Zero density limit extrapolation of the superfluid transition temperature in a unitary atomic Fermi gas on a lattice

Abstract

The superfluid transition temperature Tc of a unitary Fermi gas on a three-dimensional isotropic lattice with an attractive on-site interaction is investigated as a function of density n, from half filling down to 5.0× 10-7 per unit cell, using a pairing fluctuation theory. We show that except at very low densities (n1/3 <0.2), where Tc/EF is linear in n1/3, Tc/EF exhibits significant higher order nonlinear dependence on n1/3. Therefore, linear extrapolation using results at intermediate densities such as in typical quantum Monte Carlo simulations leads to a significant underestimate of the zero density limit of Tc/EF. Our result, Tc/EF=0.256, at n=0 is subject to reduction from particle-hole fluctuations and incoherent single particle self energy corrections.