We present Monte Carlo (MC) simulations of the structure factors of polydisperse hard-sphere fluids. The simulations were carried out for 108 particles and packing fractions up to =0.5. The size distribution of the particles was chosen randomly from a log-normal distribution. The MC results are compared with predictions obtained using Percus–Yevick approximation. It is found that for all but the highest densities and the highest polydispersities studied, the Percus–Yevick approximation provides a satisfactory description of the MC data
The structure of polydisperse hard sphere fluids, in the presence of a wall, is studied by the Rosen...
We study the polydisperse Baxter model of sticky hard spheres (SHS) in the modified mean spherical a...
3siComputer simulations give precious insight into the microscopic behavior of supercooled liquids a...
Monte Carlo simulations of polydisperse hard sphere fluids have been performed in three different en...
Hard spheres with ratios of diameters of 3:5 and 1:3 and at various densitics are studied by means o...
We consider the effect of intermolecular interactions on the optimal size-distribution of N hard sph...
Monte Carlo simulations of the fcc phase of polydisperse hard spheres near close packing are reporte...
We study the effects of size polydispersity on the gas-liquid phase behavior of mixtures of sticky h...
This dissertation explores the use of packings of frictionless hard particles as models of the micro...
Closed analytical expressions for scattering intensity and other global structure factors are derive...
We propose a new type of effective densities via the potential distribution theorem. These densities...
A recent proposal in which the equation of state of a polydisperse hard-sphere mixture is mapped ont...
We propose a modified direct simulation Monte Carlo (DSMC) method, which extends the validity of DSM...
We present a study of connectivity percolation in suspensions of hard spherocylinders by means of Mo...
Monte Carlo simulations of the three-dimensional sticky-hard-sphere system are presented. A new modi...
The structure of polydisperse hard sphere fluids, in the presence of a wall, is studied by the Rosen...
We study the polydisperse Baxter model of sticky hard spheres (SHS) in the modified mean spherical a...
3siComputer simulations give precious insight into the microscopic behavior of supercooled liquids a...
Monte Carlo simulations of polydisperse hard sphere fluids have been performed in three different en...
Hard spheres with ratios of diameters of 3:5 and 1:3 and at various densitics are studied by means o...
We consider the effect of intermolecular interactions on the optimal size-distribution of N hard sph...
Monte Carlo simulations of the fcc phase of polydisperse hard spheres near close packing are reporte...
We study the effects of size polydispersity on the gas-liquid phase behavior of mixtures of sticky h...
This dissertation explores the use of packings of frictionless hard particles as models of the micro...
Closed analytical expressions for scattering intensity and other global structure factors are derive...
We propose a new type of effective densities via the potential distribution theorem. These densities...
A recent proposal in which the equation of state of a polydisperse hard-sphere mixture is mapped ont...
We propose a modified direct simulation Monte Carlo (DSMC) method, which extends the validity of DSM...
We present a study of connectivity percolation in suspensions of hard spherocylinders by means of Mo...
Monte Carlo simulations of the three-dimensional sticky-hard-sphere system are presented. A new modi...
The structure of polydisperse hard sphere fluids, in the presence of a wall, is studied by the Rosen...
We study the polydisperse Baxter model of sticky hard spheres (SHS) in the modified mean spherical a...
3siComputer simulations give precious insight into the microscopic behavior of supercooled liquids a...