Modeling collective motion in nonconservative systems, such as granular materials, is difficult since a general microscopic-to-macroscopic approach is not available: there is no Hamiltonian, no known stationary densities in phase space, and not a known small set of relevant variables. Phenomenological coarse-grained models are a good alternative, provided that one has identified a few slow observables and collected a sufficient amount of data for their dynamics. Here we study the case of a vibrofluidized dense granular material. The experimental study of a tracer, dispersed into the media, showed evidence of many time scales: Fast ballistic, intermediate caged, slow superdiffusive, and very slow diffusive. A numerical investigation has demo...
Granular materials are of substantial importance in many industrial and natural processes, yet their...
The leading order "temperature" of a dense two-dimensional granular material fluidized by external v...
Assemblies of granular materials behave differently when they are owing rapidly, from when they are ...
We address the problem of emerging slow timescales in the context of non-equilibrium athermal system...
Recent experiments with rotational diffusion of a probe in a vibrated granular media revealed a rich...
We consider a velocity field with linear viscous interactions defined on a one dimensional lattice. ...
A vertically shaken granular medium hosts a blade rotating around a fixed vertical axis, which acts ...
We present a microscopic model of granular medium to study the role of dynamical correlations and th...
4 pages, 6 figures, submitted to PRLWe investigate experimentally the diffusion properties of a bidi...
The behavior of the lower-order moments of the velocity distribution function for a system of inelas...
We conduct an experimental study of a two dimensional vibro-fluidized dilute granular medium. The sy...
We review simulations, experiments and a theoretical treatment of vertically vibrated granular media...
The present work is concerned with the mathematical modelling of a bed of granular material in a gra...
This brief offers a concise presentation of granular fluids from the point of view of non-equilibri...
Granular media take on great importance in industry and geophysics, posing a severe challenge to mat...
Granular materials are of substantial importance in many industrial and natural processes, yet their...
The leading order "temperature" of a dense two-dimensional granular material fluidized by external v...
Assemblies of granular materials behave differently when they are owing rapidly, from when they are ...
We address the problem of emerging slow timescales in the context of non-equilibrium athermal system...
Recent experiments with rotational diffusion of a probe in a vibrated granular media revealed a rich...
We consider a velocity field with linear viscous interactions defined on a one dimensional lattice. ...
A vertically shaken granular medium hosts a blade rotating around a fixed vertical axis, which acts ...
We present a microscopic model of granular medium to study the role of dynamical correlations and th...
4 pages, 6 figures, submitted to PRLWe investigate experimentally the diffusion properties of a bidi...
The behavior of the lower-order moments of the velocity distribution function for a system of inelas...
We conduct an experimental study of a two dimensional vibro-fluidized dilute granular medium. The sy...
We review simulations, experiments and a theoretical treatment of vertically vibrated granular media...
The present work is concerned with the mathematical modelling of a bed of granular material in a gra...
This brief offers a concise presentation of granular fluids from the point of view of non-equilibri...
Granular media take on great importance in industry and geophysics, posing a severe challenge to mat...
Granular materials are of substantial importance in many industrial and natural processes, yet their...
The leading order "temperature" of a dense two-dimensional granular material fluidized by external v...
Assemblies of granular materials behave differently when they are owing rapidly, from when they are ...