Dynamical properties of strongly interacting Brownian particles: 1. Dynamic shear viscosity

The self-diffusion process of Brownian particles is theoretically investigated for concentrated systems in the presence of strong potential interactions between particles. Starting from an N-particle diffusion equation, a formalism is developed to calculate the self-diffusion coefficienl and the vel

We investigate some of the dynamic properties of diffusing particles described by a many-body Smoluchowski equation. The dynamic structure factor is expressed in terms of a memory function which is evaluated in the cases of i) weak interaction and ii) low particle density, but arbitrary interaction.

It is shown that the memory function of concentration fluctuations b?(k, t), derived from the generalized Smoluchowski equation, is not a one-particle irreducible quantity. A new function M(k, t), which is one-particle irreducible, is derived and the relation between both functions is established.

liquids (2) and specifically by the Derjaguin-Landau-Ver-A colloidal system of strongly charged particles, confined bewey-Oberbeek (DLVO) model to account for the interactween two charged walls, is studied under static conditions and tions between colloidal particles in the bulk (3). However, in the