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Tiered synchronization in Kuramoto oscillators with adaptive higher-order interactions

Priyanka Rajwani, Ayushi Suman, Sarika Jalan

2023Chaos An Interdisciplinary Journal of Nonlinear Science33 citationsDOI

Abstract

Phase transitions widely occur in natural systems. Incorporation of higher-order interactions in coupled dynamics is known to cause first-order phase transition to synchronization in an otherwise smooth second-order in the presence of only pairwise interactions. Here, we discover that adaptation in higher-order interactions restores the second-order phase transition in the former setup and notably produces additional bifurcation referred as tiered synchronization as a consequence of combination of super-critical pitchfork and two saddle node bifurcations. The Ott-Antonsen manifold underlines the interplay of higher-order interactions and adaptation in instigating tiered synchronization, as well as provides complete description of all (un)stable states. These results would be important in comprehending dynamics of real-world systems with inherent higher-order interactions and adaptation through feedback coupling.

Topics & Concepts

Kuramoto modelSynchronization (alternating current)Synchronization networksOrder (exchange)Adaptation (eye)Topology (electrical circuits)Statistical physicsComputer sciencePhase transitionControl theory (sociology)PhysicsMathematicsArtificial intelligenceOpticsEconomicsQuantum mechanicsControl (management)FinanceCombinatoricsNonlinear Dynamics and Pattern FormationEcosystem dynamics and resilienceChaos control and synchronization
Tiered synchronization in Kuramoto oscillators with adaptive higher-order interactions | Litcius