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dc.contributor.authorMouhot, Clément
dc.contributor.authorMischler, Stéphane
dc.subjecthard spheresen
dc.subjectnon cutoffen
dc.subjectMaxwell moleculesen
dc.subjectBoltzmann equationen
dc.subjectcollision processen
dc.subjectjump processen
dc.subjectuniform in timeen
dc.subjectmean-field limiten
dc.subjectmaster equationen
dc.subjectkinetic theoryen
dc.subjectKac's programen
dc.titleKac's Program in Kinetic Theoryen
dc.typeArticle accepté pour publication ou publié
dc.contributor.editoruniversityotherDPMMS/CMS University of Cambridge;Royaume-Uni
dc.description.abstractenThis paper is devoted to the study of propagation of chaos and mean-field limit for systems of indistinguable particles undergoing collision processes, as formulated by M. Kac (1956) for a simplified model and extended by H. P. McKean (1967) to the Boltzmann equation. We prove quantitative and uniform in time estimates measuring the distance between the many-particle system and the limit system. These estimates imply in particular the propagation of chaos for marginals in weak measure distances but are more general: they hold for non-chaotic initial data and control the complete many-particle distribution. We also prove the propagation of entropic chaos, as defined in [12], answering a question of Kac about the microscopic derivation of the H-theorem. We finally prove estimates of relaxation to equilibrium (in Wasserstein distance and relative entropy) independent of the number of particles. Our results cover the two main Boltzmann physical collision processes with unbounded collision rates: hard spheres and true Maxwell molecules interactions. Starting from an inspirative paper of A. Grünbaum (1971) we develop a new method which reduces the question of propagation of chaos to the one of proving a purely functional estimate on some generator operators (consistency estimates) together with fine differentiability estimates on the flow of the limit non-linear equation (stability estimates). These results provide the first answer to the question raised by Kac of relating the long-time behavior of a collisional particle system with the one of its mean-field limit, however using dissipativity at the level of the mean-field limit instead of using it at the level of the many-particle Markov process.en
dc.relation.isversionofjnlnameInventiones Mathematicae
dc.subject.ddclabelProbabilités et mathématiques appliquéesen

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