Modeling and optimization of LCD optical performance:
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2015
|
| Ausgabe: | 1. publ. |
| Schriftenreihe: | Wiley-SID series in display technology
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXII, 554 S. Ill., graph. Darst. |
| ISBN: | 9780470689141 0470689145 |
Internformat
MARC
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| 100 | 1 | |a Yakovlev, Dmitry A. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Modeling and optimization of LCD optical performance |c Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok |
| 250 | |a 1. publ. | ||
| 264 | 1 | |a Chichester |b Wiley |c 2015 | |
| 300 | |a XXII, 554 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a Wiley-SID series in display technology | |
| 650 | 4 | |a Liquid crystal displays | |
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| 700 | 1 | |a Kwok, Hoi-Sing |e Verfasser |4 aut | |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-027498602 | ||
Datensatz im Suchindex
| _version_ | 1804152494449754112 |
|---|---|
| adam_text | Contents
Series Editor’s Foreword xiii
Preface xv
Acknowledgments xix
List of Abbreviations xxi
About the Companion Website xx։։i
1 Polarization of Monochromatic Waves. Background of the Jones Matrix
Methods. The Jones Calculus 1
1.1 Homogeneous Waves in Isotropic Media 1
/././ Plane Waves 1
1.1.2 Polarization. Jones Vectors 3
1.1.3 Coordinate Transformation Rules for Jones Vectors. Orthogonal
Polarizations. Decomposition of a Wave into Tw o Orthogonally
Polarized Waves 9
1.2 interface Optics for Isotropic Media 14
1.2.1 Fresnel s Formulas. Snell s Law 14
1.2.2 Reflection and Transmission Jones Matrices for a Plane interface between
Isotropic Media 20
1.3 Wave Propagation in Anisotropic Media 23
1.3.1 Wave Equations 23
1.3.2 Waves in a Uniaxial Layer 25
1.3.3 A Simple Biréfringent Layer and Its Principal Axes 30
1.3.4 Transmission Jones Matrices of a Simple Biréfringent Layer at
Normal Incidence 32
1.3.5 Linear Retarders 36
1.3.6 Jones Matrices of Absorptive Polarizers. Ideal Polarizer 38
1.4 Jones Calculus 41
1.4.1 Basic Principles of the Jones Calculus 42
1.4.2 Th ree Useful Theorems for Transmisse e Systems 46
1.4.3 Reciprocity Relations. Jones s Reversibility Theorem 50
1.4.4 Theorem of Polarization Reversibility for Systems Without Diattenuation 53
1.4.5 Particular Variants of Application of the Jones Calculus. Cartesian Jones
Vectors for Wave Fields in Anisotropic Media 55
References 57
viii
Contents
2 The Jones Calculus: Solutions for Ideal Twisted Structures and Their
Applications in LCD Optics 59
2.1 Jones Matrix and Eigenmodes of a Liquid Crystal Layer with an Ideal
Twisted Structure 59
2.2 LCD Optics and the Gooch-Tarry Formulas 64
2.3 Interactive Simulation 67
2.4 Parameter Space 69
References 73
3 Optical Equivalence Theorem 75
3.1 General Optical Equivalence Theorem 75
3.2 Optical Equivalence for the Twisted Nematic Liquid Crystal Cell 77
3.3 Polarization Conserving Modes 77
3.3.1 LP! Modes 78
3.3.2 LP2 Modes 19
3.3.3 LP3 Modes 80
3.3A CP Modes 81
3.4 Application to Nematic Bistable LCDs 82
3A.Î 2k Bistable TN Displays 82
3A.2 k Bistable TN Displays 83
3.5 Application to Reflective Displays 84
3.6 Measurement of Characteristic Parameters of an LC Cell 86
3.6. 1 Characteristic Angle ÇÏ 86
3.6.2 Characteristic Phase V 87
References 87
4 Electro-optical Modes: Practical Examples of LCD Modeling and Optimization 91
4.1 Optimization of LCD Performance in Various Electro-optical Modes 91
4.1.1 Electrically Controlled Birefringence 91
4.1.2 Twist Effect 101
4.1.3 Supertwist Effect 109
4.1.4 Optimization of Optical Performance of Reflective LCDs 116
4.2 Transflective LCDs 119
4.2.1 Dual-Mode Single-Cell-Gap Approach 119
4.2.2 Single-Mode Single-Cell-Gap Approach 122
4.3 Total Internal Reflection Mode 124
4.4 Ferroelectric LCDs 131
4.4.1 Basic Physical Properties 131
4.4.2 Electro-optical Effects in EEC Cells 135
4.5 Biréfringent Color Generation in Dichromatic Reflective FLCDs 145
References 149
5 Necessary Mathematics. Radiometric Terms. Conventions. Various Stokes and
Jones Vectors 153
5,1 Some Definitions and Relations from Matrix Algebra 153
5.1.1 General Definitions 153
5.1.2 Some Important Properties of Matrix Products 160
5.1.3 Unitary Matrices. Unimodular Unitary 2x2 Matrices. STU Matrices 160
5.1A Norms of Vectors and Matrices 163
5.1.5 Krone cher Product of Matrices 166
5.1.6 Approximations 167
Contents ix
5.2 Some Radiometric Quantities. Conventions 167
5.3 Stokes Vectors of Plane Waves and Collimated Beams Propagating in Isotropic
Nonabsorbing Media 169
5.4 Jones Vectors 171
5.4. i Fitted-to-Electric-Field Jones Vectors and
Fitted-to-Transverse-Component-of-Electric-Field Jones Vectors 171
5.4.2 Fitted-to-Irradiance Jones Vectors 122
5.4.3 Conventional Jones Vectors 175
References 176
6 Simple Models and Representations for Solving Optimization and Inverse
Optical Problems. Real Optics of LC Cells and Useful Approximations 177
6.1 Polarization Transfer Factor of an Optical System 178
6.2 Optics of LC Cells in Terms of Polarization Transport Coefficients 182
6.2.1 Polarization-Dependent Losses and Depolarization. Unpolarized
Transmittance 185
6.2.2 Rotations 187
6.2.3 Symmetry? of the Sample 190
6.3 Retroreflection Geometry 192
6.4 Applications of Polarization Transport Coefficients in Optimization of LC Devices 195
6.5 Evaluation of Ultimate Characteristics of an LCD that can be Attained by Fitting the
Compensation System. Modulation Efficiency of LC Layers 207
References 216
7 Some Physical Models and Mathematical Algorithms Used in Modeling the
Optical Performance of LCDs 217
7.1 Physical Models of the Light-Layered System Interaction Used in Modeling the
Optical Behavior of LC Devices. Plane-Wave Approximations. Transfer Channel
Approach 217
7.2 Transfer Matrix Technique and Adding Technique 237
7.2.1 Transfer Matrix Technique 238
7.2.2 Adding Technique 242
7.3 Optical Models of Some Elements of LCDs 246
References 248
8 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 251
8.1 General Properties of the Electromagnetic Field Induced by a Plane Monochromatic
Wave in a Linear Stratified Medium 252
8.1.1 Maxwell s Equations and Constitutive Relations 252
8.1.2 Plane Waves 256
8.1.3 Field Geometry 259
8.2 Transmission and Reflection Operators of Fragments (TR Units) of a Stratified
Medium and Their Calculation 275
8.2.1 EW Jones Vector. EW Jones Matrices. Transmission and Reflection
Operators 275
8.2.2 Calculation of Overall Transmission and Overall Reflection Operators for
Layered Systems by Using Transfer Matrices 281
X
Contents
8.3 Berreman’s Method 283
8.3.1 Transfer Matrices 283
8.3.2 Transfer Matrix of a Homogeneous Layer 285
8.3.3 Transfer Matrix of a Smoothly Inhomogeneous Layer. Staircase
Approximation 287
8.3.4 Coordinate Systems 289
8.4 Simplifications, Useful Relations, and Advanced Techniques 291
8.4.1 Orthogonality Relations and Other Useful Relations for Eigenwave Bases 291
8.4.2 Simple General Formulas for Transmission Operators of Interfaces 297
8.4.3 Calculation of Transmission and Reflection Operators of Layered Systems
by Using the Adding Technique 303
8.5 Transmissivities and Reflectivities 304
8.6 Mathematical Properties of Transfer Matrices and Transmission and Reflection EW
Jones Matrices of Lossless Media and Reciprocal Media 311
8.6. / Properties of Matrix Operators for Nonabsorhing Regions 311
8.6.2 Properties of Matrix Operators for Reciprocal Regions 313
8.7 Calculation of EW 4x4 Transfer Matrices for LC Layers 319
8.8 Transformation of the Elements of EW Jones Vectors and EW Jones Matrices Under
Changes of Eigenwave Bases 322
8.8. J Coordinates of the EW Jones Vector of a Wave Field in Different Eigenwave
Bases 322
8.8.2 EW Jones Operators in Different Eigenwave Bases 326
References 328
9 Choice of Eigenwave Bases for Isotropic, Uniaxial, and Biaxial Media 331
9.1 General Aspects of EWB Specification. EWB-generating routines 331
9.2 Isotropic Media 338
9.3 Uniaxial Media 342
9.4 Biaxial Media 352
References 365
10 Efficient Methods for Calculating Optical Characteristics of Layered Systems for
Quasimonochromatic Incident Light. Main Routines of LMOPTICS Library 367
10.1 EW Stokes Vectors and EW Mueller Matrices 368
10.2 Calculation of the EW Mueller Matrices of the Overall Transmission and Reflection of
a System Consisting of “Thin” and “Thick” Layers 375
10.3 Main Routines of LMOPTICS 384
10.3.1 Routines for Computing 4x4 Transfer Matrices and EW Jones Matrices 384
10.3.2 Routines for Computing EW Mueller Matrices 388
10.3.3 Other Useful Routines 391
References 392
11 Calculation of Transmission Characteristics of Inhomogeneous Liquid Crystal
Layers with Negligible Bulk Reflection 393
11.1 Application of Jones Matrix Methods to Inhomogeneous LC Layers 394
11.1.1 Calculation of Transmission Jones Matrices of LC Layers Using the
Classical Jones Calculus 394
11.1.2 Extended Jones Matrix Methods 404
11.2 NBRA. Basic Differential Equations 409
11.3 NBRA. Numerical Methods 420
11.3.1 Approximating Multilayer Method 421
Contents xi
11.3.2 Discretization Method 427
11.3.3 Power Series Method 428
11.4 NBRA. Analytical Solutions 430
11.4.1 Twisted Structures 430
11.4.2 Nontwisted Structures 432
11.4.3 NBRA and GOA. Adiabatic and Quasiadiabatic Approximations 434
11.5 Effect of Errors in Values of the Transmission Matrix of the LC Layer on the Accuracy
of Modeling the Transmittance of the LCD Panel 437
References 438
12 Some Approximate Representations in EW Jones Matrix Method and Their
Application in Solving Optimization and Inverse Problems for LCDs 441
12.1 Theory of STUM Approximation 442
12.2 Exact and Approximate Expressions for Transmission Operators of Interfaces at
Normal Incidence 447
12.3 Polarization Jones Matrix of an Inhomogeneous Nonabsorbing Anisotropic Layer with
Negligible Bulk Reflection at Normal Incidence. Simple Representations of
Polarization Matrices of LC Layers at Normal Incidence 463
12.4 Immersion Model of the Polarization-Converting System of an LCD 466
12.5 Determining Configurational and Optical Parameters of LC Layers With a Twisted
Structure: Spectral Fitting Method 474
12.5.1 How to Bring Together the Experiment and Unitary Approximation 476
12.5.2 Parameterization and Solving the Inverse Problem 480
12.5.3 Appendix to Section 12.5 489
12.6 Optimization of Compensation Systems for Enhancement of Viewing Angle
Performance of LCDs 490
References 504
13 A Few Words About Modeling of Fine-Structure LCDs and the Direct Ray
Approximation 507
13.1 Virtual Microscope 508
13.2 Directional Illumination and Diffuse Illumination 513
References 516
A LCD Modeling Software MOUSE-LCD Used for the HKUST Students
Final Year Projects (FYP) from 2003 to 2011 517
A. 1 Introductory Remarks 517
A.2 Fast LCD 517
A.2.1 TNCell 517
A.2.2 Effect of d/p Ratio 519
A.2.3 Effect ofK22/K}} 520
A.2.4 Effect of Kn/Kn 520
A.2.5 Effect of Ae 521
A.2.6 Effect of 521
A.2.7 Effect of Anchoring Strength W 523
A.2.3 Optimized TN Cell With Fast Response Time 523
A.2.9 Other LC Modes 524
A.3 Color LCD 524
A.3.1 The Super-Twisted Nematic Cell 524
A.3.2 STN Birefringent Colors in Transmissive and Reflective Modes 525
xii
Contents
A.4 Transflective LCD 525
A.4.1 Vertical Aligned Nematic Cell 525
A.5 Switchable Viewing Angle LCD 535
A.6 Optimal e-paper Configurations 535
A. 7 Color Filter Optimization 536
References 536
B Some Derivations and Examples 537
B. l Conservation Law for Energy Flux 537
B.2 Lorentz s Lemma 538
B.3 Nonexponential Waves 538
B.4 To the Power Series Method (Section 11.3.3) 540
B.5 One of the Ways to Obtain the Explicit Expressions for Transmission Jones Matrices
of an Ideal Twisted LC Layer 541
Reference 543
Index 545
|
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| author | Yakovlev, Dmitry A. Čigrinov, Vladimir G. Kwok, Hoi-Sing |
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| physical | XXII, 554 S. Ill., graph. Darst. |
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| series2 | Wiley-SID series in display technology |
| spelling | Yakovlev, Dmitry A. Verfasser aut Modeling and optimization of LCD optical performance Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok 1. publ. Chichester Wiley 2015 XXII, 554 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley-SID series in display technology Liquid crystal displays Flüssigkristallanzeige (DE-588)4017624-1 gnd rswk-swf Flüssigkristallanzeige (DE-588)4017624-1 s DE-604 Čigrinov, Vladimir G. Verfasser (DE-588)113752318 aut Kwok, Hoi-Sing Verfasser aut Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027498602&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Yakovlev, Dmitry A. Čigrinov, Vladimir G. Kwok, Hoi-Sing Modeling and optimization of LCD optical performance Liquid crystal displays Flüssigkristallanzeige (DE-588)4017624-1 gnd |
| subject_GND | (DE-588)4017624-1 |
| title | Modeling and optimization of LCD optical performance |
| title_auth | Modeling and optimization of LCD optical performance |
| title_exact_search | Modeling and optimization of LCD optical performance |
| title_full | Modeling and optimization of LCD optical performance Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok |
| title_fullStr | Modeling and optimization of LCD optical performance Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok |
| title_full_unstemmed | Modeling and optimization of LCD optical performance Dmitry A. Yakovlev, Vladimir G. Chigrinov, Hoi-Sing Kwok |
| title_short | Modeling and optimization of LCD optical performance |
| title_sort | modeling and optimization of lcd optical performance |
| topic | Liquid crystal displays Flüssigkristallanzeige (DE-588)4017624-1 gnd |
| topic_facet | Liquid crystal displays Flüssigkristallanzeige |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027498602&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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