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Intended as an introductory guide to the fundamental properties of liquid crystals and applications in displays and photonic devices it includes discussions on liquid crystal physics, electro-optical properties, simulation techniques, display applications and photonic applications.
List of contents
Foreword.
Series Editor's Foreword.
Preface.
1. Liquid crystal physics.
Introduction.
Thermodynamics and statistic physics.
Orientational order.
Elastic properties of liquid crystals.
Response of liquid crystals to electro-magnetic fields.
Anchoring effects of nematic liquid crystal at surfaces.
Homework problems.
2. Propagation of light in anisotropic optical medium.
Electromagnetic wave.
Polarization.
Propagation of light in uniform anisotropic optical media.
Propagation of light in cholesteric liquid crystals.
Homework problems.
3. Optical modeling methods.
Jones matrix method.
Mueller matrix method.
Berreman 4x4 method.
Homework problems.
4. Effects of Electric field on Liquid Crystals.
Dielectric interaction.
Flexoelectric Effect.
Ferroelectricity in liquid crystals.
Homework.
5. Freedericksz transition.
Calculus of variation.
The Fredeericksz transition: statics.
The Freedericksz transition: dynamics.
Homework problems.
6. Liquid Crystal Materials.
Introduction.
Refractive indices.
Dielectric constants.
Rotational Viscosity.
Elastic constant.
Figure-of-merits.
Refractive index matching between liquid crystals and polymers.
Homework problems.
7. Modeling of liquid crystal director configuration.
Electric energy of liquid crystals.
Modeling electric field.
Simulation of liquid crystal director configuration.
Homework problems.
8. Transmissive liquid crystal display.
Introduction.
Twisted nematic cells.
In plane switching (IPS) mode.
Vertical alignment (VA) mode.
Multi-domain Vertical Alignment (MVA) Cells.
Optically compensated bend (OCB) cell.
Homework problems.
9. Reflective and Trasreflective display.
Introduction.
Reflective liquid crystal displays.
Transflector.
Classification of Transflective LCDs.
Dual-cell-gap Transflective LCDs.
Single-cell-gap Transflective LCDs.
Performance of transflective LCDs.
Homework problems.
10. Liquid crystal display matrices, drive schemes and bistable displays.
Segmented displays.
Passive matrix displays and drive scheme.
Active Matrix Displays.
Bistable ferroelectric liquid crystal displays and drive scheme.
Bistable nematic displays.
Bistable cholesteric reflective display.
Homework problems.
11. Liquid crystal/polymer composites.
Introduction.
Phase separation.
Scattering properties of liquid crystal/polymer composites.
Polymer dispersed liquid crystals.
Polymer stabilization liquid crystals.
Displays from liquid crystal/polymer composites.
Homework problems.
12. Tunable liquid crystal photonic devices.
Introduction.
Laser beam steering.
Variable Optical Attenuators.
Tunable-Focus Lens.
Polarization-Independent LC Devices.
Homework problems.
Index.
