Low-momentum ring diagrams of neutron matter at and near the unitary limit

Abstract

We study neutron matter at and near the unitary limit using a low-momentum ring diagram approach. By slightly tuning the meson-exchange CD-Bonn potential, neutron-neutron potentials with various 1S0 scattering lengths such as as=-12070fm and +21fm are constructed. Such potentials are renormalized with rigorous procedures to give the corresponding as-equivalent low-momentum potentials Vlow-k, with which the low-momentum particle-particle hole-hole ring diagrams are summed up to all orders, giving the ground state energy E0 of neutron matter for various scattering lengths. At the limit of as ∞, our calculated ratio of E0 to that of the non-interacting case is found remarkably close to a constant of 0.44 over a wide range of Fermi-momenta. This result reveals an universality that is well consistent with the recent experimental and Monte-Carlo computational study on low-density cold Fermi gas at the unitary limit. The overall behavior of this ratio obtained with various scattering lengths is presented and discussed. Ring-diagram results obtained with Vlow-k and those with G-matrix interactions are compared.