Quarteting and spin-aligned proton-neutron pairs in heavy N=Z nuclei

Abstract

We analyze the role of maximally aligned isoscalar pairs in heavy N=Z nuclei by employing a formalism of quartets. Quartets are superpositions of two neutrons and two protons coupled to total isospin T=0 and given J. The study is focused on the contribution of spin-aligned pairs carrying the angular momentum J=9 to the structure of 96Cd and 92Pd. We show that the role played by the J=9 pairs is quite sensitive to the model space and, in particular, it decreases considerably by passing from the simple 0g9/2 space to the more complete 1p1/2,1p3/2,0f5/2,0g9/2 space. In the latter case the description of these nuclei in terms of only spin-aligned J=9 pairs turns out to be unsatisfactory while an important contribution, particularly in the ground state, is seen to arise from isovector J=0 and isoscalar J=1 pairs. Thus, contrary to previous studies, we find no compelling evidence of a spin-aligned pairing phase in 92Pd.