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Synchronizing Chaos with Imperfections

Yoshiki Sugitani, Yuanzhao Zhang, Adilson E. Motter

2021Physical Review Letters30 citationsDOIOpen Access PDF

Abstract

Previous research on nonlinear oscillator networks has shown that chaos synchronization is attainable for identical oscillators but deteriorates in the presence of parameter mismatches. Here, we identify regimes for which the opposite occurs and show that oscillator heterogeneity can synchronize chaos for conditions under which identical oscillators cannot. This effect is not limited to small mismatches and is observed for random oscillator heterogeneity on both homogeneous and heterogeneous network structures. The results are demonstrated experimentally using networks of Chua's oscillators and are further supported by numerical simulations and theoretical analysis. In particular, we propose a general mechanism based on heterogeneity-induced mode mixing that provides insights into the observed phenomenon. Since individual differences are ubiquitous and often unavoidable in real systems, it follows that such imperfections can be an unexpected source of synchronization stability.

Topics & Concepts

SynchronizingSynchronization (alternating current)Statistical physicsSynchronization of chaosCHAOS (operating system)Nonlinear systemMixing (physics)HomogeneousStability (learning theory)PhysicsComputer scienceSynchronization networksTopology (electrical circuits)Control theory (sociology)MathematicsQuantum mechanicsControl (management)Artificial intelligenceComputer securityCombinatoricsMachine learningNonlinear Dynamics and Pattern FormationChaos control and synchronizationNeural Networks Stability and Synchronization