Equation of state of superfluid neutron matter and the calculation of 1S0 pairing gap

Abstract

We present a Quantum Monte Carlo study of the zero temperature equation of state of neutron matter and the computation of the 1S0 pairing gap in the low-density regime with <0.04 fm-3. The system is described by a non-relativistic nuclear Hamiltonian including both two-- and three--nucleon interactions of the Argonne and Urbana type. This model interaction provides very accurate results in the calculation of the binding energy of light nuclei. A suppression of the gap with respect to the pure BCS theory is found, but sensibly weaker than in other works that attempt to include polarization effects in an approximate way.