Three-dimensional correlated-fermion phase separation from analysis of the geometric mean of the individual susceptibilities

Abstract

A quasi-Gaussian approximation scheme is formulated to study the strongly correlated imbalanced fermions thermodynamics, where the mean-field theory is not applicable. The non-Gaussian correlation effects are understood to be captured by the statistical geometric mean of the individual susceptibilities. In the three-dimensional unitary fermions ground state, an universal non-linear scaling transformation relates the physical chemical potentials with the individual Fermi kinetic energies. For the partial polarization phase separation to full polarization, the calculated critical polarization ratio is PC=[1-(1-)6/5]/[1+(1-)6/5] 0.34. The =4/9 defines the ratio of the symmetric ground state energy density to that of the ideal fermion gas.