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Shear-induced first-order transition in polar liquid crystals

Published 25 Oct 2018 in cond-mat.soft, cond-mat.stat-mech, and physics.bio-ph | (1810.11124v1)

Abstract: The hydrodynamic theory of polar liquid crystals is widely used to describe biological active fluids as well as passive molecular materials. Depending on the shear-alignment parameter', in passive or weakly active polar fluids under external shear the polar order parameter ${\mathbf{p}}$ is either inclined to the flow at a fixed (Leslie) angle, or rotates continuously. Here we study the role of an additionalshear-elongation parameter' that has been neglected in the recent literature and causes $|{\mathbf{p}}|$ to change under flow. We show that this effect can give rise to a shear-induced first order phase transition %(instead of the usual second order transition) from isotropic to polar, and significantly change the rheological properties of both active and passive polar fluids.

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