Critical Zeeman Splitting of Fermi Superfluidity at Infinite Scattering Length

Abstract

We determine the critical Zeeman energy splitting for Fermi superfluidity at infinite s-wave scattering length according to the Monte Carlo and experimental results of the equations of state. Based on the universality hypothesis, we show that there exist two critical fields Hc1 and Hc2, between which a superfluid-normal mixed phase is energetically favored, and model-independent formulae for Hc1, Hc2 and the critical population imbalance Pc are derived. Using recent Monte Carlo and experimental results of Pc, Hc1 and Hc2 are determined. It is found Hc1=0.41ε F and Hc2=0.50ε F, with ε F being the Fermi energy of non-interacting gas.