| Literature DB >> 15089126 |
J Van Roosbroeck1, C Guénaut, G Audi, D Beck, K Blaum, G Bollen, J Cederkall, P Delahaye, A De Maesschalck, H De Witte, D Fedorov, V N Fedoseyev, S Franchoo, H O U Fynbo, M Górska, F Herfurth, K Heyde, M Huyse, A Kellerbauer, H-J Kluge, U Köster, K Kruglov, D Lunney, V I Mishin, W F Mueller, Sz Nagy, S Schwarz, L Schweikhard, N A Smirnova, K Van de Vel, P Van Duppen, A Van Dyck, W B Walters, L Weissman, C Yazidjian.
Abstract
Using resonant laser ionization, beta-decay studies, and for the first time mass measurements, three beta-decaying states have been unambiguously identified in 70Cu. A mass excess of -62 976.1(1.6) keV and a half-life of 44.5(2) s for the (6-) ground state have been determined. The level energies of the (3-) isomer at 101.1(3) keV with T(1/2)=33(2) s and the 1+ isomer at 242.4(3) keV with T(1/2)=6.6(2) s are confirmed by high-precision mass measurements. The low-lying levels of 70Cu populated in the decay of 70Ni and in transfer reactions compare well with large-scale shell-model calculations, and the wave functions appear to be dominated by one proton-one neutron configurations outside the closed Z=28 shell and N=40 subshell. This does not apply to the 1+ state at 1980 keV which exhibits a particular feeding and deexcitation pattern not reproduced by the shell-model calculations.Year: 2004 PMID: 15089126 DOI: 10.1103/PhysRevLett.92.112501
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161