设计具有图灵和波不稳定性的反应-交叉扩散系统

arXiv - PHYS - Pattern Formation and Solitons Pub Date : 2024-09-10 DOI:arxiv-2409.06860

Edgardo Villar-Sepúlveda, Alan R. Champneys, Andrew L. Krause

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摘要

建立了反应-交叉扩散系统发生时空模式形成不稳定性的一般条件。最近的研究集中于从理论和实验上设计具有特定特征的系统，但非对角扩散矩阵的情况尚未得到分析。本文提出了一个框架，用于设计表现出给定波长的图灵和波不稳定性的一般 $n$ 分量反应交叉扩散系统。对于一组固定的反应动力学，说明了如何选择能产生每种不稳定性的扩散矩阵；反之，对于给定的扩散张量，说明了如何选择线性化动力学。该理论被应用于几个例子，包括双曲反应-扩散系统、两种不同的 3 分量模型，以及疟疾传播的罗斯-麦克唐纳模型的时相版本。

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Designing reaction-cross-diffusion systems with Turing and wave instabilities

General conditions are established under which reaction-cross-diffusion systems can undergo spatiotemporal pattern-forming instabilities. Recent work has focused on designing systems theoretically and experimentally to exhibit patterns with specific features, but the case of non-diagonal diffusion matrices has yet to be analysed. Here, a framework is presented for the design of general $n$-component reaction-cross-diffusion systems that exhibit Turing and wave instabilities of a given wavelength. For a fixed set of reaction kinetics, it is shown how to choose diffusion matrices that produce each instability; conversely, for a given diffusion tensor, how to choose linearised kinetics. The theory is applied to several examples including a hyperbolic reaction-diffusion system, two different 3-component models, and a spatio-temporal version of the Ross-Macdonald model for the spread of malaria.

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arXiv - PHYS - Pattern Formation and Solitons

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