Amplitude chimeras and bump states with and without frequency entanglement: a toy model

IF 2.6 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Journal of Physics Complexity Pub Date : 2024-05-09 DOI:10.1088/2632-072x/ad4228
A Provata
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Abstract

When chaotic oscillators are coupled in complex networks a number of interesting synchronization phenomena emerge. Notable examples are the frequency and amplitude chimeras, chimera death states, solitary states as well as combinations of these. In a previous study (Provata 2020 J. Phys. Complex. 1 025006), a toy model was introduced addressing possible mechanisms behind the formation of frequency chimera states. In the present study a variation of the toy model is proposed to address the formation of amplitude chimeras. The proposed oscillatory model is now equipped with an additional 3rd order equation modulating the amplitude of the network oscillators. This way, the single oscillators are constructed as bistable in amplitude and depending on the initial conditions their amplitude may result in one of the two stable fixed points. Numerical simulations demonstrate that when these oscillators are nonlocally coupled in networks, they organize in domains with alternating amplitudes (related to the two fixed points), naturally forming amplitude chimeras. A second extension of this model incorporates nonlinear terms merging amplitude together with frequency, and this extension allows for the spontaneous production of composite amplitude-and-frequency chimeras occurring simultaneously in the network. Moreover the extended model allows to understand the emergence of bump states via the continuous passage from chimera states, when both fixed point amplitudes are positive, to bump states when one of the two fixed points vanishes. The synchronization properties of the network are studied as a function of the system parameters for the case of amplitude chimeras, bump states and composite amplitude-and-frequency chimeras. The proposed mechanisms of creating domains with variable amplitudes and/or frequencies provide a generic scenario for understanding the formation of the complex synchronization phenomena observed in networks of coupled nonlinear and chaotic oscillators.
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有频率纠缠和无频率纠缠的振幅嵌合体和凹凸态:一个玩具模型
当混沌振荡器在复杂网络中耦合时,会出现许多有趣的同步现象。值得注意的例子有频率和振幅嵌合体、嵌合体死亡状态、孤独状态以及这些现象的组合。在之前的一项研究(Provata 2020 J. Phys. Complex.1 025006)中,介绍了一个玩具模型,探讨了频率嵌合体状态形成背后的可能机制。本研究提出了玩具模型的变体,以解决振幅嵌合体的形成问题。所提出的振荡模型现在增加了一个调节网络振荡器振幅的三阶方程。这样,单振荡器就被构造成振幅双稳态,根据初始条件,它们的振幅可能形成两个稳定定点中的一个。数值模拟证明,当这些振荡器在网络中非局部耦合时,它们会在振幅交替(与两个固定点相关)的域中组织起来,自然形成振幅嵌合体。该模型的第二个扩展部分包含了将振幅与频率合并在一起的非线性项,这一扩展允许在网络中同时自发产生振幅与频率的复合嵌合体。此外,该扩展模型还能通过从嵌合体状态(当两个固定点振幅均为正值时)到凹凸状态(当两个固定点中的一个消失时)的连续传递,理解凹凸状态的出现。针对振幅嵌合体、凹凸状态和振幅频率复合嵌合体,研究了网络同步特性与系统参数的函数关系。所提出的创建具有可变振幅和/或频率的域的机制,为理解在耦合非线性和混沌振荡器网络中观察到的复杂同步现象的形成提供了一个通用方案。
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来源期刊
Journal of Physics Complexity
Journal of Physics Complexity Computer Science-Information Systems
CiteScore
4.30
自引率
11.10%
发文量
45
审稿时长
14 weeks
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