Rotational self-diffusion in suspensions of charged particles: simulations and revised Beenakker–Mazur and pairwise additivity methods† Karol Makuch,*a Marco Heinen,b Gustavo Coelho Abade‡c and Gerhard Nägeled We present a comprehensive joint theory-simulation study of rotational self-diffusion in suspensions of charged particles whose interactions are modeled by the generic hard-sphere plus repulsive Yukawa (HSY) pair potential. Elaborate, high-precision simulation results for the short-time rotational self-diffusion coefficient, Dr, are discussed covering a broad range of fluid-phase state points in the HSY model phase diagram. The salient trends in the behavior of Dr as a function of reduced potential strength and range, and particle co...
We have used the Forced Rayleigh Scattering technique to measure the self diffusion constant of the ...
International audienceIn this paper, we provide the $O(\varepsilon)$ corrections to the hydrodynamic...
The hydrodynamic transport properties of hard-sphere dispersions are calculated for volume fractions...
We present a comprehensive joint theory-simulation study of rotational self-diffusion in suspensions...
In our recent work on concentrated suspensions of uniformly porous colloidal spheres with excluded v...
We demonstrate that tracer/host size asymmetry and electrostatic interactions strongly affect rotati...
We present an easy-to-use analytic toolbox for the calculation of short-time transport properties of...
According to the Stokes-Einstein-Debye (SED) relation, the rotational diffusion coefficient of a col...
The diffusive behavior of macromolecules in solution is a key factor in the kinetics of macromolecul...
We report on a comprehensive theory-simulation-experimental study of collective and self-diffusion i...
We present a detailed study of short-time dynamic properties in concentrated suspensions of charge-s...
Recently a microscopic theory for the dynamics of suspensions of long thin rigid rods was presented,...
According to the Stokes-Einstein-Debye (SED) relation, the rotational diffusion coefficient of a col...
This thesis examines the dynamics and physical properties of the rough hard sphere fluid (RHSF). The...
We have computed the rotational diffusion coefficient for a suspension of hard spheres. We find exce...
We have used the Forced Rayleigh Scattering technique to measure the self diffusion constant of the ...
International audienceIn this paper, we provide the $O(\varepsilon)$ corrections to the hydrodynamic...
The hydrodynamic transport properties of hard-sphere dispersions are calculated for volume fractions...
We present a comprehensive joint theory-simulation study of rotational self-diffusion in suspensions...
In our recent work on concentrated suspensions of uniformly porous colloidal spheres with excluded v...
We demonstrate that tracer/host size asymmetry and electrostatic interactions strongly affect rotati...
We present an easy-to-use analytic toolbox for the calculation of short-time transport properties of...
According to the Stokes-Einstein-Debye (SED) relation, the rotational diffusion coefficient of a col...
The diffusive behavior of macromolecules in solution is a key factor in the kinetics of macromolecul...
We report on a comprehensive theory-simulation-experimental study of collective and self-diffusion i...
We present a detailed study of short-time dynamic properties in concentrated suspensions of charge-s...
Recently a microscopic theory for the dynamics of suspensions of long thin rigid rods was presented,...
According to the Stokes-Einstein-Debye (SED) relation, the rotational diffusion coefficient of a col...
This thesis examines the dynamics and physical properties of the rough hard sphere fluid (RHSF). The...
We have computed the rotational diffusion coefficient for a suspension of hard spheres. We find exce...
We have used the Forced Rayleigh Scattering technique to measure the self diffusion constant of the ...
International audienceIn this paper, we provide the $O(\varepsilon)$ corrections to the hydrodynamic...
The hydrodynamic transport properties of hard-sphere dispersions are calculated for volume fractions...