The molecular theory of the Brownian motion of heavy particles in a homogeneous solvent of light particles is extended to cover the case of interactions between the Brownian particles. This will have physical effects in the concentration dependence of the Brownian particle self-diffusion coefficient. A density expansion for the Brownian particle friction coefficient is derived, and an approximation permitting the first density correction to be calculated is suggested. © 1969 Plenum Publishing Corporation.SCOPUS: ar.jinfo:eu-repo/semantics/publishe
We present results for the velocity autocorrelation functions, self diffusion coefficients, memory f...
Abstract. While the theory of diffusion of a single Brownian particle in confined geometries is well...
In the present thesis a microhydrodynamic theory for Brownian multi-particle dynamics in an isolated...
We consider two ways to calculate the self-diffusion coefficient of interacting Brownian particles. ...
A phenomenological theory is developed for Brownian motion in a flowing incompressible fluid. The Br...
Brownian diffusion of particles with Knudsen number large compared to one is analyzed both in equili...
A microscopic theory of molecular motion in classical monatomic liquids, proposed by Glass and Rice ...
We present a detailed derivation of the closed-form expression for the diffusion coefficient that wa...
An understanding of the effect of specific solute-solvent interactions on the diffusion of a solute ...
An intuitive treatment of Brownian motion is described, mainly based on the Langevin and generalized...
The mutual diffusion coefficient Dm of a Brownian particle may be expressed as the ratio of a thermo...
The effect of direct interactions between suspended particles on their diffusion coefficient is inve...
This is an introduction to the theory of interacting Brownian particles, as applied to charge-stabil...
Recently, Lebowitz and Rubin, and Résibois and Davis, showed that the Fokker-Planck equation for the...
The generalized Langevin equation and the stationary requirement for an equilibrium system are used ...
We present results for the velocity autocorrelation functions, self diffusion coefficients, memory f...
Abstract. While the theory of diffusion of a single Brownian particle in confined geometries is well...
In the present thesis a microhydrodynamic theory for Brownian multi-particle dynamics in an isolated...
We consider two ways to calculate the self-diffusion coefficient of interacting Brownian particles. ...
A phenomenological theory is developed for Brownian motion in a flowing incompressible fluid. The Br...
Brownian diffusion of particles with Knudsen number large compared to one is analyzed both in equili...
A microscopic theory of molecular motion in classical monatomic liquids, proposed by Glass and Rice ...
We present a detailed derivation of the closed-form expression for the diffusion coefficient that wa...
An understanding of the effect of specific solute-solvent interactions on the diffusion of a solute ...
An intuitive treatment of Brownian motion is described, mainly based on the Langevin and generalized...
The mutual diffusion coefficient Dm of a Brownian particle may be expressed as the ratio of a thermo...
The effect of direct interactions between suspended particles on their diffusion coefficient is inve...
This is an introduction to the theory of interacting Brownian particles, as applied to charge-stabil...
Recently, Lebowitz and Rubin, and Résibois and Davis, showed that the Fokker-Planck equation for the...
The generalized Langevin equation and the stationary requirement for an equilibrium system are used ...
We present results for the velocity autocorrelation functions, self diffusion coefficients, memory f...
Abstract. While the theory of diffusion of a single Brownian particle in confined geometries is well...
In the present thesis a microhydrodynamic theory for Brownian multi-particle dynamics in an isolated...