Info
- Utilizzare la checkbox di selezione a fianco di ciascun documento per attivare le funzionalità di stampa, invio email, download nei formati disponibili del (i) record.
Modeling and optimization of LCD optical performance / / Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok
| Modeling and optimization of LCD optical performance / / Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok |
| Autore | Yakovlev Dmitry A. |
| Pubbl/distr/stampa | West Sussex, England : , : John Wiley & Sons, Inc., , 2015 |
| Descrizione fisica | 1 online resource (581 p.) |
| Disciplina | 621.3815/422 |
| Collana | Wiley-SID Series in Display Technology |
| Soggetto topico | Liquid crystal displays |
| ISBN |
1-118-70671-4
1-118-70674-9 1-118-70673-0 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Modeling and Optimization of LCD Optical Performance; Contents; Series Editor's Foreword; Preface; Acknowledgments; List of Abbreviations; About the Companion Website; 1 Polarization of Monochromatic Waves. Background of the Jones Matrix Methods. The Jones Calculus; 1.1 Homogeneous Waves in Isotropic Media; 1.1.1 Plane Waves; 1.1.2 Polarization. Jones Vectors; 1.1.3 Coordinate Transformation Rules for Jones Vectors. Orthogonal Polarizations. Decomposition of a Wave into Two Orthogonally Polarized Waves; 1.2 Interface Optics for Isotropic Media; 1.2.1 Fresnels Formulas. Snells Law
1.2.2 Reflection and Transmission Jones Matrices for a Plane Interface between Isotropic Media1.3 Wave Propagation in Anisotropic Media; 1.3.1 Wave Equations; 1.3.2 Waves in a Uniaxial Layer; 1.3.3 A Simple Birefringent Layer and Its Principal Axes; 1.3.4 Transmission Jones Matrices of a Simple Birefringent Layer at Normal Incidence; 1.3.5 Linear Retarders; 1.3.6 Jones Matrices of Absorptive Polarizers. Ideal Polarizer; 1.4 Jones Calculus; 1.4.1 Basic Principles of the Jones Calculus; 1.4.2 Three Useful Theorems for Transmissive Systems 1.4.3 Reciprocity Relations. Joness Reversibility Theorem1.4.4 Theorem of Polarization Reversibility for Systems Without Diattenuation; 1.4.5 Particular Variants of Application of the Jones Calculus. Cartesian Jones Vectors for Wave Fields in Anisotropic Media; References; 2 The Jones Calculus: Solutions for Ideal Twisted Structures and Their Applications in LCD Optics; 2.1 Jones Matrix and Eigenmodes of a Liquid Crystal Layer with an Ideal Twisted Structure; 2.2 LCD Optics and the Gooch-Tarry Formulas; 2.3 Interactive Simulation; 2.4 Parameter Space; References; 3 Optical Equivalence Theorem 3.1 General Optical Equivalence Theorem3.2 Optical Equivalence for the Twisted Nematic Liquid Crystal Cell; 3.3 Polarization Conserving Modes; 3.3.1 LP1 Modes; 3.3.2 LP2 Modes; 3.3.3 LP3 Modes; 3.3.4 CP Modes; 3.4 Application to Nematic Bistable LCDs; 3.4.2 Bistable TN Displays; 3.5 Application to Reflective Displays; 3.6 Measurement of Characteristic Parameters of an LC Cell; 3.6.1 Characteristic Angle Ω; 3.6.2 Characteristic Phase Γ; References; 4 Electro-optical Modes: Practical Examples of LCD Modeling and Optimization; 4.1 Optimization of LCD Performance in Various Electro-optical Modes 4.1.1 Electrically Controlled Birefringence4.1.2 Twist Effect; 4.1.3 Supertwist Effect; 4.1.4 Optimization of Optical Performance of Reflective LCDs; 4.2 Transflective LCDs; 4.2.1 Dual-Mode Single-Cell-Gap Approach; 4.2.2 Single-Mode Single-Cell-Gap Approach; 4.3 Total Internal Reflection Mode; 4.4 Ferroelectric LCDs; 4.4.1 Basic Physical Properties; 4.4.2 Electro-optical Effects in FLC Cells; 4.5 Birefringent Color Generation in Dichromatic Reflective FLCDs; References; 5 Necessary Mathematics. Radiometric Terms. Conventions. Various Stokes and Jones Vectors 5.1 Some Definitions and Relations from Matrix Algebra |
| Record Nr. | UNINA-9910132434403321 |
Yakovlev Dmitry A.
|
||
| West Sussex, England : , : John Wiley & Sons, Inc., , 2015 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Modeling and optimization of LCD optical performance / / Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok
| Modeling and optimization of LCD optical performance / / Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok |
| Autore | Yakovlev Dmitry A. |
| Pubbl/distr/stampa | West Sussex, England : , : John Wiley & Sons, Inc., , 2015 |
| Descrizione fisica | 1 online resource (581 p.) |
| Disciplina | 621.3815/422 |
| Collana | Wiley-SID Series in Display Technology |
| Soggetto topico | Liquid crystal displays |
| ISBN |
1-118-70671-4
1-118-70674-9 1-118-70673-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Modeling and Optimization of LCD Optical Performance; Contents; Series Editor's Foreword; Preface; Acknowledgments; List of Abbreviations; About the Companion Website; 1 Polarization of Monochromatic Waves. Background of the Jones Matrix Methods. The Jones Calculus; 1.1 Homogeneous Waves in Isotropic Media; 1.1.1 Plane Waves; 1.1.2 Polarization. Jones Vectors; 1.1.3 Coordinate Transformation Rules for Jones Vectors. Orthogonal Polarizations. Decomposition of a Wave into Two Orthogonally Polarized Waves; 1.2 Interface Optics for Isotropic Media; 1.2.1 Fresnels Formulas. Snells Law
1.2.2 Reflection and Transmission Jones Matrices for a Plane Interface between Isotropic Media1.3 Wave Propagation in Anisotropic Media; 1.3.1 Wave Equations; 1.3.2 Waves in a Uniaxial Layer; 1.3.3 A Simple Birefringent Layer and Its Principal Axes; 1.3.4 Transmission Jones Matrices of a Simple Birefringent Layer at Normal Incidence; 1.3.5 Linear Retarders; 1.3.6 Jones Matrices of Absorptive Polarizers. Ideal Polarizer; 1.4 Jones Calculus; 1.4.1 Basic Principles of the Jones Calculus; 1.4.2 Three Useful Theorems for Transmissive Systems 1.4.3 Reciprocity Relations. Joness Reversibility Theorem1.4.4 Theorem of Polarization Reversibility for Systems Without Diattenuation; 1.4.5 Particular Variants of Application of the Jones Calculus. Cartesian Jones Vectors for Wave Fields in Anisotropic Media; References; 2 The Jones Calculus: Solutions for Ideal Twisted Structures and Their Applications in LCD Optics; 2.1 Jones Matrix and Eigenmodes of a Liquid Crystal Layer with an Ideal Twisted Structure; 2.2 LCD Optics and the Gooch-Tarry Formulas; 2.3 Interactive Simulation; 2.4 Parameter Space; References; 3 Optical Equivalence Theorem 3.1 General Optical Equivalence Theorem3.2 Optical Equivalence for the Twisted Nematic Liquid Crystal Cell; 3.3 Polarization Conserving Modes; 3.3.1 LP1 Modes; 3.3.2 LP2 Modes; 3.3.3 LP3 Modes; 3.3.4 CP Modes; 3.4 Application to Nematic Bistable LCDs; 3.4.2 Bistable TN Displays; 3.5 Application to Reflective Displays; 3.6 Measurement of Characteristic Parameters of an LC Cell; 3.6.1 Characteristic Angle Ω; 3.6.2 Characteristic Phase Γ; References; 4 Electro-optical Modes: Practical Examples of LCD Modeling and Optimization; 4.1 Optimization of LCD Performance in Various Electro-optical Modes 4.1.1 Electrically Controlled Birefringence4.1.2 Twist Effect; 4.1.3 Supertwist Effect; 4.1.4 Optimization of Optical Performance of Reflective LCDs; 4.2 Transflective LCDs; 4.2.1 Dual-Mode Single-Cell-Gap Approach; 4.2.2 Single-Mode Single-Cell-Gap Approach; 4.3 Total Internal Reflection Mode; 4.4 Ferroelectric LCDs; 4.4.1 Basic Physical Properties; 4.4.2 Electro-optical Effects in FLC Cells; 4.5 Birefringent Color Generation in Dichromatic Reflective FLCDs; References; 5 Necessary Mathematics. Radiometric Terms. Conventions. Various Stokes and Jones Vectors 5.1 Some Definitions and Relations from Matrix Algebra |
| Record Nr. | UNINA-9910819503603321 |
|
Yakovlev Dmitry A.
|
||
| West Sussex, England : , : John Wiley & Sons, Inc., , 2015 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||