Abstract

Background and Objectives: One of the actual problems in nonlinear dynamics is the formation and interaction of complex spatial structures such as chimeras and solitary states arising in multicomponent systems. Chimera states are typical for ensembles of identical oscillators with regular, chaotic, and even stochastic behavior in a case of nonlocal interaction of the elements. They represent cluster structures, including groups of elements with synchronous and non-synchronous oscillations. Chimeras were discovered and investigated in real experiments, that indicates the possibility of observing such regimes in complex systems in living nature and in technology. Solitary states are less studied today. The regime of solitary states is characterized by the synchronous behavior of most elements of the ensemble, while individual oscillators behave in a “special state”. In the present work, an ensemble of phase oscillators with inertia (rotators) is chosen as the basic model for investigation. Such ensembles with a specific coupling topology are widely used in modeling the operation of energy networks. Ensembles of rotators with nonlocal coupling are characterized by both chimera states and solitary state regimes. The problem of interaction of ensembles of rotators with nonlocal coupling and synchronization of complex spatial structures (chimeras and solitary states) formed in them has not been studied yet. Materials and Methods: A two-layer multiplex network of rotators with a nonlocal character of intralayer interactions is considered. Each layer consists of 100 elements with the same value of the coupling coefficient and coupling phase shift for each element within one layer. The interlayer coupling is symmetric. At the initial stage, with a random choice of initial conditions, steady regimes (chimeras or solitary states) in non-interacting layers were found. Next, the interlayer coupling was introduced and the evolution of the layer dynamics in the selected initial regimes was studied. Four cases of interaction with various initial states of the layers were considered. In the first case, the two layers are completely identical and demonstrate slightly different chimera structures without interlayer coupling. Their evolution with the introduction and growth of the interlayer coupling is considered for two values of the coupling phase shift. It is shown that, starting from a certain threshold value of the interlayer coupling coefficient, the complete synchronization regime is established in the layers, and the coupling phase shift significantly affects the value of the synchronization threshold. In the second case, the previous experiment is reproduced for the two layers with a frequency mismatch. Chimera states established without interlayer interaction are characterized by significantly different average frequencies of the elements in the two layers. In the presence of non-identity of the layers (in this case, frequency mismatch), the regime of complete synchronization of spatial structures is impossible. However, with an increase in the interlayer coupling coefficient, effective synchronization can be obtained which corresponds to a slight difference in the phases of rotators in the interacting layers with full frequency synchronization. In the third case, we consider the interaction between the layers in the solitary state regimes with different spatial structures. In this case, a frequency mismatch is also introduced for the elements of the two layers. For solitary states, the effective synchronization regime with an increase in the interlayer coupling is also established. In both layers the same configurations of solitary states are realized and frequency synchronization is observed. In the fourth case, a heterogeneous multiplex network is considered, in which one layer is in the chimera state, the second layer shows the solitary state mode. With a certain strength of the interlayer coupling the complex structures are destroyed in both layers of the network and a spatially uniform regimes are established. In this case, all the rotators of the two layers rotate at the same frequency, and the difference in the regimes in the layers reduces to a small phase shift, the same for all pairs of coupled rotators of the two layers. Conclusion: The effects of synchronization in the multiplex network were established for two layers in the regimes of complex spatio-temporal dynamics, such as chimera states and solitary states. The influence of the frequency mismatch of the network elements and the phase shift in the interlayer coupling on the synchronization phenomena was studied.

Highlights

  • One of the actual problems in nonlinear dynamics is the formation and interaction of complex spatial structures such as chimeras and solitary states arising in multicomponent systems

  • Ensembles of rotators with nonlocal coupling are characterized by both chimera states and solitary state regimes

  • It is shown that, starting from a certain threshold value of the interlayer coupling coefficient, the complete synchronization regime is established in the layers, and the coupling phase shift significantly affects the value of the synchronization threshold

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Summary

Исследуемая система

В последние годы в сфере нелинейной динамики и самоорганизации сетей большой интерес представляет изучение синхронизации взаимодействующих осцилляторов в сложных топологиях и сетях. Параметры межслойной связи κ и β являются контрольными параметрами при исследовании взаимодействия и синхронизации слоев. Слабая расстройка слоев вводится с помощью параметров γ1 и γ2, которые управляют частотой вращений ротаторов и слабо влияют на пространственные структуры, формирующиеся в слоях. Начальные значения фаз φvi ротаторов в обоих слоях задавались случайным образом в интервале [0, 2π], а начальные значения мгновенных частот вращения ߮ሶ ఔ௜ – в интервале [−0.1, 0.1]. Соответствующие этим установившимся структурам значения переменных используются в качестве начальных условий при исследовании взаимодействия слоев. По результатам интегрирования строились мгновенные пространственные профили в двух слоях, которые представляют собой множества значений sin(φvi(tn)), фиксируемых в один выбранный момент времени, а также рассчитывались средние частоты вращения ротаторов:. Для оценки синхронизации структур в двух слоях рассчитывался средний по всем элементам колец квадрат синуса разности мгновенных фаз соответствующих ротаторов:. Изменение величины δ во времени позволяет оценить скорость установления режима синхронизации

Синхронизация слоев в режиме химерных состояний
Синхронизация идентичных слоев с различными химерными структурами
Синхронизация слоев в режиме химерных состояний при наличии частотной расстройки
Синхронизация слоев в режиме уединенных состояний

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