Dynamic Response of Glassy Dispersions in a Nematic Liquid Crystal

Abstract

We present the first systematic measurements of the dynamic response of a glassy soft-solid formed on dispersing colloids in a thermotropic nematic liquid crystal. Through applying a simple theoretical model, we reveal that the nematic elasticity dominates at low frequencies (longest timescales) and prevents flow. The Ericksen number ER, determines a critical frequency ωc, above which the viscous component G'' ω 1/2. We find that the value of tanδ is independent of the colloidal volume fraction (φ), and is determined by the ratio of lengthscales associated with the defect-line density and the size of colloid-free nematic regions trapped within the composite.