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Liquid Crystal Displays: Fundamental Physics and Technology [Kõva köide]

  • Formaat: Hardback, 518 pages, kõrgus x laius x paksus: 243x163x31 mm, kaal: 853 g
  • Sari: Wiley Series in Display Technology
  • Ilmumisaeg: 27-Jul-2011
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 047093087X
  • ISBN-13: 9780470930878
Teised raamatud teemal:
Liquid Crystal Displays: Fundamental Physics and TechnologySuurem pilt
  • Formaat: Hardback, 518 pages, kõrgus x laius x paksus: 243x163x31 mm, kaal: 853 g
  • Sari: Wiley Series in Display Technology
  • Ilmumisaeg: 27-Jul-2011
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 047093087X
  • ISBN-13: 9780470930878
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780470930878.html
Märksõnad:
An unprecedented look into the basic physics, chemistry, and technology behind the LCD Most notably used for computer screens, televisions, and mobile phones, LCDs (liquid crystal displays) are a pervasive and increasingly indispensable part of our lives. Providing both an historical and a business-minded context, this extensive resource describes the unique scientific and engineering techniques used to create these beautiful, clever, and eminently useful devices.

In this book, the history of the science and technology behind the LCD is described in a prelude to the development of the device, presenting a rational development theme and pinpointing innovations. The book begins with Maxwell's theory of electromagnetism, and the ultimately profound realization that light is an electromagnetic wave and an electromagnetic wave is light.

The power of mathematical physics thus was brought to bear upon the study of light, and particularly the polarization of light by material bodies, including liquid crystals. After a brief historical description of polarization, a physical interpretation provides substance to the mathematical concepts. Subsequent chapters cover:





Thermodynamics for liquid crystals



The Maier-Saupe mean field, phenomenological, static continuum, and dynamic continuum theories



The transistor and integrated circuit



Glass, panels, and modules



The calculus of variations



The active matrix



Semiconductor fabrication



The global LCD business





Additionally, the book illustrates how mathematics, physics, and chemistry are put to practical use in the LCDs we use every day. By describing the science from an historical perspective and in practical terms in the context of a device very familiar to readers, the book presents an engaging and unique view of the technology for everyone from science students to engineers, product designers, and indeed anyone curious about LCDs.

Series Editor: Anthony C. Lowe, The Lambent Consultancy, Braishfield, UK

The Society for Information Display (SID) is an international society, which has the aim of encouraging the development of all aspects of the field of information display. Complementary to the aims of the society, the Wiley-SID series is intended to explain the latest developments in information display technology at a professional level. The broad scope of the series addresses all facets of information displays from technical aspects through systems and prototypes to standards and ergonomics.

Arvustused

This is an excellent introductory book for readers interested in an overview of the science, technology and business of Liquid Crystal Displays (LCDs) The authors casual writing style makes this book uniquely accessible to a variety of readers, ranging from students to business executives. (Optics & Photonics News, 13 April 2012)

"As one would expect, the reference is written for a professional technical audience, but is clearly written and includes first-rate illustrations." (Book News, 1 October 2011)

 

Series Editor's Foreword xiii
Anthony C. Lowe
Preface xv
Acknowledgments xvii
About the Author xix
1 Double Refraction
1(4)
Reference
4(1)
2 Electromagnetism
5(30)
Faraday's Intuitive Field
7(2)
Maxwell's Equations
9(3)
The Derivation of E = ρ/ε
12(2)
The Derivation of B = 0
14(1)
The Derivation of E = - ∂B/∂t
15(4)
The Derivation of B = εμ ∂E/∂t + μJ
19(3)
Vector Analysis
22(3)
Light Is an Electromagnetic Wave
25(5)
The Light Wave
30(4)
References
34(1)
3 Light in Matter
35(14)
The Electric Dipole Moment
38(3)
The Lorentz-Lorenz Equation
41(6)
References
47(2)
4 The Polarization of an Electromagnetic Wave
49(26)
Unpolarized Light
49(1)
Elliptical, Linear, and Circular Polarization
50(11)
Elliptic Polarization
55(1)
Linear Polarization
56(1)
Circular Polarization
57(4)
Birefringence
61(3)
Ordinary and Extraordinary Waves
64(2)
Quantum Mechanical Polarization
66(7)
References
73(2)
5 Liquid Crystals
75(36)
Carrots
76(2)
Liquid Crystal Genealogy
78(4)
The Chiral Nematic
82(4)
The Ferroelectric Chiral Smectic-C
86(2)
The Blue Flash
88(2)
Lyotropic Liquid Crystals
90(1)
The Director and the Order Parameter
91(6)
Stiff But Flexible
97(1)
Liquid Crystal Character
98(5)
Viscosity
100(1)
Elasticity
101(2)
The Induced Dipole Moment
103(5)
References
108(3)
6 Thermodynamics for Liquid Crystals
111(14)
The Three Laws of Thermodynamics
113(1)
Phase Transitions
114(1)
Entropy
115(4)
The Boltzmann Distribution
119(3)
The Minimization of Free Energy
122(1)
References
123(2)
7 The Calculus of Variations
125(14)
The Brachistochrone Problem
126(5)
Catenary and Suspension
131(1)
The Euler-Lagrange Equation
132(4)
Deeper Meanings of the Euler-Lagrange Equation
136(2)
References
138(1)
8 The Mean Field
139(8)
Ideal Gas in Crystal Lattice
139(1)
Long Rod Models
140(1)
The Composite Electric Field and Average Index of Refraction
141(3)
The Dipole Mean Field Is Born
144(1)
References
145(2)
9 Maier-Saupe Theory
147(14)
The Nematic to Isotropic Phase Transition Calculation
148(4)
Dielectric Anisotropy Calculation
152(4)
Near Neighbor Correlation
156(3)
References
159(2)
10 Phenomenological Theory
161(10)
The Nematic to Isotropic Phase Transition Calculation
162(3)
Birefringence Calculation
165(4)
References
169(2)
11 Static Continuum Theory
171(22)
Basic Principles
171(5)
Static Continuum Theory Examples
176(5)
The Twisted Only
176(3)
The Twist and Tilt
179(1)
The Tilt Only
180(1)
The Freedericksz Cell
181(11)
The Splay Tilt
182(3)
In-Plane Switching
185(2)
The Bend Perpendicular
187(1)
The Twisted Nematic
188(4)
In Memoriam
192(1)
References
192(1)
12 Dynamic Continuum Theory
193(18)
Conservation Principles
196(2)
The Leslie Work Hypothesis
198(4)
Turn-On Example
202(5)
Hydrodynamic Instability
207(1)
Conclusion
208(1)
References
209(2)
13 The First Liquid Crystal Display
211(10)
Dynamic Scattering
213(1)
The Liquid Crystal Display Calculator
214(5)
References
219(2)
14 Liquid Crystal Display Chemistry
221(10)
The Aromatic Compounds
222(2)
The Search for a Robust Display Liquid Crystal
224(6)
References
230(1)
15 The Twisted Nematic
231(8)
A Twist of Fate
234(1)
The Gathering Patent Storm
235(2)
Watches and Calculators
237(1)
References
238(1)
16 Engineering the Liquid Crystal
239(10)
Poincare Sphere
240(1)
Refractive Index Ellipsoid
240(1)
Jones Vector
240(1)
The Phase Retardation Parameter
241(2)
The Mauguin Condition
243(1)
The Gooch-Tarry Condition
244(1)
Twisted Nematic Waveguiding
245(1)
The Twisted Nematic Cell
246(2)
References
248(1)
17 The Active Matrix
249(12)
Matrix Addressing
250(4)
The Super Twisted Nematic
254(2)
Active Matrix Addressing
256(4)
References
260(1)
18 New Screens
261(10)
Twisted Nematic Television
262(1)
Notebook Computer Screens
263(7)
References
270(1)
19 The Transistor and Integrated Circuit
271(24)
The Bohr Atom
271(7)
The Point Contact Transistor
278(3)
The Junction Transistor
281(4)
The Tyranny of Numbers
285(2)
Monolithic Component Integration
287(2)
Monolithic Circuit Integration
289(5)
References
294(1)
20 A Transistor for the Active Matrix
295(12)
Hydrogenated Amorphous Silicon
298(1)
The Field Effect Transistor
299(4)
The a-Si:H Field Effect Thin-Film Transistor
303(2)
References
305(2)
21 Semiconductor Fabrication
307(14)
Growing Crystals
308(1)
The Planar Process
308(7)
Photolithography
309(3)
Etch
312(2)
Deposition
314(1)
The Four-Mask Bottom Gate
315(5)
References
320(1)
22 Enhancing the Image
321(28)
The Grayscale
323(3)
The On/Off Ratio
326(2)
The Production of Color
328(5)
The CCFL Backlight and Color Filter
333(3)
Field Sequential Color
336(2)
The LED Backlight
338(5)
Signal Processing
343(4)
References
347(2)
23 The Wider View
349(20)
c-axis a-plate c-plate
352(2)
Mid-Layer Tilt
354(1)
Twisted Nematic Display Oblique Viewing
355(1)
Negative and Positive Compensation
356(1)
The Discotic Solution
357(3)
Grayscale Inversion
360(4)
Compensation Overview
364(3)
References
367(2)
24 Liquid Crystal Television
369(28)
Vertical Alignment
369(3)
Multiple-Domain Vertical Alignment
372(4)
In-Plane Switching
376(4)
Fringing Field Switching
380(3)
Response Time
383(5)
VA Response Time Is Good
384(2)
IPS Response Time in Slow
386(1)
TN Is In-Between
387(1)
Blue Flash Is Fastest
388(1)
Overdrive
388(1)
Flicker
389(6)
References
395(2)
25 Glass, Panels, and Modules
397(18)
Glass Generations
397(3)
The TFT Array Plate
400(1)
The Color Filter Plate
401(2)
Side Injection and One Drop Fill
403(2)
Side Injection
403(1)
One Drop Fill
404(1)
Spacers
405(1)
Sealing, Cutting, and Inspection
406(1)
Electrostatic Damage Protection
407(3)
Laser Repair
410(1)
Yield
410(3)
LCD Module Assembly
413(1)
References
414(1)
26 The Global LCD Business
415(34)
RCA's Legacy
416(1)
Optical Imaging Systems
417(4)
The Electronics Manufacturing Paradigm
421(3)
Korea, the Emerging Economy Model
424(8)
The Crystal Cycle and Korea
425(1)
Crisis and Fortune in the LCD Industry
426(1)
Samsung Is the Lucky Goldstar
427(5)
Taiwan's Twin Stars
432(6)
Chimei Jumps into the Liquid Crystal Sea
434(2)
Two Tigers, Three Cats, and a Monkey
436(2)
Japan's Closed Shop
438(3)
The Worldwide Financial Tsunami
441(2)
Is China a Rising Liquid Crystal Star?
443(3)
The Solar Cell
446(2)
References
448(1)
27 New Technologies and Products
449(28)
Light Scattering
450(2)
Liquid Crystal Polymer Composites
452(2)
Cholesteric Bistable Reflective Displays
454(1)
Ferroelectric Chiral Smectic-C Bistable Displays
455(1)
Electrophoretic Paper
456(1)
The Organic Light-Emitting Diode Display
457(1)
The Blue Phase Display
458(1)
Reflective Displays
458(1)
Transflective Displays
459(3)
Projection Displays
462(5)
Brightness Enhancement Film
467(1)
Touch Screens
468(3)
Resistive
468(1)
Strain Gauge
469(1)
Capacitive
469(1)
Inductive
470(1)
Surface Acoustic Wave
470(1)
Infrared
470(1)
Optical Imaging
470(1)
Dispersive Signal
471(1)
3D
471(2)
LCD Products
473(2)
References
475(2)
Index 477
ROBERT HSIN CHEN, PhD, is an adjunct professor at National Taiwan University and Tsinghua and Jiaotong Universities in Taiwan. He is a former senior vice president at Chimei Optoelectronics, former director at Taiwan Semiconductor Manufacturing Company, and former vice president at Acer Computer Corporation. He is a member of numerous scientific organizations as well as The State Bar of California, and is a registered patent attorney. Dr. Chen is the author of two books on computers and LCDs and has written many articles in international scientific journals and intellectual property journals.