Finite-range model potentials for resonant interactions

Abstract

We show that it is possible to model two-body resonant interactions at low energy with a class of finite-range potentials based on the methods of Jost and Kohn. These potentials are expressed in terms of the effective range r0 and the s-wave scattering length as. We derive continuum solutions of these potentials. By writing V(r) = V0(r) + Vε(r), where the sign +(-) refers to positive(negative) scattering length, V0(r) is of the form of P\"oschl-Teller potential and Vε is expressed as a power series of the small parameter ε = (1 - 2 r0/as)-1 - 1 when as is large, we derive Green function of V0(r). Using the Green function, solutions of V(r) for |as| >\!> r0 can be obtained numerically by treating Vε(r)as a perturbation. We describe the threshold behavior of scattering phase shift for V0(r). This study may be important for developing a better understanding of physics of strongly interacting ultracold atomic gases with tunable interactions.