T=1 states in Rb74 and their Kr74 analogs

S. M. Fischer, C. J. Lister, N. J. Hammond, R. V.F. Janssens, T. L. Khoo, T. Lauritsen, E. F. Moore, D. Seweryniak, S. Sinha, D. P. Balamuth, P. A. Hausladen, D. G. Sarantites, W. Reviol, P. Chowdhury, S. D. Paul, C. Baktash, C. H. Yu

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Abstract

Charge symmetry breaking effects that perturb analog symmetry between nuclei are usually small but are important in extracting reliable Fermi matrix elements from "superallowed" β decays and testing conserved vector current theory, especially for the heavier cases. We have used the Ca40(Ar36, pn)Rb74 and Ca40(Ca40,αpn)Rb74 reactions at 108, 123 and 160 MeV, respectively, to populate Rb74 and determine the analog distortion through comparison of T=1 states in Rb74 with their corresponding Kr74 levels. We have traced the analogs of the Kr74 ground-state band in Rb74 to a candidate spin J=8 state and determined the Coulomb energy differences. They are small and positive and increase smoothly with spin. New T=0 states were found that better delineate the deformed band structure and clarify the steps in deexcitation from high spin. A new T=0 band was found. No evidence was found for γ decay to or from a low-lying Jπ=0+ state in Rb74 despite a careful search.

Original languageEnglish
Article number054304
JournalPhysical Review C - Nuclear Physics
Volume74
Issue number5
DOIs
StatePublished - 2006

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