127XE    127XE IT DECAY (69.2 S)       1968SC14,1967GE15         11NDS    201108
127XE  H TYP=FUL$AUT=A. HASHIZUME$CIT=NDS 112, 1647 (2011)$CUT=1-Oct-2009$
127XE  P     297.10 89/2-              69.2 S    9
127XE c  1968Sc14: {+127}I(d,2n), no chem; scin |g, |g|g coin and |g(t)
127XE c  1967Ge15: {+127}I(p,n) E=12 MeV, no chem; semi |g ce, scin |g|g(|q)
127XE2c  and (ce)(ce)(t)
127XE c  The decay scheme is that proposed by 1968Sc14
127XE cL J         From adopted levels
127XE cG E         From 1968Sc14
127XE cG RI        Relative to I(124.6|g)=100
127XE cG CC$Theoretical conversion coefficients are calculated using BrIcc code
127XE2cG for the multipolarity indicated.
127XE cG M         From |a(K)exp
127XE  N 0.69      3           1.0
127XE PN                                                                     3
127XE  L 0.0         1/2+              36.346 D  3
127XE  L      124.6 33/2+              0.28 NS   1
127XE cL T         from (ce 172.5|g)(ce 124.6|g)(t) (1967Ge15)
127XE  G 124.6     3 100       M1+E2     +0.12   2     0.446  8              C
127XE3 G EKC=0.39 4 (1968SC14)$ K/L=7.1 8 (1967GE15)
127XES G KC=0.382 6$LC=0.0517 11$MC=0.01053 22$NC+=0.00244 5
127XES G NC=0.00217 5$OC=0.000269 5
127XE cG $L/M+N+O=3.3 (1967Ge15), K/L+M=5.0 {I5} (1969Ha03)
127XE cG MR        from (172.5|g)(124.6|g)(|q) (1967Ge15)
127XE  L      297.1 59/2-              69.2 S    9                           M
127XE cL T         from (ce)(t) and (ce)(t) (1967Ge15)
127XE  G 172.5     3 55      3 E3                      1.62   3              C
127XE3 G EKC=0.83 10 (1968SC14)$ K/L=1.6 1 (1967GE15)
127XES G KC=0.910 14$LC=0.563 10$MC=0.1234 21$NC+=0.0268 5
127XES G NC=0.0244 5$OC=0.00243 4
127XE DG CC        E3 CC(THEORY)'S MULT. BY 0.975 10 (Cf. 90NE01)
127XE cG $L/M+N+O=3.3 (1967Ge15), K/L+M=1.3 {I1} (1969Ha03)
127XE DG CC        E3 CC(THEORY)'S MULT. BY 0.975 10 (Cf. 1990Ne01)