Advection-diffusion dynamics with nonlinear boundary flux as a model for crystal growth

Antoine Pauthier; Arnd Scheel

doi:10.1002/mana.201900159

Advection-diffusion dynamics with nonlinear boundary flux as a model for crystal growth

Antoine Pauthier, Arnd Scheel

Mathematics

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3 Scopus citations

Abstract

We analyze the effect of nonlinear boundary conditions on an advection-diffusion equation on the half-line. Our model is inspired by models for crystal growth where diffusion models diffusive relaxation of a displacement field, advection is induced by apical growth, and boundary conditions incorporate non-adiabatic effects on displacement at the boundary. The equation, in particular the boundary fluxes, possesses a discrete gauge symmetry, and we study the role of simple, entire solutions, here periodic, homoclinic, or heteroclinic relative to this gauge symmetry, in the global dynamics.

Original language	English (US)
Pages (from-to)	1565-1590
Number of pages	26
Journal	Mathematische Nachrichten
Volume	293
Issue number	8
DOIs	https://doi.org/10.1002/mana.201900159
State	Published - Aug 1 2020

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© 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

Keywords

advection-diffusion
convergence
long time dynamics
phase diffusion

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AU - Scheel, Arnd

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N2 - We analyze the effect of nonlinear boundary conditions on an advection-diffusion equation on the half-line. Our model is inspired by models for crystal growth where diffusion models diffusive relaxation of a displacement field, advection is induced by apical growth, and boundary conditions incorporate non-adiabatic effects on displacement at the boundary. The equation, in particular the boundary fluxes, possesses a discrete gauge symmetry, and we study the role of simple, entire solutions, here periodic, homoclinic, or heteroclinic relative to this gauge symmetry, in the global dynamics.

AB - We analyze the effect of nonlinear boundary conditions on an advection-diffusion equation on the half-line. Our model is inspired by models for crystal growth where diffusion models diffusive relaxation of a displacement field, advection is induced by apical growth, and boundary conditions incorporate non-adiabatic effects on displacement at the boundary. The equation, in particular the boundary fluxes, possesses a discrete gauge symmetry, and we study the role of simple, entire solutions, here periodic, homoclinic, or heteroclinic relative to this gauge symmetry, in the global dynamics.

KW - advection-diffusion

KW - convergence

KW - long time dynamics

KW - phase diffusion

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Advection-diffusion dynamics with nonlinear boundary flux as a model for crystal growth

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