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A nematic liquid crystal with an immersed body: equilibrium, stress and paradox

Thomas G. J. Chandler, Saverio E. Spagnolie

2023Journal of Fluid Mechanics13 citationsDOIOpen Access PDF

Abstract

We examine the equilibrium configurations of a nematic liquid crystal with an immersed body in two dimensions. A complex variables formulation provides a means for finding analytical solutions in the case of strong anchoring. Local tractions, forces and torques on the body are discussed in a general setting. For weak (finite) anchoring strengths, an effective boundary technique is proposed which is used to determine asymptotic solutions. The energy-minimizing locations of topological defects on the body surface are also discussed. A number of examples are provided, including circular and triangular bodies, and a Janus particle with hybrid anchoring conditions. Analogies to classical results in fluid dynamics are identified, including d'Alembert's paradox, Stokes’ paradox and the Kutta condition for circulation selection.

Topics & Concepts

Liquid crystalAnchoringClassical mechanicsBoundary (topology)PhysicsMechanicsBoundary value problemParticle (ecology)Mathematical analysisMathematicsOpticsQuantum mechanicsGeologyStructural engineeringEngineeringOceanographyLiquid Crystal Research AdvancementsMicro and Nano RoboticsAdvanced Materials and Mechanics