Exponential convergence to equilibrium for coupled systems of nonlinear degenerate drift diffusion equations

Abstract

We study the existence and long-time asymptotics of weak solutions to a system of two nonlinear drift-diffusion equations that has a gradient flow structure in the Wasserstein distance. The two equations are coupled through a cross-diffusion term that is scaled by a parameter 0. The nonlinearities and potentials are chosen such that in the decoupled system for =0, the evolution is metrically contractive, with a global rate >0. The coupling is a singular perturbation in the sense that for any >0, contractivity of the system is lost. Our main result is that for all sufficiently small >0, the global attraction to a unique steady state persists, with an exponential rate =-K. The proof combines results from the theory of metric gradient flows with further variational methods and functional inequalities.

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