Mean field studies of high-spin properties in the $A\sim 30$ and 60 regions of superdeformation
arXiv:nucl-th/0007066
Abstract
The importance of deformation changes and the possible role of proton-neutron pairing correlations on the properties of paired band crossings at superdeformation in the $A\sim 60$ mass region have been analyzed. The present analysis, supported in part by the cranked relativistic Hartree-Bogoliubov calculations for the SD band in $^{60}$Zn, suggests that when going from $^{60}$Zn to neighboring odd nuclei the properties of paired band crossings are strongly influenced by deformation changes. A number of questions related to the superdeformation in the $A\sim 30$ mass region has been studied with the cranked relativistic mean field theory and the configuration-dependent cranked Nilsson-Strutinsky approach.
the contribution to the Proceedings of the Pingst 2000 International workshop "Selected topics of N=Z nuclei", June 2000, Lund, Sweden, 12 pages including 6 PostScript figures, uses p2000.cls, p2000.sty and epsf