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Modeling and Optimization of LCD Optical Performance [2015]
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Polarization of Monochromatic Waves. Background of the Jones Matrix Methods. The Jones Calculus
- 59
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The Jones Calculus: Solutions for Ideal Twisted Structures and Their Applications in LCD Optics
- 75
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Optical Equivalence Theorem
- 91
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Electro‐optical Modes: Practical Examples of LCD Modeling and Optimization
- 153
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Necessary Mathematics. Radiometric Terms. Conventions. Various Stokes and Jones Vectors
- 177
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Simple Models and Representations for Solving Optimization and Inverse Optical Problems. Real Optics of LC Cells and Useful Approximations
- 217
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Some Physical Models and Mathematical Algorithms Used in Modeling the Optical Performance of LCDs
- 251
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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
- 331
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Choice of Eigenwave Bases for Isotropic, Uniaxial, and Biaxial Media
- 367
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Efficient Methods for Calculating Optical Characteristics of Layered Systems for Quasimonochromatic Incident Light. Main Routines of LMOPTICS Library
- 393
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Calculation of Transmission Characteristics of Inhomogeneous Liquid Crystal Layers with Negligible Bulk Reflection
- 441
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Some Approximate Representations in EW Jones Matrix Method and Their Application in Solving Optimization and Inverse Problems for LCDs
- 507
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A Few Words About Modeling of Fine‐Structure LCDs and the Direct Ray Approximation
- 517
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Appendix A: LCD Modeling Software MOUSE‐LCD Used for the HKUST Students Final Year Projects (FYP) from 2003 to 2011
- 537
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Appexdix B: Some Derivations and Examples
- 545
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Index
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Front Matter