Stability of a planar front in a class of reaction-diffusion systems

A. Ghazaryan; Y. Latushkin; X. Yang

doi:10.1137/17M1161592

Stability of a planar front in a class of reaction-diffusion systems

A. Ghazaryan, Y. Latushkin, X. Yang

Department of Applied Mathematics

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

We study the planar front solution for a class of reaction diffusion equations in multidimensional space in the case when the essential spectrum of the linearization in the direction of the front touches the imaginary axis. At the linear level, the spectrum is stabilized by using an exponential weight. A priori estimates for the nonlinear terms of the equation governing the evolution of the perturbations of the front are obtained when perturbations belong to the intersection of the exponentially weighted space with the original space without a weight. These estimates are then used to show that in the original norm, initially small perturbations to the front remain bounded, while in the exponentially weighted norm, they algebraically decay in time.

Original language	English
Pages (from-to)	5569-5615
Number of pages	47
Journal	SIAM Journal on Mathematical Analysis
Volume	50
Issue number	5
DOIs	https://doi.org/10.1137/17M1161592
Publication status	Published - 2018

Keywords

Convective instability
Essential spectrum
Exponential weights
Fronts
Nonlinear stability
Planar fronts
Stability
Traveling waves

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title = "Stability of a planar front in a class of reaction-diffusion systems",

abstract = "We study the planar front solution for a class of reaction diffusion equations in multidimensional space in the case when the essential spectrum of the linearization in the direction of the front touches the imaginary axis. At the linear level, the spectrum is stabilized by using an exponential weight. A priori estimates for the nonlinear terms of the equation governing the evolution of the perturbations of the front are obtained when perturbations belong to the intersection of the exponentially weighted space with the original space without a weight. These estimates are then used to show that in the original norm, initially small perturbations to the front remain bounded, while in the exponentially weighted norm, they algebraically decay in time.",

keywords = "Convective instability, Essential spectrum, Exponential weights, Fronts, Nonlinear stability, Planar fronts, Stability, Traveling waves",

author = "A. Ghazaryan and Y. Latushkin and X. Yang",

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AU - Ghazaryan, A.

AU - Latushkin, Y.

AU - Yang, X.

PY - 2018

Y1 - 2018

N2 - We study the planar front solution for a class of reaction diffusion equations in multidimensional space in the case when the essential spectrum of the linearization in the direction of the front touches the imaginary axis. At the linear level, the spectrum is stabilized by using an exponential weight. A priori estimates for the nonlinear terms of the equation governing the evolution of the perturbations of the front are obtained when perturbations belong to the intersection of the exponentially weighted space with the original space without a weight. These estimates are then used to show that in the original norm, initially small perturbations to the front remain bounded, while in the exponentially weighted norm, they algebraically decay in time.

AB - We study the planar front solution for a class of reaction diffusion equations in multidimensional space in the case when the essential spectrum of the linearization in the direction of the front touches the imaginary axis. At the linear level, the spectrum is stabilized by using an exponential weight. A priori estimates for the nonlinear terms of the equation governing the evolution of the perturbations of the front are obtained when perturbations belong to the intersection of the exponentially weighted space with the original space without a weight. These estimates are then used to show that in the original norm, initially small perturbations to the front remain bounded, while in the exponentially weighted norm, they algebraically decay in time.

KW - Convective instability

KW - Essential spectrum

KW - Exponential weights

KW - Fronts

KW - Nonlinear stability

KW - Planar fronts

KW - Stability

KW - Traveling waves

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VL - 50

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EP - 5615

JO - SIAM Journal on Mathematical Analysis

JF - SIAM Journal on Mathematical Analysis

IS - 5

ER -

Stability of a planar front in a class of reaction-diffusion systems

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Keywords

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