We investigate the nature of superfluid pairing in a strongly interacting Fermi gas near orbital Feshbach resonances with spin-population imbalance in three dimensions, which can be well described by a two-band or two-channel model. We show that a Sarma superfluid with gapless single-particle excitations is favored in the closed channel at large imbalance. It is thermodynamically stable against the formation of an inhomogeneous Fulde-Ferrell-Larkin-Ovchinnikov superfluid and features a well-defined Goldstone-Anderson-Bogoliubov phonon mode and a massive Leggett mode as collective excitations at low momentum. At large momentum, the Leggett mode disappears and the phonon mode becomes damped at zero temperature, due to the coupling to the particle-hole excitations. We discuss possible experimental observation of a strongly interacting Sarma superfluid with ultracold alkaline-earth-metal Fermi gases.
Funding
ARC | FT140100003
ARC | DP180102018
ARC | FT130100815
ARC | DP170104008
Many-Body Localisation of Ultracold Fermionic Atoms in a Dirty Flat Land : Australian Research Council (ARC) | DP170104008
Imbalanced superfluidity with cold atoms: a new way to understand unconventional superconductors and stellar superfluids : Australian Research Council (ARC) | FT130100815
Finding the lost particle: Majorana fermions in ultracold atoms : Australian Research Council (ARC) | FT140100003
Revealing universal exotic superfluidity with ultracold fermionic atoms : Australian Research Council (ARC) | DP180102018