Thierry Bodineau, Isabelle Gallagher, Laure Saint-Raymond, Sergio Simonella
Published 2020-12-07Version 1
It has been known since Lanford [19] that the dynamics of a hard sphere gas is described in the low density limit by the Boltzmann equation, at least for short times. The classical strategy of proof fails for longer times, even close to equilibrium. In this paper, we introduce a duality method coupled with a pruning argument to prove that the covariance of the fluctuations around equilibrium is governed by the linearized Boltzmann equation globally in time (including in diffusive regimes). This method is much more robust and simple than the one devised in [4] which was specific to the 2D case.
Nernst-Planck-Navier-Stokes systems near equilibrium
Long-time derivation at equilibrium of the fluctuating Boltzmann equation
On the speed of approach to equilibrium for a collisionless gas
![QR code for arXiv:2012.03813 [math.AP]](http://oss.arxitics.com/images/favicon.svg)