Trapped Yb173 Fermi gas across an orbital Feshbach resonance

Abstract

Starting with the two-band description of an orbital Feshbach resonance, we study superfluid properties of a trapped $^{173}\mathrm{Yb}$ Fermi gas under the assumptions of a local-density approximation for the trapping potential and a mean-field approximation for the intraband Cooper pairings. In particular, we investigate the competition and interplay between the pair-breaking effect that is caused by the interband detuning energy, and the pair-breaking and thermal-broadening effects that are simultaneously caused by the temperature. We predict several experimental signatures that are directly caused by this interplay including a spatial separation of superfluid and normal phases within the trap, and could play decisive roles in probing two-band superfluidity in these systems.