We consider dense random packing of disks with a power-law distribution of radii and investigate their correlation properties. We study the corresponding structure factor, mass-radius relation and pair distribution function of the disk centers. A toy model of dense segments in one dimension (1d) is solved exactly. It is shown theoretically in 1d and numerically in 1d and 2d that such packing exhibits fractal properties. It is found that the exponent of the power-law distribution and the fractal dimension coincide. An approximate relation for the structure factor in arbitrary dimension is derived, which can be used as a fitting formula in small-angle scattering. The findings can be useful for understanding microstructural properties of vario...
I study the structural organization and correlations in very large packings of equally sized spheres...
In this article a closed-form equation is derived for the binary random packing fraction of similar ...
A notorious problem in physics is to create a solvable model for random sequential adsorption of non...
Static structure factors are computed for large-scale, mechanically stable, jammed packings of frict...
Dense, disordered packings of particles are useful models of low-temperature amorphous phases of mat...
This paper addresses the geometric random packing and void fraction of polydisperse particles. It is...
By pouring equal balls into a container one obtains disordered packings with fascinating properties ...
Disordered packings of equal sized spheres cannot be generated above the limiting density (fraction ...
We investigate how the densities of inherent structures, which we refer to as the closest jammed con...
We prove that uniformly random packings of copies of a certain simply connected figure in the plane ...
International audienceWe analyze the packing properties of simulated three-dimensional polydisperse ...
A random packing of hard particles represents a fundamental model for granular matter. Despite its i...
©2002 The American Physical Society. The electronic version of this article is the complete one and ...
We present a high precision particle-by-particle 3D reconstruction of granular systems composed of m...
The mass transport properties of bulk random sphere packings depend primarily on the bed (external) ...
I study the structural organization and correlations in very large packings of equally sized spheres...
In this article a closed-form equation is derived for the binary random packing fraction of similar ...
A notorious problem in physics is to create a solvable model for random sequential adsorption of non...
Static structure factors are computed for large-scale, mechanically stable, jammed packings of frict...
Dense, disordered packings of particles are useful models of low-temperature amorphous phases of mat...
This paper addresses the geometric random packing and void fraction of polydisperse particles. It is...
By pouring equal balls into a container one obtains disordered packings with fascinating properties ...
Disordered packings of equal sized spheres cannot be generated above the limiting density (fraction ...
We investigate how the densities of inherent structures, which we refer to as the closest jammed con...
We prove that uniformly random packings of copies of a certain simply connected figure in the plane ...
International audienceWe analyze the packing properties of simulated three-dimensional polydisperse ...
A random packing of hard particles represents a fundamental model for granular matter. Despite its i...
©2002 The American Physical Society. The electronic version of this article is the complete one and ...
We present a high precision particle-by-particle 3D reconstruction of granular systems composed of m...
The mass transport properties of bulk random sphere packings depend primarily on the bed (external) ...
I study the structural organization and correlations in very large packings of equally sized spheres...
In this article a closed-form equation is derived for the binary random packing fraction of similar ...
A notorious problem in physics is to create a solvable model for random sequential adsorption of non...