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Transition of defect patterns from 2D to 3D in liquid crystals (1510.04391v1)

Published 15 Oct 2015 in cond-mat.soft

Abstract: Defects arise when nematic liquid crystals are under topological constraints at the boundary. Recently the study of defects has drawn a lot of attention. In this paper, we investigate the relationship between two-dimensional defects and three-dimensional defects within nematic liquid crystals confined in a shell under the Landau-de Gennes model. We use a highly accurate spectral method to numerically solve the Landau- de Gennes model to get the detailed static structures of defects. Interestingly, the solution is radial-invariant when the thickness of the shell is sufficiently small. As the shell thickness increase, the solution undergo symmetry break to reconfigure the disclination lines. We study this three-dimensional reconfiguration of disclination lines in detail under different boundary conditions. We also discuss the topological charge of defects in two- and three-dimensional spaces within the tensor model.

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