88MO    88TC EC DECAY (5.8 S)         1996OD01                  14NDS    201401
 88MO  H TYP=FUL$AUT=E.A. McCutchan and A.A. Sonzogni$CIT=NDS 115, 135 (2014)$
 88MO2 H CUT=1-Nov-2013$
 88MO c  {+88}Tc activity produced by {+58}Ni({+32}S,pn), E=100-105 MeV.
 88MO2c  Measured E|g, I|g, |g|g and |g|b coincidences, and T{-1/2} using two
 88MO3c  HPGe detectors and one LEPS detector. Channel selection performed
 88MO4c  with a tape transport system and a rotation disk. Also 1993OdZY,
 88MO5c  1995ShZX. Single and coincident |g ray spectra are published in
 88MO6c  1993OdZY.
 88MO c  Other: 1992We02, {+88}Tc activity produced by {+58}Ni({+36}Ar,|apn),
 88MO2c  E=145 MeV. Measured E|g, I|g in coincidence with delayed 511 keV
 88MO3c  annihilation radiation.  Observed transitions depopulating the yrast
 88MO4c  8+ and 7- levels in {+88}Mo.  Experimental setup not optimized for a
 88MO5c  |b-decay study and thus the results are not adopted here.
 88MO c  With a Q value of 11 MeV and levels populated only up to 1.7 MeV, it
 88MO2c  is likely that the decay scheme is incomplete and Log {|ft} and
 88MO3c  I(|e+|b{++}) values should be considered approximate.
 88MO cE LOGFT$Approximate values, from I(|e+|b{++}) and assuming y=0.0
 88MO cG $The gamma intensities are obtained from a mixed source experiment,
 88MO2cG assuming that the 6.4 s isomer only feeds the 2627 and the 2101
 88MO3cG levels, while the 5.8 s isomer only feeds the 1655 and the 741
 88MO4cG levels. Alternatively, the 6.4 s isomer could feed only the 2627
 88MO5cG level, while the 5.8 s isomer could feed the 2101, 1655, and 741
 88MO6cG levels.  The mixed source intensities are 100 % (740.5|g), 44 % {I6}
 88MO7cG (914.2|g), 6 % {I3} (445.9|g), 19 % {I4} (972.1|g)
 88MO cG M$From the Adopted Gammas
 88MO cG TI$From I(|e+|b{++}) values
 88MO cL J,T$From the Adopted Levels
 88MO D  CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
 88TC  P Y            (2+,3+)           5.8 S     2              1.101E4  15
 88MO  N              1.0       1.0       1.0
 88MO PN                                                                     1
 88MO  L 0            0+                8.0 M     2
 88MO  L 740.53    5  2+
 88MO  G 740.53    5            E2                     1.60E-3   100
 88MOX G K/T=0.001402 20$L/T=0.0001621 23$M/T=2.90E-5 4$N/T=4.38E-6 7$
 88MOX G O/T=2.39E-7 4
 88MOS G KC=0.001404 20$LC=0.0001624 23$MC=2.90E-5 4$NC=4.39E-6 7
 88MO  E             74      AP0.27    AP5.5     AP             74        AP
 88MOS E EAV=4388 74$CK=0.00314 16$CL=0.000377 19$CM+=8.7E-5 5
 88MO  L 1654.77   19 4+
 88MO  G 914.23    18           E2                     9.52E-4   26       7
 88MOX G K/T=0.000836 12$L/T=9.53E-5 14$M/T=1.700E-5 24$N/T=2.58E-6 4$
 88MOX G O/T=1.432E-7 20
 88MOS G KC=0.000837 12$LC=9.54E-5 14$MC=1.702E-5 24$NC=2.58E-6 4
 88MO  E             26      AP0.13    AP5.7     AP             26        AP
 88MOS E EAV=3938 74$CK=0.00426 24$CL=0.00051 3$CM+=0.000118 7