Functional inequalities: nonlinear flows and entropy methods as a tool for obtaining sharp and constructive results
Résumé
Interpolation inequalities play an essential role in Analysis with fundamental consequences in Mathematical Physics, Nonlinear Partial Differential Equations (PDEs), Markov Processes, etc., and have a wide range of applications in various other areas of Science. Research interests have evolved over the years: while mathematicians were originally focussed on abstract properties (for instance appropriate notions of functional spaces for the existence of weak solutions in PDEs), more qualitative questions (for instance, bifurcation diagrams, multiplicity of the solutions in PDEs and their qualitative behaviour) progressively emerged. The use of entropy methods in nonlinear PDEs is a typical example: in some cases, the optimal constant in the inequality can be interpreted as an optimal rate of decay of an entropy for an associated evolution equation. Much more has been learned by adopting this point of view.
This paper aims at illustrating some of these recent aspect of entropyentropy production inequalities, with applications to stability in Gagliardo-Nirenberg-Sobolev inequalities and symmetry results in Caffarelli-Kohn-Nirenberg inequalities. Entropy methods provide a framework which relates nonlinear regimes with their linearized counterparts. This framework allows to prove optimality results, symmetry results and stability estimates. Some emphasis will be put on the hidden structure which explain such properties. Related open problems will be listed.
Mots clés
Gagliardo-Nirenberg inequality
Caffarelli-Kohn-Nirenberg inequality
stability
entropy methods
entropy-entropy production inequality
carré du champ
fast diffusion equation
Harnack Principle
asymptotic behaviour
Hardy-Poincaré inequalities
spectral gap
intermediate asymptotics
self-similar Barenblatt solutions
rates of convergence
symmetry
symmetry breaking
bifurcation
Interpolation
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