68ZN    68GA EC DECAY                 1999BEZQ,1999BEZS         12NDS    201206
 68ZN  H TYP=FUL$AUT=E.A. McCutchan$CIT=NDS 113, 1735 (2012)$CUT=1-Mar-2012$
 68ZN c  1994Vo15: {+68}Ga activity in equilibrium with the parent {+68}Ge.
 68ZN2c  Measured E|g, I|g, |g|g, and |g|g(|q) using high energy resolution
 68ZN3c  array (HERA) consisting of 20 Compton suppressed Ge detectors and a
 68ZN4c  4|p, 40 element BGO inner ball.
 68ZN c  1994Sc44: {+68}Ga activity in equilibrium with the parent {+68}Ge.
 68ZN2c  Measured E|g, I|g, Ex, Ix, |b-|g coincidence using Si(Li), Ge(Li),
 68ZN3c  HPGe detectors; deduced |g-emission probability.
 68ZN c  1973La01: Source preparation method not given. Measured E|g, I|g, and
 68ZN2c  |g|g(|q) using NaI(Tl) and Ge(Li) detectors.
 68ZN c  1972Sl03: {+68}Ga activity prepared from {+68}Zn(p,n) and
 68ZN2c  {+69}Ga(p,2n) reactions. Measured E|g, I|g, E|b+, and Ice using
 68ZN3c  double focusing |b spectrometer and Ge(Li) detector.
 68ZN c  1968Ca15: {+68}Ga activity prepared from the parent activity of
 68ZN2c  {+68}Ge by chemical separation. Measured E|g, I|g, |g|g-coin, and
 68ZN3c  |g|g(|q) using NaI(Tl) and Ge(Li) detectors.
 68ZN c  {+68}Ga decay scheme is mainly from 1994Vo15.
 68ZN c  Others: 2001Ko07,1996Sk03,1996Vo10, 1993Os06, 1992Os07, 1991Ka35,
 68ZN2c  1984Sc35, 1969Va16, 1967Ta01, 1965He08, 1965Ba36, 1963Ta03, 1962Ko01,
 68ZN3c  1960Ra06, 1959Ho85, 1959Ra04.
 68ZN cL E$From a least-squares fit to E|g's, by evaluator.
 68ZN cL J,T$From the Adopted Levels.
 68ZN cG E,RI$Values recommended by 1999BeZQ and 1999BeZS, except where noted.
 68ZN cG M,CC$From the Adopted Gammas, except as noted.
 68ZN cG E(c)$From 1994Vo15.
 68ZN cG MR$From |g|g(|q) in 1994Vo15
 68ZN cE TI$From I(|g+ce) imbalance at each level.
 68ZN D  CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
 68GA  P 0.0          1+                67.71 M   8              2921.1   12
 68ZN  N 0.0322    3  0.0322 3  1.0
 68ZN cN NR,NT$Decay-scheme normalization is based on measured absolute
 68ZN2cN intensity of 3.22% {I3} for 1077-keV |g ray (1994Sc44).
 68ZN PN                                                                     3
 68ZN  L 0.0          0+                STABLE
 68ZN  E 2912      1087.72   9 8.92    8 5.1942  13             96.64     3
 68ZNS E EAV=836.02 56$CK=0.08167 15$CL=0.009017 16$CM+=0.001604 3
 68ZN cE E$E|b+(max)=1890 {I10} from 2001Ko07 (Ge(HP) detectors).
 68ZN  L 1077.36   4  2+
 68ZN  G 1077.34   5  100       E2
 68ZNS G CC=0.000247 4$KC=0.000221 4$LC=2.22E-5 4$MC=3.18E-6 5$NC+=1.273E-7 18
 68ZN cG $%I|g=3.22 {I3} (1994Sc44).
 68ZN  E             1.19    1 1.80    2 5.489   5              2.99      3
 68ZNS E EAV=352.59 52$CK=0.5314 11$CL=0.05887 12$CM+=0.010480 21
 68ZN  L 1655.87   7  0+
 68ZN  G 578.52    13 1.04   5  E2
 68ZNS G CC=0.001272 18$KC=0.001139 16$LC=0.0001160 17$MC=1.659E-5 24$
 68ZNS G NC+=6.50E-7 10
 68ZN  G 1659      7            E0                               4.2E-4   10
 68ZNX G ECC GT 75E-4 (1972SL03) $K/T=0.54 13
 68ZN cG E$from ce (1972Sl03).
 68ZN cG M$from |a(exp) (1972Sl03).
 68ZN cG TI$includes pair production. From relative ce intensities of
 68ZN2cG 1972Sl03, the I|g of 1973La01 and the theoretical calculations of
 68ZN3cG 1986PaZM for the K conversion to pair production ratio. The K
 68ZN4cG conversion has been increased by 10% to allow for L conversion.
 68ZN cG $Ice(K)(1659)/Ice(K)(1077|g)=0.010 {I2} (1972Sl03).
 68ZN  E             0.000258140.0328  176.898   23             0.0331    17
 68ZNS E EAV=107.53 51$CK=0.8772 2$CL=0.09760 2$CM+=0.017382 3
 68ZN  L 1883.16   5  2+
 68ZN  G 227.31    15 0.0037 15 (E2)                    0.0300
 68ZNS G KC=0.0268 4$LC=0.00286 4$MC=0.000406 6$NC+=1.476E-5 21
 68ZN  G 805.83    8  2.92   7  M1+E2     -1.55  5
 68ZNS G CC=0.000471 7$KC=0.000422 6$LC=4.24E-5 7$MC=6.08E-6 9$NC+=2.43E-7 4
 68ZN cG MR$Others: -1.46 {I14} (1973La01) +4 {I+3-2} (1962Ko01).
 68ZN  G 1883.16   6  4.24   8  (E2)
 68ZNS G CC=0.000333 5$KC=6.97E-5 10$LC=6.91E-6 10$MC=9.91E-7 14$NC+=0.000255 4
 68ZN  E                       0.230   4 5.879   8              0.230     4
 68ZNS E CK=0.8838$CL=0.09862$CM+=0.01757
 68ZN  L 2338.48   5  2+
 68ZN  G 682.63    7  0.0097 6  (E2)
 68ZNF G FLAG=c
 68ZNS G CC=0.000789 11$KC=0.000707 10$LC=7.16E-5 10$MC=1.025E-5 15$NC+=4.04E-7
 68ZN  G 1261.08   9  2.93   6  M1+E2     -0.15  2
 68ZNS G CC=0.0001725 25$KC=0.0001418 20$LC=1.409E-5 20$MC=2.02E-6 3$
 68ZNS G NC+=8.19E-8 12
 68ZN cG MR$Others: -0.14 {I4} (1973La01), -2.25 {I30} (1963Ta03), -1.8 {I2}
 68ZN2cG (1960Ra06).
 68ZN  G 2338.44   8  0.035  5  (E2)
 68ZNS G CC=0.000529 8$KC=4.71E-5 7$LC=4.67E-6 7$MC=6.69E-7 10$NC+=0.000476 7
 68ZN  E                       0.0955  225.754   11             0.0955    22
 68ZNS E CK=0.8825$CL=0.09975$CM+=0.01780
 68ZN  L 2821.86   6  2+
 68ZN  G 483.35    16 0.0082 9  M1+E2                   0.00175
 68ZNS G KC=0.0015 5$LC=0.00016 5$MC=2.2E-5 7$NC+=9.E-7 3
 68ZN cG MR$-0.12 {I16} or -1.7 {I9} (1994Vo15).
 68ZN  G 938.73    6  0.0055 5  M1+E2     -0.7   3
 68ZNF G FLAG=c
 68ZNS G CC=0.000304 12$KC=0.000272 11$LC=2.72E-5 11$MC=3.90E-6 16$
 68ZNS G NC+=1.57E-7 6
 68ZN  G 1165.92   15 0.0005 3  E2
 68ZNS G CC=0.000211 3$KC=0.000185 3$LC=1.85E-5 3$MC=2.65E-6 4$NC+=4.67E-6 7
 68ZN  G 1744.42   13 0.295  15 M1+E2     +0.27  2
 68ZNS G CC=0.000241 4$KC=7.70E-5 11$LC=7.63E-6 11$MC=1.094E-6 16$NC+=0.0001550
 68ZN cG MR$Other: +0.29 {I5} (1973La01).
 68ZN  G 2821.73   14 0.0144 11 (E2)
 68ZNS G CC=0.000740 11$KC=3.43E-5 5$LC=3.39E-6 5$MC=4.86E-7 7$NC+=0.000702 10
 68ZN  E                       0.0104  5 5.113   24             0.0104    5
 68ZNS E CK=0.8655 3$CL=0.11381 23$CM+=0.02067 5