Litcius/Paper detail

Rotating clusters in phase-lagged Kuramoto oscillators with higher-order interactions

Bhuwan Moyal, Priyanka Rajwani, Subhasanket Dutta, Sarika Jalan

2024Physical review. E13 citationsDOI

Abstract

The effect of phase-lag in pairwise interactions has been a topic of great interest for a while. However, real-world systems often have interactions that are beyond pairwise and can be modeled using simplicial complexes. We show that the inclusion of higher-order interactions in phase-lagged coupled Kuramoto oscillators shifts the critical point at which first-order transition from a cluster synchronized state to an incoherent state takes place. Considering the polar coordinates, we obtain the rotation frequency of the clusters, which turns out to be a function of the phase-lag parameter. In turn, the phase- lag can be used as a control parameter to achieve a desired cluster frequency. Moreover, in the thermodynamic limit, by employing the Ott-Antonsen approach we derive a reduced equation for the order parameter measuring cluster synchronization and progress further through the self-consistency method to obtain a closed form of the order parameter measuring global synchronization which was lacking in the Ott-Antonsen approach.

Topics & Concepts

Kuramoto modelPairwise comparisonCluster (spacecraft)Statistical physicsLagSynchronization (alternating current)Phase (matter)Function (biology)Phase lagConsistency (knowledge bases)MathematicsPhase transitionPhysicsComputer scienceMathematical analysisStatisticsTopology (electrical circuits)Quantum mechanicsGeometryComputer networkEvolutionary biologyBiologyCombinatoricsProgramming languageNonlinear Dynamics and Pattern FormationSlime Mold and Myxomycetes ResearchNeural dynamics and brain function