Analytical and Geometric Foundations and Modern Applications of Kinetic Equations and Optimal Transport

Analytical and Geometric Foundations and Modern Applications of Kinetic Equations and Optimal Transport

We develop a unified analytical framework that systematically connects kinetic theory, optimal transport, and entropy dissipation through the novel integration of hypocoercivity methods with geometric structures. Building upon but distinctly extending classical hypocoercivity approaches, we demonstr...

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Bibliographic Details
Main Authors: Cécile Barbachoux, Joseph Kouneiher
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Axioms
Subjects:
kinetic theory
Boltzmann equation
hypercoercivity
entropy dissipation
optimal transport
Wasserstein geometry
Online Access:https://www.mdpi.com/2075-1680/14/5/350
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Summary:We develop a unified analytical framework that systematically connects kinetic theory, optimal transport, and entropy dissipation through the novel integration of hypocoercivity methods with geometric structures. Building upon but distinctly extending classical hypocoercivity approaches, we demonstrate how geometric control, via commutators and curvature-like structures in probability spaces, resolves degeneracies inherent in kinetic operators. Centered around the Boltzmann and Fokker–Planck equations, we derive sharp exponential convergence estimates under minimal regularity assumptions, improving on prior methods by incorporating Wasserstein gradient flow techniques. Our framework is further applied to the study of hydrodynamic limits, collisional relaxation in magnetized plasmas, the Vlasov–Poisson system, and modern data-driven algorithms, highlighting the central role of entropy as both a physical and variational tool across disciplines. By bridging entropy dissipation, optimal transport, and geometric analysis, our work offers a new perspective on stability, convergence, and structure in high-dimensional kinetic models and applications.
ISSN:2075-1680

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