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The Landau equation as a gradient Flow

José A. Carrillo, Matías G. Delgadino, Laurent Desvillettes, Jeremy Wu

2024Analysis & PDE17 citationsDOIOpen Access PDF

Abstract

We propose a gradient flow perspective to the spatially homogeneous Landau equation for soft potentials. We construct a tailored metric on the space of probability measures based on the entropy dissipation of the Landau equation. Under this metric, the Landau equation can be characterized as the gradient flow of the Boltzmann entropy. In particular, we characterize the dynamics of the PDE through a functional inequality which is usually referred as the energy dissipation inequality (EDI). Furthermore, analogous to the optimal transportation setting, we show that this interpretation can be used in a minimizing movement scheme to construct solutions to a regularized Landau equation.

Topics & Concepts

Balanced flowMathematicsBoltzmann equationEntropy (arrow of time)Boltzmann's entropy formulaStatistical physicsDissipationMetric (unit)Mathematical analysisPhysicsQuantum mechanicsEconomicsOperations managementGeometric Analysis and Curvature FlowsNonlinear Partial Differential EquationsMarkov Chains and Monte Carlo Methods