Understanding the instability of a vibrated granular monolayer

TL;DR

This paper studies the behavior of a vibrated granular monolayer, revealing how system size influences stability and cluster formation, with theoretical predictions matching simulation results.

Contribution

It introduces an effective hydrodynamic model to predict instability thresholds in vibrated granular monolayers, validated by Molecular Dynamics simulations.

Findings

Homogeneous stationary state for small systems

Cluster formation in larger systems

Theoretical predictions match simulations without fitting

Abstract

We investigate the dynamics of an ensemble of inelastic hard spheres confined between two horizontal plates separated a distance smaller than twice the diameter of the particles, in such a way that the system is quasi-two-dimensional. The bottom wall is vibrating and, therefore, it injects energy into the system in the vertical direction and a stationary state is reached. It is found that, if the size of the plates is small enough, the stationary state is homogeneous. Otherwise, a cluster of particles is developed. The instability is understood by using some effective hydrodynamic equations in the horizontal plane. Moreover, the theoretical prediction for the size of the system above which it is unstable agrees very well with Molecular Dynamics simulation results without any fitting parameter.