Wave-driven phase wave patterns in a ring of FitzHugh-Nagumo oscillators

Daniel Cebrián-Lacasa, Marcin Leda, Andrew B. Goryachev, Lendert Gelens
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Abstract

We explore a biomimetic model that simulates a cell, with the internal cytoplasm represented by a two-dimensional circular domain and the external cortex by a surrounding ring, both modeled using FitzHugh-Nagumo systems. The external ring is dynamically influenced by a pacemaker-driven wave originating from the internal domain, leading to the emergence of three distinct dynamical states based on the varying strengths of coupling. The range of dynamics observed includes phase patterning, the propagation of phase waves, and interactions between traveling and phase waves. A simplified linear model effectively explains the mechanisms behind the variety of phase patterns observed, providing insights into the complex interplay between a cell's internal and external environments.
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菲茨休-纳古莫振荡器环中的波驱动相位波模式
我们探索了一个模拟细胞的仿生模型,细胞内部的细胞质由一个二维环形域表示,细胞外部的皮质由一个环形环表示,两者都使用菲茨休-纳古莫系统建模。外环在动力学上受到源自内部领域的起搏器驱动波的影响,从而根据耦合强度的不同出现了三种不同的动力学状态。观察到的动态范围包括相位模式、相位波的传播以及行波和相位波之间的相互作用。简化的线性模式有效地解释了观察到的各种相位模式背后的机制,为了解细胞内部和外部环境之间复杂的相互作用提供了见解。
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