From gas dynamics with large friction to gradient flows describing diffusion theories

Corrado Lattanzio; Athanasios E. Tzavaras

doi:10.1080/03605302.2016.1269808

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From gas dynamics with large friction to gradient flows describing diffusion theories

Journal article

Peer reviewed

From gas dynamics with large friction to gradient flows describing diffusion theories

Corrado Lattanzio and Athanasios E. Tzavaras

Communications in partial differential equations, Vol.42(2), pp.261-290

01/02/2017

DOI: https://doi.org/10.1080/03605302.2016.1269808

Abstract

Cahn-Hilliard equation

diffusive relaxation

Euler-Poisson

gradient flows

Keller-Segel system

relative energy

We study the emergence of gradient flows in Wasserstein distance as high friction limits of an abstract Euler flow generated by an energy functional. We develop a relative energy calculation that connects the Euler flow to the gradient flow in the diffusive limit regime. We apply this approach to prove convergence from the Euler-Poisson system with friction to the Keller-Segel system in the regime that the latter has smooth solutions. The same methodology is used to establish convergence from the Euler-Korteweg theory with monotone pressure laws to the Cahn-Hilliard equation.

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Title: From gas dynamics with large friction to gradient flows describing diffusion theories
Creators - without role: Corrado Lattanzio - University of L'Aquila
Athanasios E. Tzavaras - King Abdullah University of Science and Technology
Publication Details: Communications in partial differential equations, Vol.42(2), pp.261-290
Publisher: Taylor & Francis
Grant note: AET was supported by funding from King Abdullah University of Science and Technology.
Identifiers: 9942469608331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article