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Controlling Gaussian and mean curvatures at microscale by sublimation and condensation of smectic liquid crystals

Published 24 Nov 2015 in cond-mat.soft, cond-mat.mtrl-sci, and physics.chem-ph | (1511.07602v1)

Abstract: Soft materials with layered structure such as membranes, block copolymers, and smectics exhibit intriguing morphologies with nontrivial curvatures. We report on restructuring the Gaussian and mean curvatures of smectic A films with free surface in the process of sintering, i.e. reshaping at elevated temperatures. The pattern of alternating patches of negative, zero, and positive mean curvature of the air-smectic interface has a profound effect on the rate of sublimation. As a result of sublimation, condensation, and restructuring, initially equilibrium smectic films with negative and zero Gaussian curvature are transformed into structures with pronounced positive Gaussian curvature of layers packing, seldom seen in samples obtained by cooling from the isotropic melt. The observed relationship between the curvatures, bulk elastic behaviour, and interfacial geometries in sintering of smectic liquid crystals paves the way for new approaches to control soft morphologies at micron and submicron scales.

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