Abstract
By computer simulation the anisotropic long-time translational self-diffusion coefficients are calculated in the nematic phase of colloidal hard spherocylinders exhibiting Brownian dynamics in a solvent. In particular, the two diffusion coefficients DL i and DL ' , parallel and perpendicular to the nematic director, are obtained for aspect ratios between 4.8 and 16 and for arbitrary densities. Long-time diffusion along the nematic director is nonmonotonic in density: Upon increasing the density, it first increases due to stronger alignment and then decreases due to packing constraints. It is shown that the ratio DL i /DL ' and the orientation flip rate essentially scale with the nematic order parameter. While the ratio DL i /DL ' increases with density in the nematic phase, it decreases dramatically with increasing density in the smectic-A phase. The results are compared to recent experiments. @S1063-651X~99!03602-8#
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