Topological effects on transition temperatures and response functions in three-dimensional Fermi superfluids

Abstract

We investigate the effects of topological order on the transition temperature, Tc, and response functions in fermionic superfluids with Rashba spin-orbit coupling and a transverse Zeeman field in three dimensions. Our calculations, relevant to the ultracold atomic Fermi gases, include fluctuations beyond mean-field theory and are compatible with f-sum rules. Reminiscent of the px + i py superfluid, the topological phase is stabilized when driven away from the Bose-Einstein condensation and towards the BCS limit. Accordingly, while experimentally accessible, Tc is significantly suppressed in a topological superfluid. Above Tc, the spin and density response functions provide signatures of topological phases via the recombination or amplification of frequency dependent peaks.