• DocumentCode
    1225962
  • Title

    Modeling of Weak Anisotropic Anchoring of Nematic Liquid Crystals in the Landau–de Gennes Theory

  • Author

    Willman, Eero ; Fernández, F. Aníbal ; James, Richard ; Day, Sally E.

  • Author_Institution
    Univ. Coll. London, London
  • Volume
    54
  • Issue
    10
  • fYear
    2007
  • Firstpage
    2630
  • Lastpage
    2637
  • Abstract
    The anisotropic anchoring effect of a treated solid surface on a nematic liquid crystal is described in the Landau-de Gennes theory using a power expansion on the tensor-order parameter and two mutually orthogonal unit vectors. The expression has three degrees of freedom, allowing for independent assignment of polar and azimuthal anchoring strengths and a preferred value of the surface-order parameter. It is shown that in the limit for a uniaxial constant-order parameter, the expression simplifies to the anisotropic generalization of the Rapini-Papoular anchoring energy density proposed by Zhao et al. Experimentally measurable values with a physical meaning in the Oseen-Frank theory can be scaled and assigned to the scalar coefficients of the tensor-order- parameter expansion. Results of numerical experiments comparing the anchoring according to the study of Zhao et al. in the Oseen-Frank theory and the power expansion in the Landau-de Gennes theory are presented and shown to agree well.
  • Keywords
    liquid crystal devices; nematic liquid crystals; Landau-de Gennes theory; Rapini-Papoular anchoring energy density; nematic liquid crystals; power expansion; surface-order parameter; tensor-order parameter; treated solid surface; uniaxial constant-order parameter; weak anisotropic anchoring; Anisotropic magnetoresistance; Chemical processes; Energy consumption; Helium; Liquid crystals; Polarization; Polymer films; Solid modeling; Surface treatment; Anchoring; liquid crystal (LC);
  • fLanguage
    English
  • Journal_Title
    Electron Devices, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9383
  • Type

    jour

  • DOI
    10.1109/TED.2007.904369
  • Filename
    4317759