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Tokyo Institute of Technology, Department of Textile and Polymeric Materials | 論文
- Surface-Induced Helix-Unwinding Process in Thin Homogeneous Ferroelectric Smectic Cells of DOBAMBC
- Helical Pitches and Tilt Angles in Room Temperature Ferroelectric Chiral Smectic C Liquid Crystals, MORA n and MBRA n
- Light Propagation in Williams Domains as Analyzed Numerically by Geometrical Optics
- A Practical Method of Preparing Thin Homogeneous Ferroelectric Smectie Cells for Electro-Optical Microsecond Switches : Alignment Control of Liquid Crystal Molecules by Utilizing Spacer Edges
- Reentrant Distorted Sm C^* Observed under Electric Field in Ferroelectric Smectic Liquid Crystals, nOBAMBC
- Magnetic Field Effects on Preparing Thin Homogeneous Ferroelectric Smectic Cells for Electro-Optical Microsecond Switches
- Determination of Helical Pitch in Homeotropic Cell of Chiral Smectic Liquid Crystal Using F-Center Laser
- Temperature Sensitive Helical Pitches and Wall Anchoring Effects in Homogeneous Monodomains of Ferroelectric Sm C^* Liquid Crystals, nOBAMBC (n=6-10)
- Anomalous Electric Field Dependence of Helical Pitches in Ferroelectric Sm C : at Temperatures Close to the Phase Transition to Sm A
- Causes for the Appearance of Fringes in Cholesterics, Williams Domains and Chiral Smectic C Liquid Crystals
- Preparation of Monodomain Cells of Ferroelectric Liquid Crystals and Their Evaluation with an Optical Microscope
- Temperature Variation of Helical Pitches in Chiral Smectic C Liquid Crystals as Observed with an Optical Microscope
- A Practical Method of Preparing Thin Homogeneous Ferroelectric Smectic Cells for Electro-Optical Microsecond Switches (II): Sm A Liquid Crystal Growth under a Temperature Gradient
- Electric-Field-Induced Apparent Tilt Angle and Devil's Staircase in SmC_α of an Antiferroelectric Chiral Smectic Liquid Crystal
- Dispersion Relation of Optical Eigen Modes in Chiral Smectic C by 4×4 Matrix Method
- Numerical Calculation of Ellipticities of Optical Eigen Modes in Cholesteric Liquid Crystals
- A Method for Studying Optical Eigen Modes in Cholesteric Liquid Crystals by Using Stress Plate Modulators in Tandem
- Numerical Calculation of Optical Eigenmodes in Cholesteric Liquid Crystals by 4×4 Matrix Method
- Direct Method with Triangular Waves for Measuring Spontaneous Polarization in Ferroelectric Liquid Crystals
- Structural and Electrical Properties of Crystalline TiO_2 Thin Films Formed by Metalorgarnic Decomposition