English

Interplay between an absorbing phase transition and synchronization in a driven granular system

Statistical Mechanics 2025-12-09 v1

Abstract

Absorbing phase transitions (APTs) are widespread in non-equilibrium systems, spanning condensed matter, epidemics, earthquakes, ecology, and chemical reactions. APTs feature an absorbing state in which the system becomes entrapped, along with a transition, either continuous or discontinuous, to an active state. Understanding which physical mechanisms determine the order of these transitions represents a challenging open problem in non-equilibrium statistical mechanics. Here, by numerical simulations and mean-field analysis, we show that a quasi-2d vibrofluidized granular system exhibits a novel form of APT. The absorbing phase is observed in the horizontal dynamics below a critical packing fraction, and can be continuous or discontinuous based on the emergent degree of synchronization in the vertical motion. Our results provide a direct representation of a feasible experimental scenario, showcasing a surprising interplay between dynamic phase transition and synchronization.

Keywords

Cite

@article{arxiv.2401.12817,
  title  = {Interplay between an absorbing phase transition and synchronization in a driven granular system},
  author = {R. Maire and A. Plati and M. Stockinger and E. Trizac and F. Smallenburg and G. Foffi},
  journal= {arXiv preprint arXiv:2401.12817},
  year   = {2025}
}

Comments

4 pages, 3 figures

R2 v1 2026-06-28T14:24:48.185Z