Chimera at the phase-flip transition of an ensemble of identical nonlinear oscillators

•New type of chimera in a nonlocally coupled ensemble of identical oscillators can be realized by using common dynamic environment coupling.•Manifestation of coexisting out-of-phase synchronized coherent domains interspersed by asynchronous incoherent domains elucidating the existence of a new type...

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Veröffentlicht in:	Communications in nonlinear science & numerical simulation 2018-06, Vol.59, p.30-46
Hauptverfasser:	Gopal, R., Chandrasekar, V.K., Senthilkumar, D.V., Venkatesan, A., Lakshmanan, M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Bifurcations Collective behavior Coupled oscillators Couplings Nonlinear dynamics Nonlinear equations Oscillators Phase transitions Studies Synchronized oscillators
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creator	Gopal, R. Chandrasekar, V.K. Senthilkumar, D.V. Venkatesan, A. Lakshmanan, M.
description	•New type of chimera in a nonlocally coupled ensemble of identical oscillators can be realized by using common dynamic environment coupling.•Manifestation of coexisting out-of-phase synchronized coherent domains interspersed by asynchronous incoherent domains elucidating the existence of a new type of chimera state is unravelled.•Necessary and important complements to the current knowledge on the collective behaviors due to the dynamic environmental coupling also discussed. A complex collective emerging behavior characterized by coexisting coherent and incoherent domains is termed as a chimera state. We bring out the existence of a new type of chimera in a nonlocally coupled ensemble of identical oscillators driven by a common dynamic environment. The latter facilitates the onset of phase-flip bifurcation/transitions among the coupled oscillators of the ensemble, while the nonlocal coupling induces a partial asynchronization among the out-of-phase synchronized oscillators at this onset. This leads to the manifestation of coexisting out-of-phase synchronized coherent domains interspersed by asynchronous incoherent domains elucidating the existence of a different type of chimera state. In addition to this, a rich variety of other collective behaviors such as clusters with phase-flip transition, conventional chimera, solitary state and complete synchronized state which have been reported using different coupling architectures are found to be induced by the employed couplings for appropriate coupling strengths. The robustness of the resulting dynamics is demonstrated in ensembles of two paradigmatic models, namely Rössler oscillators and Stuart-Landau oscillators.
doi_str_mv	10.1016/j.cnsns.2017.11.005
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A complex collective emerging behavior characterized by coexisting coherent and incoherent domains is termed as a chimera state. We bring out the existence of a new type of chimera in a nonlocally coupled ensemble of identical oscillators driven by a common dynamic environment. The latter facilitates the onset of phase-flip bifurcation/transitions among the coupled oscillators of the ensemble, while the nonlocal coupling induces a partial asynchronization among the out-of-phase synchronized oscillators at this onset. This leads to the manifestation of coexisting out-of-phase synchronized coherent domains interspersed by asynchronous incoherent domains elucidating the existence of a different type of chimera state. In addition to this, a rich variety of other collective behaviors such as clusters with phase-flip transition, conventional chimera, solitary state and complete synchronized state which have been reported using different coupling architectures are found to be induced by the employed couplings for appropriate coupling strengths. The robustness of the resulting dynamics is demonstrated in ensembles of two paradigmatic models, namely Rössler oscillators and Stuart-Landau oscillators.</description><identifier>ISSN: 1007-5704</identifier><identifier>EISSN: 1878-7274</identifier><identifier>DOI: 10.1016/j.cnsns.2017.11.005</identifier><language>eng</language><publisher>Amsterdam: Elsevier B.V</publisher><subject>Bifurcations ; Collective behavior ; Coupled oscillators ; Couplings ; Nonlinear dynamics ; Nonlinear equations ; Oscillators ; Phase transitions ; Studies ; Synchronized oscillators</subject><ispartof>Communications in nonlinear science & numerical simulation, 2018-06, Vol.59, p.30-46</ispartof><rights>2017 Elsevier B.V.</rights><rights>Copyright Elsevier Science Ltd. 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A complex collective emerging behavior characterized by coexisting coherent and incoherent domains is termed as a chimera state. We bring out the existence of a new type of chimera in a nonlocally coupled ensemble of identical oscillators driven by a common dynamic environment. The latter facilitates the onset of phase-flip bifurcation/transitions among the coupled oscillators of the ensemble, while the nonlocal coupling induces a partial asynchronization among the out-of-phase synchronized oscillators at this onset. This leads to the manifestation of coexisting out-of-phase synchronized coherent domains interspersed by asynchronous incoherent domains elucidating the existence of a different type of chimera state. In addition to this, a rich variety of other collective behaviors such as clusters with phase-flip transition, conventional chimera, solitary state and complete synchronized state which have been reported using different coupling architectures are found to be induced by the employed couplings for appropriate coupling strengths. 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A complex collective emerging behavior characterized by coexisting coherent and incoherent domains is termed as a chimera state. We bring out the existence of a new type of chimera in a nonlocally coupled ensemble of identical oscillators driven by a common dynamic environment. The latter facilitates the onset of phase-flip bifurcation/transitions among the coupled oscillators of the ensemble, while the nonlocal coupling induces a partial asynchronization among the out-of-phase synchronized oscillators at this onset. This leads to the manifestation of coexisting out-of-phase synchronized coherent domains interspersed by asynchronous incoherent domains elucidating the existence of a different type of chimera state. 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subjects	Bifurcations Collective behavior Coupled oscillators Couplings Nonlinear dynamics Nonlinear equations Oscillators Phase transitions Studies Synchronized oscillators
title	Chimera at the phase-flip transition of an ensemble of identical nonlinear oscillators
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