Entropy methods for reaction-diffusion equations: slowly growing a-priori bounds | Zendy

Laurent Desvillettes | Zendy; Klemens Fellner | Zendy

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Entropy methods for reaction-diffusion equations: slowly growing a-priori bounds

Author(s) -

Laurent Desvillettes,

Klemens Fellner

Publication year - 2008

Publication title -

revista matemática iberoamericana

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.569

H-Index - 52

eISSN - 2235-0616

pISSN - 0213-2230

DOI - 10.4171/rmi/541

Subject(s) - a priori and a posteriori , reaction–diffusion system , mathematics , statistical physics , entropy (arrow of time) , diffusion , physics , mathematical analysis , thermodynamics , philosophy , epistemology

In the continuation of [Desvillettes, L., Fellner, K.: Exponential Decay toward Equilibrium via Entropy Methods for Reaction-Diffusion Equations. J. Math. Anal. Appl. 319 (2006), no. 1, 157-176], we study reversible reaction-diffusion equations via entropy methods (based on the free energy functional) for a 1D system of four species. We improve the existing theory by getting 1) almost exponential convergence in L1 to the steady state via a precise entropy-entropy dissipation estimate, 2) an explicit global L∞ bound via interpolation of a polynomially growing H1 bound with the almost exponential L1 convergence, and 3), finally, explicit exponential convergence to the steady state in all Sobolev norms

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