Strong coupling yields abrupt synchronization transitions in coupled oscillators

Jorge L. Ocampo-Espindola, István Z. Kiss, Christian Bick, Kyle C.A. Wedgwood*

*Corresponding author for this work

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

Coupled oscillator networks often display transitions between qualitatively different phase-locked solutions - such as synchrony and rotating wave solutions - following perturbation or parameter variation. In the limit of weak coupling, these transitions can be understood in terms of commonly studied phase approximations. As the coupling strength increases, however, predicting the location and criticality of transition, whether continuous or discontinuous, from the phase dynamics may depend on the order of the phase approximation - or a phase description of the network dynamics that neglects amplitudes may become impossible altogether. Here we analyze synchronization transitions and their criticality systematically for varying coupling strength in theory and experiments with coupled electrochemical oscillators. First, we analyze bifurcations analysis of synchrony and splay states in an abstract phase model and discuss conditions under which synchronization transitions with different criticalities are possible. In particular, we show that such conditions can be understood by considering the relative contributions of higher harmonics to the phase dynamics. Second, we illustrate that transitions with different criticality indeed occur in experimental systems. Third, we highlight that the amplitude dynamics observed in the experiments can be captured in a numerical bifurcation analysis of delay-coupled oscillators. Our results showcase that reduced order phase models may miss important features that one would expect in the dynamics of the full system.

Original languageEnglish
Article number033328
Pages (from-to)1-10
Number of pages10
JournalPhysical Review Research
Volume6
Issue number3
Early online date23 Sept 2024
DOIs
Publication statusPublished - Nov 2024

Bibliographical note

Publisher Copyright:
© 2024 authors. Published by the American Physical Society.

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