We report two phenomena, induced by dynamical correlations, that occur during the free cooling of a two-dimensional mixture of inelastic hard disks. First, we show that, due to the onset of velocity correlations, the ratio of the kinetic energies associated with the two species changes from the value corresponding to the homogeneous cooling state to a value approximately given by the mass ratio m1 =m2 of the two species. Second, we report a novel segregation effect that occurs in the late stage of cooling, where interconnected domains appear. Spectral analysis of the composition field reveals the emergence of a growing characteristic lengt
By molecular dynamics simulations we investigate the order-disorder transitions induced in granular ...
A theory based on a solution of the inelastic Enskog equation that goes beyond the weak dissipation ...
Abstract. The two most important phenomena at the basis of granular media are ex-cluded volume and d...
We report two phenomena, induced by dynamical correlations, that occur during the free cooling of a ...
We study the dynamical behavior of a freely evolving granular gas, where the particles undergo inela...
We present a microscopic model of granular medium to study the role of dynamical correlations and th...
We present results from a granular dynamics study of the nonequilibrium behavior of a freely evolvin...
Summary. We review recent results about the segregation process of a granular mixture of disks on an...
We show the differences in the stability properties of the Homogeneous Cooling State (HCS) of a two-...
We consider a mean-field model describing the free-cooling process of a two-component granular mixtu...
We use large-scale molecular dynamics simulations to study freely evolving granular gases with dimen...
We present results from comprehensive event-driven (ED) simulations of nonlinear pattern formation i...
We present a numerical study of a two-dimensional granular medium consisting of hard inelastic disks...
The local cooling rates of the components of a vibrated binary granular mixture in a steady state ar...
We present results from comprehensive event-driven (ED) simulations of nonlinear pattern formation i...
By molecular dynamics simulations we investigate the order-disorder transitions induced in granular ...
A theory based on a solution of the inelastic Enskog equation that goes beyond the weak dissipation ...
Abstract. The two most important phenomena at the basis of granular media are ex-cluded volume and d...
We report two phenomena, induced by dynamical correlations, that occur during the free cooling of a ...
We study the dynamical behavior of a freely evolving granular gas, where the particles undergo inela...
We present a microscopic model of granular medium to study the role of dynamical correlations and th...
We present results from a granular dynamics study of the nonequilibrium behavior of a freely evolvin...
Summary. We review recent results about the segregation process of a granular mixture of disks on an...
We show the differences in the stability properties of the Homogeneous Cooling State (HCS) of a two-...
We consider a mean-field model describing the free-cooling process of a two-component granular mixtu...
We use large-scale molecular dynamics simulations to study freely evolving granular gases with dimen...
We present results from comprehensive event-driven (ED) simulations of nonlinear pattern formation i...
We present a numerical study of a two-dimensional granular medium consisting of hard inelastic disks...
The local cooling rates of the components of a vibrated binary granular mixture in a steady state ar...
We present results from comprehensive event-driven (ED) simulations of nonlinear pattern formation i...
By molecular dynamics simulations we investigate the order-disorder transitions induced in granular ...
A theory based on a solution of the inelastic Enskog equation that goes beyond the weak dissipation ...
Abstract. The two most important phenomena at the basis of granular media are ex-cluded volume and d...