Single-particle and collective excitations in 62Ni

Abstract

Background: Level sequences of rotational character have been observed in several nuclei in the A=60 mass region. The importance of the deformation-driving π f7/2 and g9/2 orbitals on the onset of nuclear deformation is stressed.\\ Purpose: A measurement was performed in order to identify collective rotational structures in the relatively neutron-rich 62Ni isotope. \\ Method: The 26Mg(48Ca,2α4nγ)62Ni complex reaction at beam energies between 275 and 320~MeV was utilized. Reaction products were identified in mass (A) and charge (Z) with the Fragment Mass Analyzer (FMA) and γ rays were detected with the Gammasphere array. \\ Results: Two collective bands, built upon states of single-particle character, were identified and sizable deformation was assigned to both sequences based on the measured transitional quadrupole moments, herewith quantifying the deformation at high spin. \\ Conclusions: Based on Cranked Nilsson-Strutinsky calculations and comparisons with deformed bands in the A=60 mass region, the two rotational bands are understood as being associated with configurations involving multiple f7/2 protons and g9/2 neutrons, driving the nucleus to sizable prolate deformation.