Thermodynamics of a Fermi liquid beyond the low-energy limit

Abstract

We consider the non-analytic temperature dependences of the specific heat coefficient, C(T)/T, and spin susceptibility, s (T), of 2D interacting fermions beyond the weak-coupling limit. We demonstrate within the Luttinger-Ward formalism that the leading temperature dependences of C(T)/T and s (T) are linear in T, and are described by the Fermi liquid theory. We show that these temperature dependences are universally determined by the states near the Fermi level and, for a generic interaction, are expressed via the spin and charge components of the exact backscattering amplitude of quasi-particles. We compare our theory to recent experiments on monolayers of 3He.

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