Impact of neutron-proton pairing on the nucleon high-momentum distribution in symmetric nuclear matter

Abstract

The effect of neutron-proton (np) pairing on the high-momentum tail (HMT) of nucleon momentum distributions in symmetric nuclear matter is investigated within a combined framework of the extended Brueckner-Hartree-Fock approach with off-shell BCS theory. The HMT ratio, quantifying the high-momentum fraction in the BCS state relative to the normal state, reaches about 1.06 around the density of 0.052\ fm-3, indicating that the maximal contribution of the np pairing, amounts to approximately 6\% that from short-range correlations (SRCs). This contribution exhibits a density dependence that closely follows the squared relative pairing gap ΔF=ZFΔ(kF) with respect to the kinetic energy EkF* evaluated using the effective mass, suggesting that ΔF2/EkF*2 provides a qualitative measure of the np pairing effect on the HMT. These findings highlight the significant role of np pairing and its interplay with SRCs in shaping nucleon momentum distributions in nuclear matter.