Derivation of Gibbs measure from Gibbs state with the fractional Bessel interaction in Two Dimensions

Abstract

We derive the classical Gibbs measure on T2 associated with the fractional Bessel interaction potential vβ(k)= k-β from a renormalized grand-canonical quantum Bose gas with the same interaction. Our result covers the whole range 32<β≤2, where vβ(k) is not summable and the quantum model cannot be written in the usual density-square form, as the associated self-energy diverges. We therefore need to renormalize the zero mode by a centered number-fluctuation term and then develop a detailed analysis for the high-frequency remainders. All this allows us to implement a low-frequency localization and obtain the convergence of the quantum relative free energy to the classical fractional-Bessel free energy, as well as the convergence of the reduced density matrices to the limiting Gibbs measure.