Amplitude equations for wave bifurcations in reaction–diffusion systems

IF 1.6 2区数学 Q2 MATHEMATICS, APPLIED Nonlinearity Pub Date : 2024-07-10 DOI:10.1088/1361-6544/ad5e56

Edgardo Villar-Sepúlveda and Alan Champneys

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Abstract

A wave bifurcation is the counterpart to a Turing instability in reaction–diffusion systems, but where the critical wavenumber corresponds to a pure imaginary pair rather than a zero temporal eigenvalue. Such bifurcations require at least three components and give rise to patterns that are periodic in both space and time. Depending on boundary conditions, these patterns can comprise either rotating or standing waves. Restricting to systems in one spatial dimension, complete formulae are derived for the evaluation of the coefficients of the weakly nonlinear normal form of the bifurcation up to order five, including those that determine the criticality of both rotating and standing waves. The formulae apply to arbitrary n-component systems ( ) and their evaluation is implemented in software which is made available as supplementary material. The theory is illustrated on two different versions of three-component reaction–diffusion models of excitable media that were previously shown to feature super- and subcritical wave instabilities and on a five-component model of two-layer chemical reaction. In each case, two-parameter bifurcation diagrams are produced to illustrate the connection between complex dispersion relations and different types of Hopf, Turing, and wave bifurcations, including the existence of several codimension-two bifurcations.

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反应扩散系统中波分岔的振幅方程

波分岔与反应扩散系统中的图灵不稳定性相对应，但临界波数对应的是纯虚数对而不是零时间特征值。这种分岔至少需要三个分量，并产生在空间和时间上都具有周期性的模式。根据边界条件的不同，这些模式可以由旋转波或驻波组成。限于一个空间维度的系统，我们推导出了完整的公式，用于评估分岔的弱非线性法线形式系数，最高可达五阶，包括那些决定旋转波和驻波临界度的系数。这些公式适用于任意的 n 分量系统（），其评估由软件实现，该软件作为补充材料提供。该理论在两个不同版本的可激发介质三分量反应扩散模型和一个双层化学反应五分量模型上得到了说明，前者曾被证明具有超临界和亚临界波不稳定性。在每种情况下，都绘制了双参数分岔图，以说明复杂弥散关系与不同类型的霍普夫分岔、图灵分岔和波分岔之间的联系，包括几种同维度-2 分岔的存在。

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来源期刊

Nonlinearity 物理-物理：数学物理

CiteScore

3.00

自引率

5.90%

发文量

170

审稿时长

12 months

期刊介绍： Aimed primarily at mathematicians and physicists interested in research on nonlinear phenomena, the journal''s coverage ranges from proofs of important theorems to papers presenting ideas, conjectures and numerical or physical experiments of significant physical and mathematical interest. Subject coverage: The journal publishes papers on nonlinear mathematics, mathematical physics, experimental physics, theoretical physics and other areas in the sciences where nonlinear phenomena are of fundamental importance. A more detailed indication is given by the subject interests of the Editorial Board members, which are listed in every issue of the journal. Due to the broad scope of Nonlinearity, and in order to make all papers published in the journal accessible to its wide readership, authors are required to provide sufficient introductory material in their paper. This material should contain enough detail and background information to place their research into context and to make it understandable to scientists working on nonlinear phenomena. Nonlinearity is a journal of the Institute of Physics and the London Mathematical Society.

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