Litcius/Paper detail

Interplay between an Absorbing Phase Transition and Synchronization in a Driven Granular System

R. Maire, Andrea Plati, M. Stockinger, Emmanuel Trizac, Frank Smallenburg, Giuseppe Foffi

2024Physical Review Letters12 citationsDOIOpen Access PDF

Abstract

Absorbing phase transitions (APTs) are widespread in nonequilibrium 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 nonequilibrium 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.

Topics & Concepts

Non-equilibrium thermodynamicsPhase transitionSynchronization (alternating current)Statistical physicsPhase synchronizationActive matterPhysicsPhase (matter)Representation (politics)Granular materialSoft matterState (computer science)Computer scienceCondensed matter physicsTopology (electrical circuits)ThermodynamicsQuantum mechanicsMathematicsChemistryPhysical chemistryPoliticsPolitical scienceBiologyAlgorithmColloidCombinatoricsLawCell biologyMaterial Dynamics and PropertiesTheoretical and Computational PhysicsGranular flow and fluidized beds