Litcius/Paper detail

Prolonged hysteresis in the Kuramoto model with inertia and higher-order interactions

Narayan G. Sabhahit, Akanksha S. Khurd, Sarika Jalan

2024Physical review. E21 citationsDOI

Abstract

The inclusion of inertia in the Kuramoto model has long been reported to change the nature of a phase transition, providing a fertile ground to model the dynamical behaviors of interacting units. More recently, higher-order interactions have been realized as essential for the functioning of real-world complex systems ranging from the brain to disease spreading. Yet analytical insights to decipher the role of inertia with higher-order interactions remain challenging. Here, we study the Kuramoto model with inertia on simplicial complexes, merging two research domains. We develop an analytical framework in a mean-field setting using self-consistent equations to describe the steady-state behavior, which reveals a prolonged hysteresis in the synchronization profile. Inertia and triadic interaction strength exhibit isolated influence on system dynamics by predominantly governing, respectively, the forward and backward transition points. This paper sets a paradigm to deepen our understanding of real-world complex systems such as power grids modeled as the Kuramoto model with inertia.

Topics & Concepts

Kuramoto modelInertiaHysteresisStatistical physicsSynchronization (alternating current)Complex systemOrder (exchange)PhysicsComputer scienceClassical mechanicsChannel (broadcasting)Artificial intelligenceCondensed matter physicsFinanceComputer networkEconomicsNonlinear Dynamics and Pattern FormationEcosystem dynamics and resilienceComplex Systems and Time Series Analysis