Expected and unexpected routes to synchronization in a system of swarmalators

arXiv - PHYS - Adaptation and Self-Organizing Systems Pub Date : 2024-09-16 DOI:arxiv-2409.10039

Steve J. Kongni, Thierry Njougouo, Patrick Louodop, Robert Tchitnga, Fernando F. Ferreira, Hilda A. Cerdeira

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Abstract

Systems of oscillators whose internal phases and spatial dynamics are coupled, swarmalators, present diverse collective behaviors which in some cases lead to explosive synchronization in a finite population as a function of the coupling parameter between internal phases. Near the synchronization transition, the phase energy of the particles is represented by the XY model, and they undergo a transition which can be of the first order or second depending on the distribution of natural frequencies of their internal dynamics. The first order transition is obtained after an intermediate state (Static Wings Phase Wave state (SWPW)) from which the nodes, in cascade over time, achieve complete phase synchronization at a precise value of the coupling constant. For a particular case of natural frequencies distribution, a new phenomenon of Rotational Splintered Phase Wave state (RSpPW) is observed and leads progressively to synchronization through clusters switching alternatively from one to two and for which the frequency decreases as the phase coupling increases.

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蜂群系统同步的预期和意外途径

内部相位和空间动力学耦合的振荡器系统--蜂群振荡器--呈现出多种多样的集体行为，在某些情况下，这些集体行为会导致有限群体中的爆炸性同步，这与内部相位之间的耦合参数有关。在接近同步过渡时，粒子的相能由 XY 模型表示，它们会经历一阶或二阶过渡，这取决于其内部动力学的固有频率分布。一阶转换是在一个中间状态（静态翼相波状态（SWPW））之后发生的，从该状态开始，各节点以级联的方式在一个精确的耦合常数值上实现完全的相位同步。在固有频率分布的特殊情况下，观察到一种新的现象，即旋转分裂相位波状态（RSpPW），通过从一个到两个交替切换的簇逐步实现同步，其频率随着相位耦合的增加而降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Adaptation and Self-Organizing Systems

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