Effective interaction between molecules in the BEC regime of a superfluid Fermi gas

Abstract

We investigate the effective interaction between Cooper-pair molecules in the st rong-coupling BEC regime of a superfluid Fermi gas with a Feshbach resonance. Our work uses a path integral formulation and a renormalization group (RG) analy sis of fluctuations in a single-channel model. We show that a physical cutoff en ergy ωc originating from the finite molecular binding energy is the key to understanding the interaction between molecules in the BEC regime. Our work t hus clarifies recent results by showing that a M=2a F is a ba re molecular scattering length while a M=(0.60.75) a F is the low energy molecular scattering length renormalized to include high-energy scat tering up to ωc (here a F is the scattering length between Fermi atoms). We also include many-body effects at finite temperatures. We find that a M is strongly dependent on temperature, vanishing at T c, consistent with the earlier Bose gas results of Bijlsma and Stoof.

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