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Polarization of Monochromatic Waves. Background of the Jones Matrix Methods. The Jones Calculus

The Jones Calculus: Solutions for Ideal Twisted Structures and Their Applications in LCD Optics

Optical Equivalence Theorem

Electro‐optical Modes: Practical Examples of LCD Modeling and Optimization

Necessary Mathematics. Radiometric Terms. Conventions. Various Stokes and Jones Vectors

Simple Models and Representations for Solving Optimization and Inverse Optical Problems. Real Optics of LC Cells and Useful Approximations

Some Physical Models and Mathematical Algorithms Used in Modeling the Optical Performance of LCDs

Modeling Methods Based on the Rigorous Theory of the Interaction of a Plane Monochromatic Wave with an Ideal Stratified Medium. Eigenwave (EW) Methods. EW Jones Matrix Method

Choice of Eigenwave Bases for Isotropic, Uniaxial, and Biaxial Media

Efficient Methods for Calculating Optical Characteristics of Layered Systems for Quasimonochromatic Incident Light. Main Routines of LMOPTICS Library

Calculation of Transmission Characteristics of Inhomogeneous Liquid Crystal Layers with Negligible Bulk Reflection

Some Approximate Representations in EW Jones Matrix Method and Their Application in Solving Optimization and Inverse Problems for LCDs

A Few Words About Modeling of Fine‐Structure LCDs and the Direct Ray Approximation

Appendix A: LCD Modeling Software MOUSE‐LCD Used for the HKUST Students Final Year Projects (FYP) from 2003 to 2011

Appexdix B: Some Derivations and Examples

Index

Front Matter