Fundamentals of liquid crystal devices:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2006
|
| Ausgabe: | Reprinted |
| Schriftenreihe: | Wiley-SID series in display technology
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Beschreibung für Leser Inhaltsverzeichnis |
| Beschreibung: | XVI, 378 S. Ill., graph. Darst. |
| ISBN: | 047001542X 9780470015421 |
Internformat
MARC
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| 100 | 1 | |a Yang, Deng-Ke |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Fundamentals of liquid crystal devices |c Deng-Ke Yang, Shin-Tson Wu |
| 250 | |a Reprinted | ||
| 264 | 1 | |a Chichester |b Wiley |c 2006 | |
| 300 | |a XVI, 378 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 devices |v Textbooks | |
| 650 | 4 | |a Liquid crystal displays |v Textbooks | |
| 650 | 4 | |a Liquid crystals |v Textbooks | |
| 650 | 0 | 7 | |a Flüssigkristallanzeige |0 (DE-588)4017624-1 |2 gnd |9 rswk-swf |
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| 689 | 1 | |8 1\p |5 DE-604 | |
| 700 | 1 | |a Wu, Shin-Tson |e Verfasser |4 aut | |
| 856 | 4 | |u http://www.loc.gov/catdir/toc/ecip0611/2006011247.html |3 Inhaltsverzeichnis | |
| 856 | 4 | |u http://deposit.dnb.de/cgi-bin/dokserv?id=2830003&prov=M&dok_var=1&dok_ext=htm |3 Beschreibung für Leser | |
| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015587778&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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| 883 | 1 | |8 1\p |a cgwrk |d 20201028 |q DE-101 |u https://d-nb.info/provenance/plan#cgwrk | |
Datensatz im Suchindex
| _version_ | 1804136434280431616 |
|---|---|
| adam_text | Contents
Foreword
xi
Seríes
Editor s Foreword
xiii
Preface
xv
1
Liquid Crystal Physics
1
1.1
Introduction
1
1.2
Thermodynamics and Statistical Physics
4
1.2.1
Thermodynamic laws
4
1.2.2
Boltzmann distribution
5
1.2.3
Thermodynamic quantities
7
1.2.4
Criteria for thermodynamic equilibrium
9
1.3
Orientational Order
10
1.3.1
Orientational order parameter
10
1.3.2
Landau-de Gennes theory of orientational order in
the nematic phase
12
1.3.3
Maier-Saupe theory
16
1.4
Elastic Properties of Liquid Crystals
18
1.4.1
Elastic properties of nematic liquid crystals
18
1.4.2
Elastic properties of cholesteric liquid
crystals
21
1.4.3
Elastic properties of smectic liquid crystals
22
1.5
Response of Liquid Crystals to Electromagnetic Fields
24
1.5.1
Magnetic susceptibility
24
1.5.2
Dielectric permittivity and refractive index
25
1.6
Anchoring Effects of Nematic Liquid Crystals at
Surfaces
33
1.6.1
Anchoring energy
33
1.6.2
Alignment layers
34
Homework Problems
35
References
37
vi
CONTENTS
2
Propagation
of Light
in Anisotropie
Optical
Media 39
2.1
Electromagnetic Waves
39
2.2
Polarization
42
2.2.1
Monochromatic plane waves and their
polarization states
42
2.2.2
Linear polarization states
42
2.2.3
Circular polarization states
43
2.2.4
Elliptical polarization states
43
2.3
Propagation of Light in Uniform
Anisotropie
Optical Media
45
2.3.1
Eigenmodes
47
2.3.2
Orthogonality of eigenmodes
51
2.3.3
Energy flux
52
2.3.4
Special cases
53
2.3.5
Polarizers
55
2.4
Propagation of Light in Cholesteric Liquid Crystals
57
2.4.1
Eigenmodes
57
2.4.2
Reflection of cholesteric liquid crystals
66
2.4.3
Lasing in cholesteric liquid crystals
68
Homework Problems
69
References
71
3
Optical Modeling Methods
73
3.1
Jones Matrix Method
73
3.1.1
Jones vector
73
3.1.2
Jones matrix
74
3.1.3
Jones matrix of non-uniform
biréfringent
film
76
3.1.4
Optical properties of twisted nematic liquid crystals
77
3.2
Mueller Matrix Method
82
3.2.1
Partially polarized and unpolarized light
82
3.2.2
Measurement of the Stokes parameters
84
3.2.3
Mueller matrix
86
3.2.4
Poincaré
sphere
88
3.2.5
Evolution of the polarization states on the
Poincaré
sphere
90
3.2.6
Mueller matrix of TN liquid crystals
92
3.2.7
Mueller matrix of non-uniform
biréfringent
film
94
3.3
Berreman
4x4
method
95
Homework Problems
104
References
105
4
Effects of Electric Field on Liquid Crystals
107
4.1
Dielectric Interaction
107
4.1.1
Réorientation
under dielectric interaction
107
4.1.2
Field-induced orientational order
108
4.2
Flexoelectric Effect
112
4.2.1
Flexoelectric effect in nematic liquid crystals
112
4.2.2
Flexoelectric effect in cholesteric liquid crystals
116
4.3
Ferroelectric Liquid Crystals
117
4.3.1
Symmetry and polarization
117
4.3.2
Tilt angle and polarization
119
CONTENTS
vii
4.3.3
Surface-stabilized
ferroelectric liquid crystals
120
4.3.4
Electroclinic effect in chiral smectic- liquid crystals
122
Homework Problems
124
References
124
5
Freedericksz Transition
127
5.1
Calculus of Variations
127
5.1.1
One dimension and one variable
127
5.1.2
One dimension and multiple variables
130
5.1.3
Three dimensions
130
5.2
Freedericksz Transition: Statics
131
5.2.1
Splay geometry
131
5.2.2
Bend geometry
135
5.2.3
Twist geometry
137
5.2.4
Twisted nematic cell
138
5.2.5
Splay geometry with weak anchoring
140
5.2.6
Splay geometry with
pretilt
angle
142
5.3
Freedericksz Transition: Dynamics
143
5.3.1
Dynamics of the Freedericksz transition in twist geometry
144
5.3.2
Hydrodynamics
145
5.3.3
Backflow
150
Homework Problems
155
References
155
6
Liquid Crystal Materials
157
6.1
Introduction
157
6.2
Refractive Indices
157
6.2.1
Extended Cauchy equations
158
6.2.2
Three-band model
159
6.2.3
Temperature effect
161
6.2.4
Temperature gradient
164
6.2.5
Molecular polarizabilities
165
6.3
Dielectric Constants
166
6.3.1
Positive
Δε
LCs active matrix LC displays
167
6.3.2
Negative
Δε
LCs
167
6.3.3
Dual-frequency LCs
168
6.4
Rotational Viscosity
169
6.5
Elastic Constants
169
6.6
Figure-of-merit (FoM)
170
6.7
Index matching between LCs and Polymers
171
6.7.1
Refractive index of polymers
171
6.7.2
Matching refractive index
172
Homework Problems
174
References
175
7
Modeling Liquid Crystal Director Configuration
179
7.1
Electric Energy of Liquid Crystals
179
7.1.1
Constant charge
180
7.1.2
Constant voltage
181
7.1.3
Constant electric field
183
viii
CONTENTS
7.2
Modeling the Electric Field
184
7.3
Simulation of Liquid Crystal Director Configuration
186
7.3.1
Angle representation
186
7.3.2
Vector representation
190
7.3.3
Tensor representation
193
Homework Problems
196
References
196
8
Transmissive
Liquid Crystal Displays
199
8.1
Introduction
199
8.2
Twisted Nematic Cells
200
8.2.1
Voltage-dependent transmittance
200
8.2.2
Film-compensated TN cells
202
8.2.3
Viewing angle
204
8.3
IPS Mode
204
8.3.1
Voltage-dependent transmittance
204
8.3.2
Response time
206
8.3.3
Viewing angle
207
8.3.4
Classification of compensation films
208
8.3.5
Phase retardation of
uniaxial
media at oblique angles
209
8.3.6
Poincaré
sphere representation
210
8.3.7
Light leakage of crossed polarizers at oblique view
211
8.3.8
IPS with a positive a and a positive
с
film
216
8.3.9
IPS with a positive a and a negative a film
220
8.3.10
Color shift
222
8.4
VA Mode
222
8.4.1
Voltage-dependent transmittance
223
8.4.2
Optical response time
224
8.4.3
Overdrive and undershoot voltage method
224
8.5 MVA
Cells
225
8.5.1 MVA
with a positive a and a negative
с
film
227
8.5.2 MVA
with a positive a, a negative a, and a negative
с
film
231
8.6
Optically Compensated Bend (OCB) Cell
235
8.6.1
Voltage-dependent transmittance
235
8.6.2
Compensation films for OCB
236
Homework Problems
237
References
239
9
Reflective and Transflective Liquid Crystal Displays
243
9.1
Introduction
243
9.2
Reflective LCDs
244
9.2.1
Film-compensated homogeneous cell
245
9.2.2
MTN cell
246
9.3
Transflector
247
9.3.1
Openings-on-metal transflector
248
9.3.2
Half-mirror metal transflector
249
9.3.3
Multilayer dielectric film transflector
249
9.3.4
Orthogonal polarization transflectors
249
CONTENTS
їх
9.4
Classification
of Transflective LCDs
250
9.4.1
Absorption-type transflective LCDs
251
9.4.2
Scattering-type transflective LCDs
253
9.4.3
Scattering- and absorption-type transflective LCDs
254
9.4.4
Reflection-type transflective LCDs
255
9.4.5
Phase retardation type
257
9.5
Dual-cell-gap Transflective LCDs
265
9.6
Single-cell-gap Transflective LCDs
267
9.7
Performance of Transflective LCDs
267
9.7.1
Color balance
268
9.7.2
Image brightness
268
9.7.3
Viewing angle
268
Homework Problems
269
References
269
1
0
Liquid Crystal Display Matrices, Drive Schemes, and
Bistable Displays
273
10.1
Segmented Displays
273
10.2
Passive Matrix Displays and Drive Scheme
274
10.3
Active Matrix Displays
278
10.3.1
TFT structure
279
10.3.2
TFT operating principles
280
10.4
Bistable Ferroelectric LCDs and Drive Scheme
281
10.5
Bistable Nematic Displays
283
10.5.1
Introduction
283
10.5.2
Twisted-untwisted bistable nematic LCDs
283
10.5.3
Surface-stabilized nematic LCDs
288
10.6
Bistable Cholesteric Reflective Displays
290
10.6.1
Introduction
290
10.6.2
Optical properties of bistable Ch reflective displays
291
10.6.3
Encapsulated Ch LCDs
293
10.6.4
Transition between Ch states
294
10.6.5
Drive schemes for bistable Ch displays
300
Homework Problems
303
References
303
11
Liquid Crystal/Polymer Composites
307
11.1
Introduction
307
11.2
Phase Separation
307
11.2.1
Binary mixture
309
11.2.2
Phase diagram and thermally induced phase separation
312
11.2.3
Polymerization-induced phase separation
314
11.2.4
Solvent-induced phase separation
317
11.2.5
Encapsulation
319
11.3
Scattering Properties of LCPCs
319
11.3.1
Rayleigh-Gans scattering theory
319
11.3.2
Anomalous diffraction scattering theory
324
11.4
PDLCs
324
11.4.1
Liquid crystal droplet configurations in PDLCs
325
11.4.2
Switching PDLCs
327
χ
CONTENTS
11.4.3
Scattering
PDLC
devices
330
11.4.4
Dichroic dye-doped PDLCs
332
11.4.5
Holographic PDLCs
333
11.5
PSLCs
335
11.5.1
Preparation of PSLCs
335
11.5.2
Working modes of PSLCs
336
11.6
Displays from LCPCs
340
11.6.1
Reflective displays
340
11.6.2
Projection displays
341
11.6.3
Transmissive
direct-view displays
342
Homework Problems
343
References
344
12
Tunable Liquid Crystal Photonic Devices
347
12.1
Introduction
347
12.2
Laser Beam Steering
348
12.2.1
Optical phased array
349
12.2.2
Prism-based beam steering
350
12.3
VOAs
352
12.4
Tunable-focus Lenses
355
12.4.1
Tunable-focus spherical lens
356
12.4.2
Tunable-focus cylindrical lens
358
12.4.3
Switchable positive and negative microlens
361
12.4.4
Hermaphroditic LC microlens
364
12.5
Polarization-independent LC Devices
366
12.5.1
Double-layered homogeneous LC cells
366
12.5.2
Double-layered LC gels
368
Homework Problems
370
References
371
Index
375
|
| adam_txt |
Contents
Foreword
xi
Seríes
Editor's Foreword
xiii
Preface
xv
1
Liquid Crystal Physics
1
1.1
Introduction
1
1.2
Thermodynamics and Statistical Physics
4
1.2.1
Thermodynamic laws
4
1.2.2
Boltzmann distribution
5
1.2.3
Thermodynamic quantities
7
1.2.4
Criteria for thermodynamic equilibrium
9
1.3
Orientational Order
10
1.3.1
Orientational order parameter
10
1.3.2
Landau-de Gennes theory of orientational order in
the nematic phase
12
1.3.3
Maier-Saupe theory
16
1.4
Elastic Properties of Liquid Crystals
18
1.4.1
Elastic properties of nematic liquid crystals
18
1.4.2
Elastic properties of cholesteric liquid
crystals
21
1.4.3
Elastic properties of smectic liquid crystals
22
1.5
Response of Liquid Crystals to Electromagnetic Fields
24
1.5.1
Magnetic susceptibility
24
1.5.2
Dielectric permittivity and refractive index
25
1.6
Anchoring Effects of Nematic Liquid Crystals at
Surfaces
33
1.6.1
Anchoring energy
33
1.6.2
Alignment layers
34
Homework Problems
35
References
37
vi
CONTENTS
2
Propagation
of Light
in Anisotropie
Optical
Media 39
2.1
Electromagnetic Waves
39
2.2
Polarization
42
2.2.1
Monochromatic plane waves and their
polarization states
42
2.2.2
Linear polarization states
42
2.2.3
Circular polarization states
43
2.2.4
Elliptical polarization states
43
2.3
Propagation of Light in Uniform
Anisotropie
Optical Media
45
2.3.1
Eigenmodes
47
2.3.2
Orthogonality of eigenmodes
51
2.3.3
Energy flux
52
2.3.4
Special cases
53
2.3.5
Polarizers
55
2.4
Propagation of Light in Cholesteric Liquid Crystals
57
2.4.1
Eigenmodes
57
2.4.2
Reflection of cholesteric liquid crystals
66
2.4.3
Lasing in cholesteric liquid crystals
68
Homework Problems
69
References
71
3
Optical Modeling Methods
73
3.1
Jones Matrix Method
73
3.1.1
Jones vector
73
3.1.2
Jones matrix
74
3.1.3
Jones matrix of non-uniform
biréfringent
film
76
3.1.4
Optical properties of twisted nematic liquid crystals
77
3.2
Mueller Matrix Method
82
3.2.1
Partially polarized and unpolarized light
82
3.2.2
Measurement of the Stokes parameters
84
3.2.3
Mueller matrix
86
3.2.4
Poincaré
sphere
88
3.2.5
Evolution of the polarization states on the
Poincaré
sphere
90
3.2.6
Mueller matrix of TN liquid crystals
92
3.2.7
Mueller matrix of non-uniform
biréfringent
film
94
3.3
Berreman
4x4
method
95
Homework Problems
104
References
105
4
Effects of Electric Field on Liquid Crystals
107
4.1
Dielectric Interaction
107
4.1.1
Réorientation
under dielectric interaction
107
4.1.2
Field-induced orientational order
108
4.2
Flexoelectric Effect
112
4.2.1
Flexoelectric effect in nematic liquid crystals
112
4.2.2
Flexoelectric effect in cholesteric liquid crystals
116
4.3
Ferroelectric Liquid Crystals
117
4.3.1
Symmetry and polarization
117
4.3.2
Tilt angle and polarization
119
CONTENTS
vii
4.3.3
Surface-stabilized
ferroelectric liquid crystals
120
4.3.4
Electroclinic effect in chiral smectic- liquid crystals
122
Homework Problems
124
References
124
5
Freedericksz Transition
127
5.1
Calculus of Variations
127
5.1.1
One dimension and one variable
127
5.1.2
One dimension and multiple variables
130
5.1.3
Three dimensions
130
5.2
Freedericksz Transition: Statics
131
5.2.1
Splay geometry
131
5.2.2
Bend geometry
135
5.2.3
Twist geometry
137
5.2.4
Twisted nematic cell
138
5.2.5
Splay geometry with weak anchoring
140
5.2.6
Splay geometry with
pretilt
angle
142
5.3
Freedericksz Transition: Dynamics
143
5.3.1
Dynamics of the Freedericksz transition in twist geometry
144
5.3.2
Hydrodynamics
145
5.3.3
Backflow
150
Homework Problems
155
References
155
6
Liquid Crystal Materials
157
6.1
Introduction
157
6.2
Refractive Indices
157
6.2.1
Extended Cauchy equations
158
6.2.2
Three-band model
159
6.2.3
Temperature effect
161
6.2.4
Temperature gradient
164
6.2.5
Molecular polarizabilities
165
6.3
Dielectric Constants
166
6.3.1
Positive
Δε
LCs active matrix LC displays
167
6.3.2
Negative
Δε
LCs
167
6.3.3
Dual-frequency LCs
168
6.4
Rotational Viscosity
169
6.5
Elastic Constants
169
6.6
Figure-of-merit (FoM)
170
6.7
Index matching between LCs and Polymers
171
6.7.1
Refractive index of polymers
171
6.7.2
Matching refractive index
172
Homework Problems
174
References
175
7
Modeling Liquid Crystal Director Configuration
179
7.1
Electric Energy of Liquid Crystals
179
7.1.1
Constant charge
180
7.1.2
Constant voltage
181
7.1.3
Constant electric field
183
viii
CONTENTS
7.2
Modeling the Electric Field
184
7.3
Simulation of Liquid Crystal Director Configuration
186
7.3.1
Angle representation
186
7.3.2
Vector representation
190
7.3.3
Tensor representation
193
Homework Problems
196
References
196
8
Transmissive
Liquid Crystal Displays
199
8.1
Introduction
199
8.2
Twisted Nematic Cells
200
8.2.1
Voltage-dependent transmittance
200
8.2.2
Film-compensated TN cells
202
8.2.3
Viewing angle
204
8.3
IPS Mode
204
8.3.1
Voltage-dependent transmittance
204
8.3.2
Response time
206
8.3.3
Viewing angle
207
8.3.4
Classification of compensation films
208
8.3.5
Phase retardation of
uniaxial
media at oblique angles
209
8.3.6
Poincaré
sphere representation
210
8.3.7
Light leakage of crossed polarizers at oblique view
211
8.3.8
IPS with a positive a and a positive
с
film
216
8.3.9
IPS with a positive a and a negative a film
220
8.3.10
Color shift
222
8.4
VA Mode
222
8.4.1
Voltage-dependent transmittance
223
8.4.2
Optical response time
224
8.4.3
Overdrive and undershoot voltage method
224
8.5 MVA
Cells
225
8.5.1 MVA
with a positive a and a negative
с
film
227
8.5.2 MVA
with a positive a, a negative a, and a negative
с
film
231
8.6
Optically Compensated Bend (OCB) Cell
235
8.6.1
Voltage-dependent transmittance
235
8.6.2
Compensation films for OCB
236
Homework Problems
237
References
239
9
Reflective and Transflective Liquid Crystal Displays
243
9.1
Introduction
243
9.2
Reflective LCDs
244
9.2.1
Film-compensated homogeneous cell
245
9.2.2
MTN cell
246
9.3
Transflector
247
9.3.1
Openings-on-metal transflector
248
9.3.2
Half-mirror metal transflector
249
9.3.3
Multilayer dielectric film transflector
249
9.3.4
Orthogonal polarization transflectors
249
CONTENTS
їх
9.4
Classification
of Transflective LCDs
250
9.4.1
Absorption-type transflective LCDs
251
9.4.2
Scattering-type transflective LCDs
253
9.4.3
Scattering- and absorption-type transflective LCDs
254
9.4.4
Reflection-type transflective LCDs
255
9.4.5
Phase retardation type
257
9.5
Dual-cell-gap Transflective LCDs
265
9.6
Single-cell-gap Transflective LCDs
267
9.7
Performance of Transflective LCDs
267
9.7.1
Color balance
268
9.7.2
Image brightness
268
9.7.3
Viewing angle
268
Homework Problems
269
References
269
1
0
Liquid Crystal Display Matrices, Drive Schemes, and
Bistable Displays
273
10.1
Segmented Displays
273
10.2
Passive Matrix Displays and Drive Scheme
274
10.3
Active Matrix Displays
278
10.3.1
TFT structure
279
10.3.2
TFT operating principles
280
10.4
Bistable Ferroelectric LCDs and Drive Scheme
281
10.5
Bistable Nematic Displays
283
10.5.1
Introduction
283
10.5.2
Twisted-untwisted bistable nematic LCDs
283
10.5.3
Surface-stabilized nematic LCDs
288
10.6
Bistable Cholesteric Reflective Displays
290
10.6.1
Introduction
290
10.6.2
Optical properties of bistable Ch reflective displays
291
10.6.3
Encapsulated Ch LCDs
293
10.6.4
Transition between Ch states
294
10.6.5
Drive schemes for bistable Ch displays
300
Homework Problems
303
References
303
11
Liquid Crystal/Polymer Composites
307
11.1
Introduction
307
11.2
Phase Separation
307
11.2.1
Binary mixture
309
11.2.2
Phase diagram and thermally induced phase separation
312
11.2.3
Polymerization-induced phase separation
314
11.2.4
Solvent-induced phase separation
317
11.2.5
Encapsulation
319
11.3
Scattering Properties of LCPCs
319
11.3.1
Rayleigh-Gans scattering theory
319
11.3.2
Anomalous diffraction scattering theory
324
11.4
PDLCs
324
11.4.1
Liquid crystal droplet configurations in PDLCs
325
11.4.2
Switching PDLCs
327
χ
CONTENTS
11.4.3
Scattering
PDLC
devices
330
11.4.4
Dichroic dye-doped PDLCs
332
11.4.5
Holographic PDLCs
333
11.5
PSLCs
335
11.5.1
Preparation of PSLCs
335
11.5.2
Working modes of PSLCs
336
11.6
Displays from LCPCs
340
11.6.1
Reflective displays
340
11.6.2
Projection displays
341
11.6.3
Transmissive
direct-view displays
342
Homework Problems
343
References
344
12
Tunable Liquid Crystal Photonic Devices
347
12.1
Introduction
347
12.2
Laser Beam Steering
348
12.2.1
Optical phased array
349
12.2.2
Prism-based beam steering
350
12.3
VOAs
352
12.4
Tunable-focus Lenses
355
12.4.1
Tunable-focus spherical lens
356
12.4.2
Tunable-focus cylindrical lens
358
12.4.3
Switchable positive and negative microlens
361
12.4.4
Hermaphroditic LC microlens
364
12.5
Polarization-independent LC Devices
366
12.5.1
Double-layered homogeneous LC cells
366
12.5.2
Double-layered LC gels
368
Homework Problems
370
References
371
Index
375 |
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| any_adam_object_boolean | 1 |
| author | Yang, Deng-Ke Wu, Shin-Tson |
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| classification_rvk | UQ 8700 |
| ctrlnum | (OCoLC)65978578 (DE-599)BVBBV022378755 |
| dewey-full | 621.3815/422 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.3815/422 |
| dewey-search | 621.3815/422 |
| dewey-sort | 3621.3815 3422 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | Reprinted |
| format | Book |
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| illustrated | Illustrated |
| index_date | 2024-07-02T17:10:27Z |
| indexdate | 2024-07-09T20:56:20Z |
| institution | BVB |
| isbn | 047001542X 9780470015421 |
| language | English |
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| physical | XVI, 378 S. Ill., graph. Darst. |
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| publisher | Wiley |
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| spelling | Yang, Deng-Ke Verfasser aut Fundamentals of liquid crystal devices Deng-Ke Yang, Shin-Tson Wu Reprinted Chichester Wiley 2006 XVI, 378 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley-SID series in display technology Liquid crystal devices Textbooks Liquid crystal displays Textbooks Liquid crystals Textbooks Flüssigkristallanzeige (DE-588)4017624-1 gnd rswk-swf Flüssigkristall (DE-588)4071279-5 gnd rswk-swf Flüssigkristall (DE-588)4071279-5 s DE-604 Flüssigkristallanzeige (DE-588)4017624-1 s 1\p DE-604 Wu, Shin-Tson Verfasser aut http://www.loc.gov/catdir/toc/ecip0611/2006011247.html Inhaltsverzeichnis http://deposit.dnb.de/cgi-bin/dokserv?id=2830003&prov=M&dok_var=1&dok_ext=htm Beschreibung für Leser Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015587778&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Yang, Deng-Ke Wu, Shin-Tson Fundamentals of liquid crystal devices Liquid crystal devices Textbooks Liquid crystal displays Textbooks Liquid crystals Textbooks Flüssigkristallanzeige (DE-588)4017624-1 gnd Flüssigkristall (DE-588)4071279-5 gnd |
| subject_GND | (DE-588)4017624-1 (DE-588)4071279-5 |
| title | Fundamentals of liquid crystal devices |
| title_auth | Fundamentals of liquid crystal devices |
| title_exact_search | Fundamentals of liquid crystal devices |
| title_exact_search_txtP | Fundamentals of liquid crystal devices |
| title_full | Fundamentals of liquid crystal devices Deng-Ke Yang, Shin-Tson Wu |
| title_fullStr | Fundamentals of liquid crystal devices Deng-Ke Yang, Shin-Tson Wu |
| title_full_unstemmed | Fundamentals of liquid crystal devices Deng-Ke Yang, Shin-Tson Wu |
| title_short | Fundamentals of liquid crystal devices |
| title_sort | fundamentals of liquid crystal devices |
| topic | Liquid crystal devices Textbooks Liquid crystal displays Textbooks Liquid crystals Textbooks Flüssigkristallanzeige (DE-588)4017624-1 gnd Flüssigkristall (DE-588)4071279-5 gnd |
| topic_facet | Liquid crystal devices Textbooks Liquid crystal displays Textbooks Liquid crystals Textbooks Flüssigkristallanzeige Flüssigkristall |
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| work_keys_str_mv | AT yangdengke fundamentalsofliquidcrystaldevices AT wushintson fundamentalsofliquidcrystaldevices |
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