115IN 115CD B- DECAY (44.56 D) 1973SE06,1975BO29,1978HE0812NDS 201210
115IN H TYP=FUL$AUT=JEAN BLACHOT$CIT=NDS 113, 2391 (2012)$CUT=1-Sep-2012$
115IN c Others: 1959Jo31, 1963Sh14, 1963Va06, 1963Hu06, 1964Bo19, 1964Ra03,
115IN2c 1965Sa13, 1966Gr14, 1968Mo09, 1969MoZS, 1973Is03, 1974HeYW
115IN c %|b{+-}=100; %IT=0, I|g(E5)/I|g(934|g)|<1|*10{+-5} (1973Se06)
115IN c |g|g(|q): 1963Va06, 1964Pa18, 1973St13, 1973Ko23, 1973Se06, 1975Bo29
115IN cG E|g,I|g measurements are from 1978He08, except as noted;
115IN2cG I(ce(K)) from 1973Is03
115IN cG |a(K)exp=ce(K)/I|g normalized to |a(K)(336|g)=0.866 (M4
115INxcG theory)
115IN cG M$Deduced from |a(K)exp
115IN cG M(B)$From adopted gammas
115IN cL T,J$From adopted levels, except as noted
115IN CL BAND(A) 1/2(431) BAND; A=12.9, a=-1.92. E(5/2)=1017 KEV,
115IN2cL E(9/2)=1272 keV. Calculations by 1975Di12
115IN3cL indicate a potential energy
115IN4cL minimum at prolate |b{-2}|?0.2 for 1/2[431] orbital.
115CD P 181.0 5 11/2- 44.56 D 24 1448.7 17
115IN N 0.0020 7 1.0 1.0
115IN cN NR from |SI(|g+ce) to g.s.=3 {I1} (uncertainty assigned
115IN2cN by evaluators), |b{+-} to g.s.=97%
115IN PN 4
115IN L 0.0 9/2+ 4.41E+14 Y 25
115IN B 1620 10 97 8.8
115INS B EAV=617.6 18
115IN cB E 1620 {I10} (1963Sh14) s, 1631 {I16} (1959Jo31) scin,
115IN2cB 1630 {I10} (1952Ha24) s; nonlinear F-K plot observed (1963Sh14)
115IN cB IB$97% (1963Sh14), |?98% (1952Ha24). Uncertainty not stated by 1963Sh14
115IN cB $Longitudinal pol 1620|b studied (1963Ku20)
115IN L 336.253181/2- 4.486 H 4 M1
115IN G 336.241 25 2.47 8 M4 1.081 B
115INS G KC=0.856 12$LC=0.181 3$MC=0.0369 6$NC+=0.00704 10
115INS G NC=0.00664 10$OC=0.000392 6
115IN cG E from 1974HeYW. Others: 336.23 {I5} (1967Ba18), 336.25 {I10}
115IN2cG (1967Mu08), 336.301 {I15} (1978He08)
115IN L 597.151243/2- 0.25 NS LE
115IN G 260.89 3 0.46 4 M1+E2 -0.09 6 0.0379 2 B
115INS G KC=0.03285 18$LC=0.00405 5$MC=0.00078 $NC+=0.00017
115IN L 828.608183/2+ 5.78 NS 6 A
115IN G 231.440 20 0.44 3 E1 0.01639 B
115INS G KC=0.01427 20$LC=0.001726 25$MC=0.000333 5$NC+=6.46E-5 9
115INS G NC=6.04E-5 9$OC=4.22E-6 6
115IN G 492.351 5 4.8 1 E1 B
115INS G KC=0.00204 $LC=0.00024
115IN L 933.838 47/2+ 57 PS 5 A
115IN cL T from (484|g)(934|g)(t) scin (1973Se06). Other: |<130 ps
115INxcL (1967Mc13)
115IN cL Branching: I|g(105|g)/I|g(934|g)=0.0022 {I1} (1978He08),
115IN2cL 0.0024 {I4} (1973Se06), 0.0023 {I4} (1973Is03)
115IN B 679 6 1.7 AP 9.5 AP C1U
115INS B EAV=244.0 15
115IN cB E |b(934|g): 679 {I6} (1975Bo29), 680 {I10} (1963Sh14), 687
115IN2cB {I8} (1959Jo31); |b shape factors indicate unique first-forbidden
115IN3cB transition (1975Bo29,1963Sh14,1959Jo31)
115IN G 105.200 25 2.21 9 E2 1.290 C
115INS G KC=0.965 14$LC=0.263 4$MC=0.0529 8$NC+=0.00943 14
115INS G NC=0.00909 13$OC=0.000345 5
115IN3 G EKC=1.0 1
115IN G 933.838 4 1000 3 M1(+E2) +0.02 5 C
115INS G KC=0.00148 $LC=0.00017
115IN cG E others: 933.81 {I4} (1974HeYW), 933.6 {I1} (1973Se06)
115IN3 G EKC=0.0013 1
115IN cG MR +0.02 {I5} (1975Ro32) oriented 44.6-d {+115}Cd decay,
115INxcG 934|g(|q)
115IN L 941.429115/2+
115IN G 344.6 1 0.02 1 [E1]
115INS G KC=0.00494 $LC=0.00059 $MC=0.00011
115IN cG E other: 344.2 (1976Tu02, Coul. ex.)
115IN G 941.420 11 0.12 1 E2 B
115INS G KC=0.00121 $LC=0.00015
115IN cG E from {+115}Cd g.s. decay. Others: 941.68 {I12} (1978He08),
115IN2cG 941.2 {I5} (1973Se06)
115IN L 1078.17 75/2+
115IN cL Branching: I|g(1078|g):I|g(480|g):I|g(136|g)=100:18.7
115IN2cL {I3}:1.2 {I2} (1976Tu02, Coul. ex.)
115IN G 136.3 0.0002 CA S
115IN G 480.5 0.004 CA S
115IN G 1078.2 5 0.02 2
115IN cG E other: 1077.7 (1976Tu02, Coul. ex.)
115IN L 1132.578 911/2+
115IN B 0.06 AP 10.2 AP
115INS B EAV=152.3 15
115IN G 1132.573 11 42.8 5 M1+E2 +0.51 4 BC
115INS G KC=0.00093 $LC=0.00011
115IN cG E others: 1132.61 {I5} (1974HeYW), 1132.5 {I1} (1973Se06)
115IN L 1290.5961013/2+
115IN cL Branching: I|g(158|g)/I|g(1290|g)=0.0191 {I4} (1978He08),
115INxcL 0.0222 {I27} (1973Se06)
115IN B 0.9 AP 8.4 AP C
115INS B EAV=98.0 14
115IN cB E |b(1290|g): 320 {I5} (1975Bo29) semi-semi, 335 {I10}
115IN2cB (1959Jo31) scin-scin; |b shape factor indicates allowed or
115IN3cB nonunique first-forbidden transition
115IN G 158.027 20 8.51 9 M1+E2 +0.02 1 0.144 C
115INS G KC=0.12460 7$LC=0.01561 $MC=0.00302 $NC+=0.00066
115IN cG MR from (158|g)(1132|g)(|q): +0.02 {I1} (1973St13), +0.03 {I1}
115IN2cG (1973Se06). Other: 1964Pa18
115IN3 G EKC=0.17 2
115IN G 1290.585 11 445 7 E2 BC
115INS G KC=0.00061
115IN cG E others: 1290.64 {I5} (1974HeYW), 1290.5 {I1} (1973Se06)
115IN L 1418.272 9(9/2)+
115IN cL Branching: I|g(477|g):I|g(484|g):I|g(1418|g)=0.034
115IN2cL {I7}:100:0.63 {I3} (1978He08), 0.06 {I3}:100:0.61 {I7} (1973Se06)
115IN B 0.3 AP 8.2 AP
115INS B EAV=57.6 13
115IN G 476.67 15 0.05 1
115IN G 484.471 15 145 1 M1+E2 +4.0 2 C
115INS G KC=0.00660 $LC=0.00088 $MC=0.00017
115IN cG E other: 484.35 {I15} (1973Se06)
115INS G EKC=0.0062 9
115IN cG MR from (484|g)(934|g)(|q): 1955Va04, 1963Va06, 1964Pa18,
115IN2cG 1973Ko23, 1973Se06, 1973St13, 1975Bo29; see 1977Kr13 evaluation
115IN G 1418.243 11 0.92 4
115IN L 1448.786 69/2+
115IN cL Branching: I|g(1449|g):I|g(515|g):I|g(507|g):I|g(316|g)=100:0
115IN2cL \.6 {I2}:1.5 {I1}:14.6 6 (1978He08), 100:--:2.4 {I13}:18 {I3}
115INxcL (1973Se06)
115IN B 0.02 AP 9.2 AP
115INS B EAV=48.5 12
115IN G 316.201 17 1.24 5 M1 0.023 BC
115INS G KC=0.01996 $LC=0.00243 $MC=0.00047 $NC+=0.00010
115IN cG M$|d=0.00 {I4} from (316|g)(1132|g)(|q): 1973Se06, 1973St13
115IN G 370.61 7 0.004 2
115IN G 507.36 6 0.13 1
115IN G 515.05 7 0.05 2
115IN G 1448.776 6 8.5 1 M1+E2 -8 AP B
115INS G KC=0.00049
115IN L 1478.5 ?
115IN G 544.7 2 0.03 ?
115IN cG RI$0.043 {I9} doublet apportioned via branching
115IN2cG I|g(545|g)/I|g(1486|g)=0.047 (1976Tu02, Coul. ex.)
115IN G 1478.5 3 0.005 3 ?
115IN L 1486.10911
115IN B 0.0007 AP 10.3 AP
115INS B EAV=37.7 12
115IN G 353.6 0.06 CA S
115IN cG RI from I|g(353|g)/I|g(1486|g)=0.22 (1976Tu02, Coul. ex.)
115IN G 544.7 2 0.01
115IN G 1486.099 11 0.28 1