Exponential convergence to equilibrium for the homogeneous Boltzmann equation for hard potentials without cut-off

Abstract

This paper deals with the long time behavior of solutions to the spatially homogeneous Boltzmann equation. The interactions considered are the so-called (non cut-off and non mollified) hard potentials. We prove an exponential in time convergence towards the equilibrium, improving results of Villani from Vill1 where a polynomial decay to equilibrium is proven. The basis of the proof is the study of the linearized equation for which we prove a new spectral gap estimate in a L1 space with a polynomial weight by taking advantage of the theory of enlargement of the functional space for the semigroup decay developed by Gualdani and al in GMM. We then get our final result by combining this new spectral gap estimate with bilinear estimates on the collisional operator that we establish.