125XE 125CS EC DECAY 1972JH01 11NDS 201102
125XE H TYP=FUL$AUT=J. KATAKURA$CIT=NDS 112, 495 (2011)$CUT=1-Jan-2010$
125XE c 1993Al03: Total |g absorption; deduced Q
125XE c 1987Fr10: ce({+3}He,X), on-line ms, ce|g(t); deduced T{-1/2}
125XE c 1975We23: La(p,spallation) on-line ms, |b|g-coin; deduced Q
125XE c 1972Jh01: I(|a,NX), semi |g; proposed level scheme on the basis of
125XE2c E|g sums
125XE cE $ E|b+ from 1975We23
125XE cG E Uncertainty is not given by authors (1972Jh01).
125XE2cG 1 keV is assigned to the placed |g's by the evaluators.
125XE cG E(W) Weak |g ray; no intensity was given (1972Jh01)
125XE cL J Spin and parity values are those given under adopted
125XE2cL levels
125XE cL E From least-squares fit to E|g's by evaluators
125CS P 0.0 1/2(+) 46.7 M 1 3104 8
125XE N 0.031 3 1.0 1.0
125XE cN %|e+%|b{++}=54 to g.s. was estimated from |g{+|+} (1972Jh01).
125XE2cN Contribution of unplaced |g rays was estimated by the authors to be
125XE3cN approximately 10%
125XE PN 3
125XE G 335 66
125XE G 654 14
125XE G 780 7
125XE G 808 2.5
125XE G 865 9.8
125XE G 922 27
125XE G 995 17
125XE G 1060 5.9
125XE G 1228 5
125XE G 1783 7
125XE G 1825 4
125XE G 1855 6
125XE G 2116 26
125XE G 2201 4
125XE G 2269 4
125XE G 2371 W
125XE G 2623 1.5
125XE G 2726 1.5
125XE L 0.0 1/2(+) 16.9 H 2
125XE E 27 AP 26 AP 5.60 AP 53 AP
125XES E EAV=935.8 37$CK=0.425 3$CL=0.0567 4$CM+=0.01540 10
125XE cE E|b+=2060 keV {I20} from (|b{++})(|g{+|+}) coin
125XE L 111.9 5 3/2(+) 350 PS 20
125XE cL T From ce|g(t) (1987Fr10)
125XE E 1.5 AP 1.7 AP 6.76 AP 3.2 AP
125XES E EAV=884.9 37$CK=0.461 3$CL=0.0616 4$CM+=0.01674 10
125XE G 112 1 278 M1+E2 0.27 +10-130.64 4
125XES G KC=0.539 18 $LC=0.084 12 $MC=0.017 3 $NC+=0.0042 6
125XE cG M,MR From K/L+=5.2 {I6} (1987Fr10)
125XE L 525.0 8 1/2(+),3/2(+)
125XE E 8.6 AP 21 AP 5.53 AP 30 AP
125XES E EAV=698.3 36$CK=0.608 3$CL=0.0815 4$CM+=0.02215 11
125XE G 412 1 170
125XE G 526 1 792
125XE L 540.0 7 3/2(+)
125XE E 1.2 AP 3.0 AP 6.38 AP 4.2 AP
125XES E EAV=691.5 36$CK=0.614 3$CL=0.0823 4$CM+=0.02236 11
125XE G 428 1 51
125XE G 540 1 100
125XE L 712.0 8 3/2(+)
125XE E 1.4 AP 5.2 AP 6.08 AP 6.6 AP
125XES E EAV=614.6 36$CK=0.674 3$CL=0.0905 4$CM+=0.02460 11
125XE G 600 1 100
125XE G 712 1 114
125XE L 1311.5 8 1/2,3/2
125XE E 0.014 AP 0.39 AP 6.96 AP 0.40 AP
125XES E EAV=350.2 36$CK=0.8225 11$CL=0.11135 17$CM+=0.03031 5
125XE G 1200 1 6
125XE G 1311 1 7
125XE L 1325.0 8 1/2,3/2
125XE E 0.014 AP 0.42 AP 6.92 AP 0.43 AP
125XES E EAV=344.3 36$CK=0.8243 11$CL=0.11162 16$CM+=0.03038 5
125XE G 1212 1 11
125XE G 1326 1 3
125XE L 1579.5 8 1/2,3/2
125XE E 0.0040 AP 0.54 AP 6.67 AP 0.54 AP
125XES E EAV=233.3 35$CK=0.8459 4$CL=0.11519 8$CM+=0.03138 3
125XE G 1468 1 8.5
125XE G 1579 1 9
125XE L 1698.0 8 1/2,3/2
125XE E 0.0018 AP 0.71 AP 6.48 AP 0.71 AP
125XES E EAV=181.4 36$CK=0.8497 2$CL=0.11609 5$CM+=0.03164 2
125XE G 1158 1 14
125XE G 1587 1 W ?
125XE G 1698 1 9
125XE L 2155.0 8 1/2,3/2
125XE E 0.248 AP 6.58 AP 0.248 AP
125XES E CK=0.8492$CL=0.11844 6$CM+=0.03238 2
125XE G 2044 1 2
125XE G 2154 1 6
125XE L 2524.5 8 1/2,3/2
125XE E 0.170 AP 6.30 AP 0.170 AP
125XES E CK=0.8436 2$CL=0.12265 16$CM+=0.03372 5
125XE G 2414 1 1.5
125XE G 2523 1 4
125XE L 2544.0 8 1/2,3/2
125XE E 0.087 AP 6.56 AP 0.087 AP
125XES E CK=0.8431 3$CL=0.12303 17$CM+=0.03385 6
125XE G 2431 1 2
125XE G 2545 1 0.8