Self-diffusion of rod-like viruses in the nematic phase
Abstract
We measure the self-diffusion of colloidal rod-like virus fd in an isotropic and nematic phase. A low volume fraction of viruses are labelled with a fluorescent dye and dissolved in a background of unlabelled rods. The trajectories of individual rods are visualized using fluorescence microscopy from which the diffusion constant is extracted. The diffusion parallel (D) and perpendicular (D) to the nematic director is measured. The ratio (D/D) increases monotonically with increasing virus concentration. Crossing the isotropic-nematic phase boundary results in increase of D and decrease of D when compared to the diffusion in the isotropic phase (Diso).
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