Polarization Measurements and the Pairing Gap in the Universal Regime

Abstract

We analyze recent cold-atom experiments on imbalanced Fermi systems using a minimal model with a BCS-like superfluid phase coexisting with a normal phase. This model is used to extract the T=0 pairing gap in the fully paired superfluid state. The recently measured particle density profiles are in good agreement with the theoretical predictions obtained from the universal parameters from previous Quantum Monte Carlo calculations. We find that the T=0 pairing gap is greater than 0.4 times the Fermi energy EF, with a preferred value of 0.45 0.05 EF. The ratio of the pairing gap to the Fermi Energy EF is larger here than in any other system of strongly-paired fermions in which individual pairs are unbound.