Experimental observation of chimera and cluster states in a minimal globally coupled network

Hart, Joseph D.; Bansal, Kanika; Murphy, Thomas E.; Roy, Rajarshi

doi:10.1063/1.4953662

Cited by 143 publications

(110 citation statements)

References 35 publications

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“…First, it has been observed that these states can exist in small networks of as few as 4 phase oscillators [27][28][29][30] and also in the model of semiconductor lasers [31]. Experimentally, chimera states of this type have been recently observed in small networks of optoelectronic oscillators [32] as well as coupled pendula [33,34].In the Letter, we show that the weak chimera patterns which are characterized by two frequency synchronized oscillators and one evolving with different frequency can be observed in the networks of 3 identical nodes. As the proof of the concept we use a network of Kuramoto oscillators with inertia.…”

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Smallest chimera states

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We demonstrate that chimera behavior can be observed in small networks consisting of three identical oscillators, with mutual all-to-all coupling. Three different types of chimeras, characterized by the coexistence of two coherent oscillators and one incoherent oscillator (i.e. rotating with another frequency) have been identified, where the oscillators show periodic (two types) and chaotic (one type) behaviors. Typical bifurcations at the transitions from full synchronization to chimera states and between different types of chimeras have been described. Parameter regions for the chimera states are obtained in the form of Arnold tongues, issued from a singular parameter point. Our analysis suggests that chimera states can be observed in small networks, relevant to various realworld systems.Chimera states are spatiotemporal patterns consisting of spatially separated domains of coherent (synchronized) and incoherent (desynchronized) behavior, which appear in the networks of identical units. The original discovery in a network of phase oscillators [1][2][3] has sparked a tremendous activity of first theoretical studies [4][5][6][7][8][9][10][11][12] and next experimental observations [13][14][15][16][17][18]. In real-world systems, chimera states might play role in understanding of complex behavior in biological (modular neural networks [19], the unihemispheric sleep of birds and dolphins [20], epileptic seizures [21]), engineering (power grids [22,23]) and social [24] systems. More references can be found in two recent review papers [25,26].Chimera states are typically observed in the large networks of different topologies, but recently it has been suggested that they can also be observed in small networks [27][28][29][30][31]. Ashwin & Burylko [27] have defined a weak chimera state as one referring to a trajectory in which two or more oscillators are frequency synchronized and one or more oscillators drift in phase and oscillate with different mean frequency with respect to the synchronized group. First, it has been observed that these states can exist in small networks of as few as 4 phase oscillators [27][28][29][30] and also in the model of semiconductor lasers [31]. Experimentally, chimera states of this type have been recently observed in small networks of optoelectronic oscillators [32] as well as coupled pendula [33,34].In the Letter, we show that the weak chimera patterns which are characterized by two frequency synchronized oscillators and one evolving with different frequency can be observed in the networks of 3 identical nodes. As the proof of the concept we use a network of Kuramoto oscillators with inertia. We identify three different types of chimeras, namely (i) in-phase chimeras in which coherent oscillators are phase synchronized and incoherent one rotates with a different frequency, (ii) anti-phase chimeras in which coherent oscillators alternates with respect to each other and incoherent one oscillates with a different frequency, (iii) chaotic chimeras in which two oscillators are synchronized...

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Smallest chimera states

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“…Отметим, что шести генераторов оказывается достаточно для возник-новения состояния " химера". Как было недавно показано в работе [13], состояния " химера" могут существовать в ансамблях, состоящих всего лишь из четырех идентичных осцилляторов.…”

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“…Состояния " химера" были сначала обнаружены в ансамблях фазовых осцилляторов, связь между которыми является локальной [6], нелокаль-ной [5] или глобальной [7], а затем и в ансамблях, элементы которых не являются фазовыми осцилляторами [8][9][10]. Состояния " химера" были обнаружены не только при теоретических, но и при экспериментальных исследованиях [11][12][13].…”

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Коллективная Динамика Идентичных Бистабильных Автогенераторов С Запаздыванием, Связанных Через Общее Поле

Пономаренко¹,

Кульминский²,

Караваев³

et al. 2017

Письма В Журнал Технической Физики

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Экспериментально и численно исследованы особенности коллективной динамики осцилляторов в ансамбле идентичных бистабильных систем с запаздывающей обратной связью, связанных между собой через общее поле. Показана возможность существования состояния химера", при котором часть элементов ансамбля совершает синхронные колебания, а другая часть элементов колеблется несинхронно. DOI: 10.21883/PJTF.2017.06.44405.16546

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“…Chimera states were first discovered in ensembles of phase oscillators with local [6], nonlocal [5], or global coupling [7] and then also found in ensembles with elements not representing phase oscillators [8][9][10]. Chimeras were not only theoretically predicted, but also observed in experimental investigations [11][12][13].…”

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Collective dynamics of identical bistable self-sustained oscillators with delayed feedback coupled via a mean field

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Peculiarities of the collective dynamics of self-sustained oscillators in an ensemble of identical bistable systems with delayed feedback coupled via a mean field have been experimentally studied and numerically simulated. It is established that the ensemble can occur in so-called "chimera" states, whereby some elements exhibit synchronous oscillations, while other oscillators exhibit asynchronous behavior.

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Experimental observation of chimera and cluster states in a minimal globally coupled network

Cited by 143 publications

References 35 publications

Smallest chimera states

Smallest chimera states

Коллективная Динамика Идентичных Бистабильных Автогенераторов С Запаздыванием, Связанных Через Общее Поле

Collective dynamics of identical bistable self-sustained oscillators with delayed feedback coupled via a mean field

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