G 282.517 14 46.6 8 E1(+M2) +0.093 +12-14 0.031020
175LUX G %IG=6.13 13
175LUS G KC=0.0256 16$LC=0.00415 32$MC=0.00094 8$NC=0.000221 18$OC=3.18E-5 26$
175LUS G PC=1.77E-6 15
175LU cG M$from |a(K)exp=0.023 {I1} (weighted average of 0.022 {I1}
175LU2cG (1966Ha04), 0.0248 {I24}, 0.0262 {I18} (1970Re08), 0.0212 {I12}
175LU3cG (1971Gr41)) and K:L1:L2:L3 exp=100 {I2}:15.0 {I4}:3.60 {I24}:1.66
175LU4cG {I17} (1971Gr41). Possible nuclear penetration effects. (|l{-1}=-8.35
175LU5cG |l{-2}=170, see 1969Ha61,1976Mi07).
175LU cG MR$+0.06 {i6} from |g|g(|q) in 1972Kr18, +0.095 {I+12-14} deduced by
175LU2cG evaluator from least-squares fit of |a(K)exp and K:L1:L2:L3 exp.
175LU G 396.322 20 100 E1+M2 +0.26 16 0.028 24
175LUX G %IG=13.15 16
175LUS G KC=0.023 19$LC=0.004 4$MC=9.E-4 8$NC=2.1E-4 20$OC=3.1E-5 29$
175LUS G PC=1.8E-6 17
175LU cG M$|a(K)exp=0.0380 {I20} (weighted average of 0.037 {I2} (1966Ha04),
175LU2cG 0.0422 {I30}, 0.0445 {I32} (1970Re08), 0.0349 {I21} (1971Gr41)) and
175LU3cG K:L1:L2:L3 exp=100:15.4 {I3}:1.81 {I5}:0.33 {I4} (1971Gr41). Nuclear
175LU4cG penetration effects |l{-1}=12.5 |l{-2}=53 (1969Ha61,1976Mi07).
175LU cG MR$+0.105 {i8} from |g|g(|q) in 1972Kr18, +0.421 {I25} deduced by
175LU2cG evaluator from least-squares fit of |a(K)exp and K:L1:L2:L3 exp.
175LU cG $B(M2)(W.u.)=1.2 {I+18-10} exceeds RUL=1
175LU B 20.82 27 4.511 23
175LUS B EAV=18.78 32
175LU cB IB$I|b=10.1% {I4} (1962Ba32)