Non-Universal and Universal Aspects of The Large Scattering Length Limit

Abstract

The momentum density, n(k) of interacting many-body Fermionic systems is studied (for k>kF) using examples of several well-known two-body interaction models. This work shows that n(k) can not be approximated by a zero-range model for momenta k greater than about 1/(a re2)1/3, where a is the scattering length, and re the effective range. However, if the scattering length is large and one includes the effects of a fixed value of re0, n(k) is universal for momenta k up to about 2/re. An accurate relation between the energy of a two component Fermi-gas and an integral involving the density is derived. The short separation distance, s, behavior of the pair density is shown to vary as s6.