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Defect absorption and emission for p-atic liquid crystals on cones. | LitMetric

Defect absorption and emission for p-atic liquid crystals on cones.

Phys Rev E

Department of Physics, Harvard University, Cambridge, Massachusetts 02138, USA.

Published: August 2022

AI Article Synopsis

  • This study explores the configurations of liquid crystals with p-fold rotational symmetry on curved surfaces, emphasizing the importance of intrinsic geometry and isothermal coordinates in understanding elastic potential.
  • The research reveals that when using a cone with a specific half-angle, the apex of the cone exhibits a unique topological charge that influences the interaction of defects, leading to their absorption and emission based on the cone's angle.
  • The findings show distinct ground-state configurations depending on the cone's sharpness and boundary conditions, with the arrangement of defects varying significantly across different cone angles and configurations, confirmed by numerical simulations.

Article Abstract

We investigate the ground-state configurations of two-dimensional liquid crystals with p-fold rotational symmetry (p-atics) on fixed curved surfaces. We focus on the intrinsic geometry and show that isothermal coordinates are particularly convenient as they explicitly encode a geometric contribution to the elastic potential. In the special case of a cone with half-angle β, the apex develops an effective topological charge of -χ, where 2πχ=2π(1-sinβ) is the deficit angle of the cone, and a topological defect of charge σ behaves as if it had an effective topological charge Q_{eff}=(σ-σ^{2}/2) when interacting with the apex. The effective charge of the apex leads to defect absorption and emission at the cone apex as the deficit angle of the cone is varied. For total topological defect charge 1, e.g., imposed by tangential boundary conditions at the edge, we find that for a disk the ground-state configuration consists of p defects each of charge +1/p lying equally spaced on a concentric ring of radius d=(p-1/3p-1)^{1/2p}R, where R is the radius of the disk. In the case of a cone with tangential boundary conditions at the base, we find three types of ground-state configurations as a function of cone angle: (i) for sharp cones, all of the +1/p defects are absorbed by the apex; (ii) at intermediate cone angles, some of the +1/p defects are absorbed by the apex and the rest lie equally spaced along a concentric ring on the flank; and (iii) for nearly flat cones, all of the +1/p defects lie equally spaced along a concentric ring on the flank. Here the defect positions and the absorption transitions depend intricately on p and the deficit angle, which we analytically compute. We check these results with numerical simulations for a set of commensurate cone angles and find excellent agreement.

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Source
http://dx.doi.org/10.1103/PhysRevE.106.024704DOI Listing

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