Higher-order interactions induce stepwise explosive phase transitions

Authors

• Xueqi Li, Northwestern Polytechnical University
• Palash Kumar Pal, Indian Statistical Institute, Kolkata
• Youming Lei, Northwestern Polytechnical University
• Dibakar Ghosh, Indian Statistical Institute, Kolkata
• Michael Small, The University of Western Australia

Article Type

Research Article

Publication Title

Physical Review E

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.

DOI

10.1103/PhysRevE.111.024303

Publication Date

2-1-2025

Recommended Citation

Li, Xueqi; Pal, Palash Kumar; Lei, Youming; Ghosh, Dibakar; and Small, Michael, "Higher-order interactions induce stepwise explosive phase transitions" (2025). Journal Articles. 5409.
https://digitalcommons.isical.ac.in/journal-articles/5409