Clustering, Order, and Collapse in a Driven Granular Monolayer
- 16 November 1998
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 81 (20) , 4369-4372
- https://doi.org/10.1103/physrevlett.81.4369
Abstract
Steady state dynamics of clustering, long-range order, and inelastic collapse are experimentally observed in vertically shaken granular monolayers. At large vibration amplitudes, particle correlations show only short-range order like equilibrium 2D hard sphere gases. Lowering the amplitude “cools” the system, resulting in a dramatic increase in correlations leading to either clustering or an ordered state. Further cooling forms a collapse: a condensate of motionless balls coexisting with a less dense gas. Measured velocity distributions are non-Gaussian, showing nearly exponential tails.Keywords
All Related Versions
This publication has 21 references indexed in Scilit:
- Spatial correlations in compressible granular flowsPhysical Review E, 1998
- Mesoscopic Theory of Granular FluidsPhysical Review Letters, 1997
- Towards granular hydrodynamics in two dimensionsPhysical Review E, 1997
- Kinetic theory of fluidized granular matterPhysical Review E, 1997
- The granular phase diagramJournal of Statistical Physics, 1997
- Driven granular media and dissipative gases: correlations and liquid-gas phase transitionsPhysica A: Statistical Mechanics and its Applications, 1996
- Granular solids, liquids, and gasesReviews of Modern Physics, 1996
- Dynamics of a freely evolving, two-dimensional granular mediumPhysical Review E, 1996
- Power Law Velocity Fluctuations Due to Inelastic Collisions in Numerically Simulated Vibrated Bed of PowderEurophysics Letters, 1995
- Clustering instability in dissipative gasesPhysical Review Letters, 1993