Generalized Crossover in Interacting Fermions within the Low-Energy Expansion

Abstract

We generalize the Bardeen-Cooper-Schrieffer-Bose-Einstein-condensation (BCS-BEC) crossover of two-component fermions, which is realized by tuning the s-wave scattering length a between the fermions, to the case of an arbitrary effective range r e. By using the Nozi\`eres-Schmitt-Rink (NSR) approach, we show another crossover by changing r e and present several similarities and differences between these two crossovers. Furthermore, the region (r e>a/2) where the effective range expansion breaks down and the Hamiltonian becomes non-Hermitian is found, being consistent with the Wigner's causality bound. Our results are universal for low-density interacting fermions with low-energy constants a and r e and are directly relevant to ultracold Fermi atomic gases as well as dilute neutron matter.