Evaluation of Nematic Liquid Crystal Director Orientation in Vicinity of Glass Substrate Using Shear Horizontal Wave Propagation

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概要

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• A nematic liquid crystal director orientation in a vicinity of a glass/liquid-crystal interface is investigated in relation to an acoustic phase change of a shear horizontal (SH) wave propagating in a cell structure. The relationships between phase change and electric field applied to the liquid crystal layer are given for various layer thicknesses. The numerical analysis of wave penetration in the liquid crystal cell is performed by considering distribution profiles of liquid crystal direction in relation to shear stress at the glass/liquid-crystal interface. The experimental acoustic phase changes are well consistent with the calculated shear stresses as flow resistance. The acoustic phase is strongly dependent on viscosity distribution and particle velocity in the liquid crystal layer.

• Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
• 2006-05-30

著者

• MORITAKE Hiroshi

  Department of Electrical and Electronic Engineering, National Defense Academy

• Ozaki Ryotaro

  Department Of Electrical And Electronic Engineering National Defense Academy

• Toda Kohji

  Departmemt Of Electronic Engineering National Defense Academy

• Aoki Masashi

  Department of Electrical and Electronic Engineering, National Defense Academy, 1-10-20 Hashirimizu, Yokosuka, Kanagawa 239-8686, Japan

• Yoshino Katsumi

  Research Project Promotion Institute, Shimane University, 2 Hokuryo-cho, Matsue 690-0816, Japan

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