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Higher-order interactions induce stepwise explosive phase transitions

Xueqi Li, Palash Kumar Pal, Youming Lei, Dibakar Ghosh, Michael Small

2025Physical review. E11 citationsDOI

Abstract

In recent studies, it has been established that higher-order interactions in coupled oscillators can induce a process from continuous to explosive phase transition. In this study, we identify a phase transition, termed the stepwise explosive phase transition, characterized by the emergence of multiple critical phase plateaus in a globally frequency-weighted coupled pendulum model. This transition bridges the continuous and explosive phase transitions, arising from a delicate balance between attractive higher-order interactions and repulsive pairwise interactions. Specifically, the stepwise explosive phase transition occurs when the higher-order coupling is moderate, neither large nor small, while the pairwise interactions remain repulsive. Our analysis shows that stronger attractive higher-order interactions necessitate weaker repulsive pairwise interactions, leading to partial frequency locking among oscillators and triggering the stepwise transition. We construct an analytical framework using self-consistent equations to provide an approximation of the steady-state behavior. This study uncovers an alternative pathway to the desynchronization, and it provides additional insights into the phase transitions in coupled dynamical networks.

Topics & Concepts

Explosive materialOrder (exchange)Materials scienceChemistryBusinessOrganic chemistryFinanceNonlinear Dynamics and Pattern Formationstochastic dynamics and bifurcationTheoretical and Computational Physics
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