Evaluation of Nematic Liquid Crystal Director Orientation in Vicinity of Glass Substrate Using Shear Horizontal Wave Propagation
スポンサーリンク
概要
- 論文の詳細を見る
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
関連論文
- Tunable Liquid Crystal Laser Using Distributed Feedback Cavity Fabricated by Nanoimprint Lithography
- Dynamic response of shear horizontal wave propagating in liquid crystal cell to molecular reorientation (Special issue: Ultrasonic electronics)
- P1-31 Dynamic Response of Shear Horizontal Wave Propagation in Liquid Crystal Cell to Molecular Reorientation(Poster session 1)
- Behavior of Director Orientation near Interface of Nematic Liquid-Crystal Cell Evaluated Using Shear Horizontal Wave Propagation
- Single-Mode Lasing in One-Dimensional Periodic Structure Containing Helical Structure as a Defect
- Lasing in cholesteric liquid costal oriented by acoustic streaming (Special issue: Molecular electronics and bioelectronics)
- Measurement of mechanical resonance in freely suspended ferroelectric liquid crystal film (Special issue: Ferroelectric materials and their applications)
- Reorientation of cholesteric liquid crystal molecules using acoustic streaming
- Evaluation of Nematic Liquid Crystal Director Orientation in Vicinity of Glass Substrate Using Shear Horizontal Wave Propagation (Special Issue: Ultrasonic Electronics)
- Defect Mode in One-Dimensional Photonic Crystal with In-Plane Switchable Nematic Liquid Crystal Defect Layer
- Defect Mode Switching in One-Dimensional Photonic Crystal with Nematie Liquid Crystal as Defect Layer
- Optical Property of Electro-Tunable Defect Mode in 1-D Periodic Structure with Liquid Crystal Defect Layer(The IEICE Transactions (published in Japanese) Vol. J86-C, No.5 (Electronics))
- タイトル無し
- Electro-Tunable Defect Mode in One-Dimensional Periodic Structure Containing Nematic Liquid Crystal as a Defect Layer
- Analysis of Acoustic Streaming in Nematic Liquid-Crystal Cell
- Optical Properties of Domain Pattern Induced in Nematic Liquid-Crystal Cell by Elastic Wave Propagation : Optical Properties of Condensed Matter
- Propagation Characteristics of Lamb Wave in Nematic Liquid-Crystal Cell
- Influence of Liquid-Crystal Directors in an Electric Field on Elastic Wave Propagating in Liquid-Crystal Cell
- Viscosity Measurement of Nematic Liquid Crystal Using Shear Horizontal Wave Propagation in Liquid Crystal Cell
- Viscosity Measurement of Ferroelectric Liquid Crystal Using Shear Horizontal Wave Propagation in a Trilayer Structure
- Periodic Property of Domain in Nematic Liquid Crystal Induced by Elastic Wave
- Liquid Viscosity Measurement Using Plate Mode Shear Horizontal Waves on a Piezoelectric Ceramic Thin Plate
- Anomalous Phase Sequence in Binary Mixture of 3MC2PCPOPB and TFMHPOBC ( FERROELECTRIC MATERIALS AND THEIR APPLICATIONS)
- Dielectric Properties in Ferroelectric and Antiferroelectric Liquid Crystals with Isotropie-Chiral Smectic C Phase Sequence
- Electrooptical and Nonlinear Optical Effects in Free-Surface Films of Polymeric Ferroelectric Liquid Crystals Prepared by Spin-Coating Method
- Motion Characteristics Measurement of Rotating Object Using Surface Acoustic Wave Oscillator
- Lamb Wave Propagation Characteristics and Transducer Performances in Layered Substrate Composed of Piezoelectric Thin Plate and Glass Thin Plate
- Underwater Ultrasonic Wave Transducer Using Interdigital Electrodes : Non-Destructive Testing
- Unidirectional Layer Alignment in Ferroelectric Liquid Crystal with N^* -C^* Phase Sequence ( FERROELECTRIC MATERIALS AND THEIR APPLICATIONS)
- Anomalous Behavior of Spontaneous Polarization in Ferroelectric Liquid Crystal Mixture ( FERROELECTRIC MATERIALS AND THEIR APPLICATIONS)
- Director Orientation Measurement of Nematic Liquid Crystal Using Velocity Change of Shear Horizontal Wave
- Role of Whispering Gallery Mode and Ray in Concave Boundary : Ultrasonic Propagation and Field
- Residential Proximity to High-Voltage Power Lines and Risk of Childhood Hematological Malignancies
- Measurement of Leaky Lamb Wave Velocity Using Raman-Nath Diffraction
- Polarization Reversal Process and Transient Light Scattering in Polymeric Ferroelectric Liquid Crystal
- New Bistable Electrooptic Effect in Side-Chain Ferroelectric Liquid Crystalline Polymer
- Dependence of Transducer Performance of Lamb Wave Multiplexer on Terminal Condition : Communication Devices and Materials
- A Liquid Velocity Meter Using a Liquid Delay Line Oscillator : Acoustic Measurements
- Propagation Characteristics of SH-Waves in Piezoelectric Ceramic Plates : SAW and Communication Devices
- Propagation Characteristics of Lamb Waves in PbZrO_3-Based Ceramic Substrate
- Piezoelectric Characteristics of PbZrO_3-Based Ceramics around Ferroelectric Phase Transition Temperature : Ultrasonic Transduction
- Acoustic Wave Characteristics of Lead-Free (Bi_Na_)_Ca_TiO_3 Piezoelectric Ceramic : F: FERROELECTRIC MATERIALS
- Surface Acoustic Wave Characteristics of Grain-Oriented Bismuth Layer-Structured Ferroelectric Ceramics : SAW and Communication Devices
- Surface Acoustic Wave Binary Phase Shift Keying System for Time-Division Multiple Access
- Quadrature Phase Shift Keying Modulation and Demodulation System Using Rayleigh Wave Devices : SAW and Communication Devices
- An Acoustical Imaging System Using a Leaky Lamb Wave Transducer : SAW and Communication Devices
- Mathematical Treatment of Mode Coupling between Two Plane Waves Using Unitary Matrix and Neumann Series
- Smectic Layer Rotation in Ferroelectric Liquid Crystals
- Smectic Layer Rotation in Antiferroelectric Liquid Crystal
- Hybrid Optical Bistability Using Antiferroelectric Behavior in Ferroelectric Liquid Crystal : Optical Applications
- Optical Logic Element Using Ferroelectric Liquid Crystal with Electrical Feedback : Optical Applications
- A Phase Shift Keying Communication System Using SAW Devices : SAW and Communication Devices
- Measurement of the Liquid Surface Level Using a Leaky Lamb Wave Transducer : F: FERROELECTRIC MATERIALS
- Measurement of Moving Speed Using a Leaky Lamb Wave Device
- Mechanical Displacement Measurement Using a Leaky Lamb Wave Delay Line Oscillator
- Measurement Technique for Mechanical Vibration Using a Thickness-Mode Piezoelectric Transducer with Two Comb-Shaped Electrodes
- An Ultrasonic Modulator for 16-Valued Frequency Shift Keying : SAW and Communication Devices
- Reaction on Electromechanical Characteristics due to Acoustic Radiation from Substrate with Energy Confinement and Interference in Interdigital Transducer
- Optical Modulation Using Mode Conversion from Surface Acoustic Wave to Bulk Wave : O: Optoelectronics
- Signal Transduction Pathways through TRK-A and TRK-B Receptors in Human Neuroblastoma Cells
- Measurement of the Sound Velocity in Liquids Using a Leaky Lamb Wave Transducer Composed of a Layer-Structured Substrate
- An Ultrasonic Method of Construcuting a Differential Phase Shift Keying System : SAW and Communication Device
- Characterization of LiNbO3 Single-Crystal Substrates Irradiated with Electrons
- Nondestructive Testing Technique for Defect Detection in LiNbO3 Using Infrared Thermal Imaging Camera
- Viscosity Measurement of Ferroelectric Liquid Crystal Using Shear Horizontal Wave
- Erratum: “Microwave and Light-Wave Measurements for Nematic-Liquid-Crystal-Loaded Phase Shifter Using Coplanar Waveguide with Floating Electrode”
- Microwave and Light-Wave Measurements for Nematic-Liquid-Crystal-Loaded Phase Shifter Using Coplanar Waveguide with Floating Electrode
- Microwave Variable Phase Shifter of Coplanar Waveguide Using Ferroelectric Liquid Crystal
- Fast-Switching Microwave Phase Shifter of Coplanar Waveguide Using Ferroelectric Liquid Crystal
- A Self-Oscillation-Type Ultrasonic Linear Actuator
- Model for Operation Mechanism of Acoustooptic Modulator with Two Interdigital Transducers
- Acoustooptic Modulator with Interdigital Transducers for Driving and Controlling on a Piezoelectric Substrate
- Measurement of Group Velocity Variation due to Temperature using Frequency Dependence of Interference Intensity of Acoustic Waves and its Fourier Analysis
- Frequency Characteristics of an Acoustooptic Modulator with Two Interdigital Transducers
- Field-Induced Second-Harmonic Generation in Cholesteric Liquid Crystal
- Optical Deflection Using a Leaky Surface Acoustic Wave Device : S: Surface Acoustic Wave
- A Leaky Rayleigh Wave Device for Two-Dimensional Optical Deflection : SAW and Communication Devices
- Frequency Modulation of Optical Beam Using Ultrasonic Diffraction Grating : Photoacoustic Spectroscopy
- Acoustooptic Effects of Nematic Liquid Crystals Induced by Elastic Wave Propagating in Glass Substrate
- Transient Light Scattering in Antiferroelectric Liquid Crystal
- DC-Bias-Field-Induced Dielectric Relaxation in Antiferroelectric Phase of TFMHPOBC
- Antiferroelectric Properties and Their Surface Effect in Ferroelectric Liquid Crystal 3MC2PCPOPB
- Ultrasonic MODEM by Phase Shift Keying : SAW and BAW Materials, Devices and Theories
- Director Orientation Measurement of Nematic Liquid Crystal Using Velocity Change of Shear Horizontal Wave
- Quasi-Two-Dimensional Optical Confinement in a Cholesteric Liquid Crystal Infiltrated Optical Fiber
- Behavior of Director Orientation near Interface of Nematic Liquid-Crystal Cell Evaluated Using Shear Horizontal Wave Propagation
- Defect Mode in Cholesteric Liquid Crystal Consisting of Two Helicoidal Periodicities
- Evaluation of Nematic Liquid Crystal Director Orientation in Vicinity of Glass Substrate Using Shear Horizontal Wave Propagation
- Lasing in Cholesteric Liquid Crystal Oriented by Acoustic Streaming
- Dynamic Response of Shear Horizontal Wave Propagating in Liquid Crystal Cell to Molecular Reorientation
- Measurement of Mechanical Resonance in Freely Suspended Ferroelectric Liquid Crystal Film
- Reorientation of Cholesteric Liquid Crystal Molecules Using Acoustic Streaming
- Measurement of Electrically Induced Vibration Profile in Freely Suspended Film of Ferroelectric Liquid Crystal
- High-Quality Planar Alignment of Discotic Liquid Crystals Using Oscillating Shear
- Twist-Defect-Mode Lasing in Photopolymerized Cholesteric Liquid Crystal
- Analyses of Nematic Liquid Crystal Molecule Motion and Response Characteristics in Microstripline-Type Microwave Phase Shifter
- Analyses of Nematic Liquid Crystal Molecule Motion and Response Characteristics in Microstripline-Type Microwave Phase Shifter
- Viscosity Measurement of Nematic Liquid Crystal Using Shear Horizontal Wave Propagation in Liquid Crystal Cell
- High-Quality Planar Alignment of Discotic Liquid Crystals Using Oscillating Shear
- High-Quality Planar Alignment of Discotic Liquid Crystals Using Oscillating Shear