Simultaneous investigation of the T=1(J(pi)=0(+)) and T=0(J(pi)=9(+)) beta decays in Br-70
Tarih
2017Yazar
Ascher, P.
Grevy, S.
GUADILLA, V.
INABE, N.
ISOBE, T.
KOJOUHAROV, I.
KORTEN, W.
KUBO, T.
KUBONO, S.
NIETO, T. Kurtukian
KURZ, N.
Lee, J.
LENZI, S.
LIU, J.
LOKOTKO, T.
LUBOS, D.
MAGRON, C.
MONTANER-PIZA, A.
NAPOLI, D. R.
SAKURAI, H.
SCHAFFNER, H.
Shimizu, Y.
SIDONG, C.
SODERSTROM, P. -A.
Sumikama, T.
MORALES, A. I.
Algora, A.
Rubio, B.
KANEKO, K.
NISHIMURA, S.
AGUILERA, P.
ORRIGO, S. E. A.
Molina, F.
de Angelis, G.
RECCHIA, F.
KISS, G.
PHONG, V. H.
WU, J.
Nishimura, D.
OIKAWA, H.
GOIGOUX, T.
Giovinazzo, J.
Agramunt, J.
AHN, D. S.
BABA, H.
SUZUKI, H.
TAKEDA, H.
TAKEI, Y.
Tanaka, M.
YAGI, S.
Ganioglu, Ela
Blank, B.
BORCEA, C.
BOSO, A.
DAVIES, P.
DIEL, F.
DOMBARDI, Zs.
DOORNENBAL, P.
EBERTH, J.
de France, G.
Fujita, Y.
FUKUDA, N.
Gelletly, W.
Gerbaux, M.
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The beta decay of the odd-odd nucleus Br-70 has been investigated with the BigRIPS and EURICA setups at the Radioactive Ion Beam Factory (RIBF) of the RIKEN Nishina Center. The T = 0(J(pi) = 9(+)) and T = 1(J(pi) = 0(+)) isomers have both been produced in in-flight fragmentation of Kr-78 with ratios of 41.6(8)% and 58.4(8)%, respectively. A half-life of t(1/2) = 2157(-49)(+53) ms has been measured for the J pi = 9(+) isomer from gamma-ray time decay analysis. Based on this result, we provide a new value of the half-life for the J pi = 0(+) ground state of Br-70, t(1/2) = 78.42 +/- 0.51 ms, which is slightly more precise, and in excellent agreement, with the best measurement reported hitherto in the literature. For this decay, we provide the first estimate of the total branching fraction decaying through the 2(1)(+) state in the daughter nucleus Se-70, R(2(1)(+)) = 1.3 +/- 1.1%. We also report four new low-intensity gamma-ray transitions at 661, 1103, 1561, and 1749 keV following the beta decay of the J pi = 9(+) isomer. Based on their coincidence relationships, we tentatively propose two new excited states at 3945 and 4752 keV in 70Se with most probable spins and parities of J(pi) = (6(+)) and (8(+)), respectively. The observed structure is interpreted with the help of shell-model calculations, which predict a complex interplay between oblate and prolate configurations at low excitation energies.
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