Proton-neutron pairing correlations in N=Z nuclei with Deformed Skyrme+pnBCS model

Abstract

We investigate the effects of neutron-neutron (nn), proton-proton (pp) and proton-neutron (pn) pairing correlations on the ground-states of N = Z even-even pf-shell nuclei by using an axially symmetric deformed Hartree-Fock (HF)+pnBardeen-Cooper-Schrieffer (BCS) model. We adopt a Skyrme energy density functional (EDF) SGII, together with contact volume- and surface-type pairing interactions, whose strengths are adjusted to reproduce empirical pairing gaps of each nucleus. It is shown that the strength of the IS pairing is correlated to the nuclear deformation: for oblate deformation with -0.3<β2<0.0, a stronger IS pairing is required to reproduce the empirical pairing gap, while for prolate deformation a weaker one is enough. Among the eight N=Z nuclei, we found that 64Ge, 68Se and 72Kr show the dominance of isovector (IV) spin-singlet superfluidity, while lighter 5 nuclei 44Ti, 48Cr, 52Fe, 56Ni and 60Zn exhibit the coexistence of IV spin-singlet and isoscalar (IS) spin-triplet superfluidities. We found also that the IS abnormal density always exhibits the oblate deformation, regardless of whether the normal density is prolate, spherical or oblate.