Anomalous diffusion of colloidal particles in a nematic liquid crystal

We explore the Brownian motion of colloidal microspheres in a nematic liquid crystal within time scales below 100ms that was not accessible in previous experiments. Our experimental results point towards an apparent sub-diffusion of the colloids with a mean square displacement MSD $\propto t^{1/2}$. For longer time scales, the particles exhibit normal diffusion with two anisotropic diffusion constants parallel and perpendicular to the nematic director $\bf n$ [1]. The nonlinear effect vanishes when the host is heated up to the isotropic phase; therefore the subdiffusive behavior can be attributed to the coupling of slow director fluctuations of the nematic with the colloidal particle dynamics. We also discuss the role of finite accuracy of measurements. \\[4pt] [1] J. C. Loudet, P. Hanusse and P. Poulin, Science 306, (2004).