Radial Symmetry on 3D Shells in the Landau-de Gennes Theory

Apala Majumdar, Giacomo Canevari, Mythily Ramaswamy

Published 2014-08-30Version 1

We study the stability of the radial-hedgehog solution on a three-dimensional (3D) spherical shell with radial boundary conditions, within the Landau-de Gennes theory for nematic liquid crystals. We show that the radial-hedgehog solution has no zeroes for a sufficiently narrow shell, for all temperatures below the nematic supercooling temperature. We prove that the radial-hedgehog solution is the unique global Landau-de Gennes energy minimizer for a sufficiently narrow 3D spherical shell, for all temperatures below the nematic supercooling temperature. We provide explicit geometry-dependent criteria for the global minimality of the radial-hedgehog solution in this temperature regime. In the low temperature limit, we prove the local stability of the radial-hedgehog solution on a 3D spherical shell, for all values of the inner and outer radii.