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Particle Dynamics at the Onset of the Granular Gas-Liquid Transition

Martial Noirhomme, Annette Cazaubiel, Éric Falcon, David Fischer, Yves Garrabos, Carole Lecoutre-Chabot, Sébastien Mawet, Éric Opsomer, F. Palencia, Salvatore Pillitteri, Nicolas Vandewalle

2021Physical Review Letters23 citationsDOIOpen Access PDF

Abstract

We study experimentally the dynamical behavior of few large tracer particles placed in a quasi-2D granular "gas" made of many small beads in a low-gravity environment. Multiple inelastic collisions transfer momentum from the uniaxially driven gas to the tracers whose velocity distributions are studied through particle tracking. Analyzing these distributions for an increasing system density reveals that translational energy equipartition is reached at the onset of the gas-liquid granular transition corresponding to the emergence of local clusters. The dynamics of a few tracer particles thus appears as a simple and accurate tool to detect this transition. A model is proposed for describing accurately the formation of local heterogeneities.

Topics & Concepts

Equipartition theoremMomentum (technical analysis)Particle (ecology)TRACERMomentum transferDynamics (music)PhysicsInelastic collisionMechanicsStatistical physicsNuclear physicsGeologyOpticsMagnetic fieldFinanceEconomicsElectronAcousticsScatteringQuantum mechanicsOceanographyGranular flow and fluidized bedsParticle Dynamics in Fluid FlowsFluid Dynamics and Heat Transfer
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