70ZN    70CU B- DECAY (33 S)          2004VA08                  16NDS    201609
 70ZN  H TYP=FUL$AUT=G. G~URDAL, E.A. MCCUTCHAN$CIT=NDS 136, 1 (2016)$
 70ZN2 H CUT=1-Jul-2016$
 70ZN c  2004Va08,2004Va07: {+70}Cu activity produced in proton (E(p)= 1 GeV)
 70ZN2c  and neutron induced fission of uranium carbide and separated with the
 70ZN3c  RILIS ion source followed by mass separation. Measured E|g, I|g,
 70ZN4c  |g(t), |b|g and |g|g coincidences using three thin plastic |DE
 70ZN5c  detectors and two HPGe detectors. See also thesis, 2002VaZX.
 70ZN c  1983Ru06: {+70}Cu activity from {+nat}W({+76}Ge,X) with E({+76}Ge)=9
 70ZN2c  MeV/nucleon. Reaction products stopped in graphite catcher of
 70ZN3c  FEBIAD-E ion source then mass separated in on-line mass separator.
 70ZN4c  Measured E|g, I|g, |g(t), |g|g, |b|g coincidences using 2 Ge
 70ZN5c  detectors and a plastic scintillator. The 208|g, 708|g, 1072|g, and
 70ZN6c  1654|g previously assigned to {+67}Ni decay by 1975Re09 and 1971Ta03
 70ZN7c  were assigned to the {+70}Cu decay. This assignment was confirmed by
 70ZN8c  2004Va08.
 70ZN c  Others: 1971Ta03, 1975Re09.
 70ZN c  A total energy release of 3500 keV {I300} for this decay scheme is
 70ZN2c  calculated by the code RADLST, in agreement with the effective Q
 70ZN3c  value of 3500 keV {I600}. However, there is a 3.3 MeV energy
 70ZN4c  difference between the highest observed energy level and the Q value,
 70ZN5c  suggesting that the decay scheme is incomplete.
 70ZN cB IB$Deduced by the evaluators from |g-ray intensity balance. Total |b
 70ZN2cB feeding sums to 52%. Note that corresponding values quoted in
 70ZN3cB 2004Va08 add up to 100%.
 70ZN cG $I|g(101.1|g, IT)/I|g(884.88|g)=0.98 {I16} (2004Va08).
 70ZN cG E,RI$From 2004Va08. I|g are normalized to I|g(885|g)=100.
 70ZN cG M,MR$From the Adopted Gammas.
 70ZN cL E$From least-squares fit to E|g, by evaluators.
 70ZN cL J,T$From the Adopted Levels
 70ZN D  CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
 70CU  P 101.1     3  3-                33 S      2              6588.3   22
 70ZN  N 0.95      5            0.52   9  1.923
 70ZN cN BR$%IT=48 {I9} (2004Va08)
 70ZN cN NR$From |S(I(|g+ce) to g.s.)=52 {I9}. No ground state |b feeding is
 70ZN2cN expected since |DJ=3, |D|p=yes.
 70ZN PN                                 1.0                                 3
 70ZN  L 0.0          0+                3.8E18 Y  GE
 70ZN  L 884.95    8  2+                3.65 PS   21
 70ZN  G 884.88    9  100    5  E2                     3.97E-4               C
 70ZNS G KC=0.000356 5$LC=3.58E-5 5$MC=5.12E-6 8$NC=2.04E-7 3
 70ZN  L 1759.31   10 2+                1.32 PS   21
 70ZN  G 874.33    8  7.9    7  M1+E2     +0.75  15    3.58E-49              C
 70ZNS G KC=0.000321 9$LC=3.21E-5 9$MC=4.61E-6 12$NC=1.85E-7 5
 70ZN  G 1759.6    2  5.4    5  [E2]                   2.86E-4               C
 70ZNS G KC=7.92E-5 11$LC=7.86E-6 11$MC=1.127E-6 16$NC=4.56E-8 7
 70ZN  L 1786.86   11 4+                2.9 PS    8
 70ZN  G 901.7     1  51     5  [E2]                   3.78E-4               C
 70ZNS G KC=0.000339 5$LC=3.41E-5 5$MC=4.88E-6 7$NC=1.95E-7 3
 70ZN  B             6       3           6.7     2
 70ZNS B EAV=2200.2 11
 70ZN  L 2538.44   12 (2+)              0.21 PS   +28-8
 70ZN cL J$(3+) in 2004Va08 is in conflict with adopted value which is based
 70ZN2cL on 2538|g (not reported here) to 0+ and direct population in Coulomb
 70ZN3cL Excitation.
 70ZN  G 779.1     2  6.4    7                                               C
 70ZN  G 1653.9    2  16     1  M1+E2     -1.5   3     2.39E-45              C
 70ZNS G KC=8.78E-5 14$LC=8.72E-6 14$MC=1.250E-6 19$NC=5.06E-8 8
 70ZN  B             1.7     9           7.0     3
 70ZNS B EAV=1836.0 11
 70ZN  L 2693.50   13 4+                0.28 PS  +35-14
 70ZN  G 906.5     1  5.2    8                                               C
 70ZN  G 1809.1    5  11     1  [E2]                   3.04E-4               C
 70ZNS G KC=7.51E-5 11$LC=7.46E-6 11$MC=1.069E-6 15$NC=4.33E-8 6
 70ZN  B             5.3     12          6.4     1
 70ZNS B EAV=1761.1 11
 70ZN  L 2859.60   12 3-                0.201 PS  14
 70ZN  G 1072.2    1  15     2  [E1]                   1.12E-4               C
 70ZNS G KC=0.0001001 14$LC=9.94E-6 14$MC=1.423E-6 20$NC=5.74E-8 8
 70ZN  G 1100.5    2  6.8    8  [E1]                   1.15E-4               C
 70ZNS G KC=9.54E-5 14$LC=9.47E-6 14$MC=1.356E-6 19$NC=5.47E-8 8
 70ZN  G 1975.0    4  14     1  [E1]                   6.56E-4               C
 70ZNS G KC=3.61E-5 5$LC=3.57E-6 5$MC=5.11E-7 8$NC=2.07E-8 3
 70ZN  B             13      3           5.9     1
 70ZNS B EAV=1680.9 11
 70ZN  L 2978.37   23 4+
 70ZN  G 1191.5    2  3.5    7                                               C
 70ZN  B             1.7     5           6.7     2
 70ZNS B EAV=1623.6 11
 70ZN  L 3038.23   13 5-                1.04 PS   7
 70ZN  G 1251.7    1  10.4   7  [E1]                   1.68E-4               C
 70ZNS G KC=7.56E-5 11$LC=7.49E-6 11$MC=1.073E-6 15$NC=4.34E-8 6
 70ZN  L 3246.81   12 (3-,4+)
 70ZN cL J$(4-) in 2004Va08 is in conflict with adopted value
 70ZN  G 208.75    7  10.4   7  [E1]                   0.00653
 70ZNS G KC=0.00586 9$LC=0.000588 9$MC=8.40E-5 12$NC=3.28E-6 5
 70ZN  G 387.10    5  10.2   7  [E1]                   1.14E-3               C
 70ZNS G KC=0.001023 15$LC=0.0001023 15$MC=1.464E-5 21$NC=5.81E-7 9
 70ZN  G 553.2     1  5.4    7                                               C
 70ZN  G 708.42    7  19     1  [E2]                   7.12E-4               C
 70ZNS G KC=0.000638 9$LC=6.45E-5 9$MC=9.24E-6 13$NC=3.65E-7 6
 70ZN  G 1460.4    2  3.8    8                                               C
 70ZN  B             24      5           5.4     2
 70ZNS B EAV=1494.5 11