One-dimensional Gagliardo-Nirenberg-Sobolev inequalities: Remarks on duality and flows
Résumé
This paper is devoted to one-dimensional interpolation Gagliardo-Nirenberg-Sobolev inequalities. We study how various notions of duality, transport and monotonicity of functionals along flows defined by some nonlinear diffusion equations apply. We start by reducing the inequality to a much simpler dual variational problem using mass transportation theory. Our second main result is devoted to the construction of a Lyapunov functional associated with a nonlinear diffusion equation, that provides an alternative proof of the inequality. The key observation is that the inequality on the line is equivalent to Sobolev's inequality on the sphere, at least when the dimension is an integer, or to the critical interpolation inequality for the ultraspherical operator in the general case. The time derivative of the functional along the flow is itself very interesting. It explains the machinery of some rigidity estimates for nonlinear elliptic equations and shows how eigenvalues of a linearized problem enter in the computations. Notions of gradient flows are then discussed for various notions of distances. Throughout this paper we shall deal with two classes of inequalities corresponding either to p>2 or to p<2. The algebraic part in the computations is very similar in both cases, although the case p<2 is definitely less standard.
Mots clés
duality
interpolation
Gagliardo-Nirenberg-Sobolev inequalities
optimal constants
optimal transport
continuity equation
action functional
gradient flow
distance on measure spaces
heat equation
fast diffusion equation
Barenblatt solutions
second moment
sharp rates
stereographic projection
Emden-Fowler transformation
Origine | Fichiers produits par l'(les) auteur(s) |
---|
Loading...