Connecting the Kuramoto Model and the Chimera State

Tejas Kotwal; Xin Jiang; Daniel M. Abrams

doi:10.1103/PhysRevLett.119.264101

Connecting the Kuramoto Model and the Chimera State

Tejas Kotwal^*
, Xin Jiang
, Daniel M. Abrams

^*Corresponding author for this work

School of Artificial Intelligence(Institute of Artificial Intelligence)

Indian Institute of Technology Bombay
Northwestern University

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

Since its discovery in 2002, the chimera state has frequently been described as a counterintuitive, puzzling phenomenon. The Kuramoto model, in contrast, has become a celebrated paradigm useful for understanding a range of phenomena related to phase transitions, synchronization, and network effects. Here we show that the chimera state can be understood as emerging naturally through a symmetry-breaking bifurcation from the Kuramoto model's partially synchronized state. Our analysis sheds light on recent observations of chimera states in laser arrays, chemical oscillators, and mechanical pendula.

Original language	English
Article number	264101
Journal	Physical Review Letters
Volume	119
Issue number	26
DOIs	https://doi.org/10.1103/PhysRevLett.119.264101
State	Published - 29 Dec 2017

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10.1103/PhysRevLett.119.264101

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title = "Connecting the Kuramoto Model and the Chimera State",

abstract = "Since its discovery in 2002, the chimera state has frequently been described as a counterintuitive, puzzling phenomenon. The Kuramoto model, in contrast, has become a celebrated paradigm useful for understanding a range of phenomena related to phase transitions, synchronization, and network effects. Here we show that the chimera state can be understood as emerging naturally through a symmetry-breaking bifurcation from the Kuramoto model's partially synchronized state. Our analysis sheds light on recent observations of chimera states in laser arrays, chemical oscillators, and mechanical pendula.",

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AB - Since its discovery in 2002, the chimera state has frequently been described as a counterintuitive, puzzling phenomenon. The Kuramoto model, in contrast, has become a celebrated paradigm useful for understanding a range of phenomena related to phase transitions, synchronization, and network effects. Here we show that the chimera state can be understood as emerging naturally through a symmetry-breaking bifurcation from the Kuramoto model's partially synchronized state. Our analysis sheds light on recent observations of chimera states in laser arrays, chemical oscillators, and mechanical pendula.

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Connecting the Kuramoto Model and the Chimera State

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