Calculus of Variations and Geometric Measure Theory
home | mail | papers | authors | news | seminars | events | open positions | login

H. Lavenant

Time-convexity of the entropy in the multiphasic formulation of the incompressible Euler equation

created by lavenant on 20 Jan 2017
modified on 06 Sep 2017


Submitted Paper

Inserted: 20 jan 2017
Last Updated: 6 sep 2017

Year: 2017


We study the multiphasic formulation of the incompressible Euler equation introduced by Brenier: infinitely many phases evolve according to the compressible Euler equation and are coupled through a global incompressibility constraint. In a convex domain, we are able to prove that the entropy, when averaged over all phases, is a convex function of time, a result that was conjectured by Brenier. The novelty in our approach consists in introducing a time-discretization that allows us to import a flow interchange inequality previously used by Matthes, McCann and Savaré to study first order in time PDE, namely the JKO scheme associated with non-linear parabolic equations.

Keywords: Euler equations, Wasserstein space, Flow interchange


Credits | Cookie policy | HTML 5 | CSS 2.1