Cooling a spherical nematic shell

Within the framework of Landau-de Gennes theory for nematic liquid crystals, we study the temperatureinduced isotropic-nematic phase transition on a spherical shell under the assumption of degenerate tangential anchoring. Below a critical temperature, a thin layer of nematic coating a microscopic spherical particle exhibits nonuniform textures due to the geometrical frustration. We find the exact value of the critical threshold for the temperature and determine exactly the nematic textures at the transition by means of a weakly nonlinear analysis. The critical temperature is affected by the extrinsic curvature of the sphere, and the nematic alignment is consistent with the Poincare-Hopf index theorem and experimental observations. The stability analysis of the bifurcate textures at the isotropic-nematic transition highlights that only the tetrahedral configuration is stable.

Automated summary

The study investigates the temperature-induced isotropic-nematic phase transition on a spherical shell under the assumption of degenerate tangential anchoring within the framework of Landau-de Gennes theory. It finds the exact critical threshold value for the temperature and determines the nematic textures at the transition through weakly nonlinear analysis. The stability analysis shows that only the tetrahedral configuration is stable at the isotropic-nematic transition.