Integrated optics theory and technology
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100 | 1 | |a Hunsperger, Robert G. |d 1940- |e Verfasser |0 (DE-588)143138545 |4 aut | |
245 | 1 | 0 | |a Integrated optics |b theory and technology |c Robert G. Hunsperger |
250 | |a 6. ed. | ||
264 | 1 | |a New York, NY |b Springer |c 2009 | |
300 | |a XXVIII, 513 S. |b Ill., graph. Darst. | ||
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adam_text |
Contents
1
Introduction
. 1
1.1
Advantages of Integrated Optics
. 2
1.1.1
Comparison of Optical Fibers with Other
Interconnectors
. 3
1.1.2
Comparison of Optical Integrated Circuits with
Electrical Integrated Circuits
. 7
1.2
Substrate Materials for Optical Integrated Circuits
. 8
1.2.1
Hybrid Versus Monolithic Approach
. 9
1.2.2
III-V and
П
-VI
Ternary Systems
. 10
1.2.3
Hybrid OIC's in LiNbO3
. 11
1.2.4
Organization of this Book
. 12
Problems
. 15
References
. 15
2
Optical Waveguide Modes
. 17
2.1
Modes in a Planar Waveguide Structure
. 17
2.1.1
Theoretical Description of the Modes of a Three-Layer
Planar Waveguide
. 17
2.1.2
Cutoff Conditions
. 20
2.1.3
Experimental Observation of Waveguide Modes
. 21
2.2
The Ray-Optic Approach to Optical Mode Theory
. 25
2.2.1
Ray Patterns in the Three-Layer Planar Waveguide
. 26
2.2.2
The Discrete Nature of the Propagation Constant
β
. 28
Problems
. 30
References
. 31
3
Theory of Optical Waveguides
. 33
3.1
Planar Waveguides
. 33
3.1.1
The Basic Three-Layer Planar Waveguide
. 33
3.1.2
The Symmetric Waveguide
. 36
3.1.3
The Asymmetric Waveguide
. 38
Contents
3.2
Rectangular
Waveguides
. 39
3.2.1
Channel Waveguides
. 40
3.2.2
Strip-Loaded Waveguides
. 45
Problems
. 48
References
. 49
Waveguide Fabrication Techniques
. 53
4.1
Deposited Thin Films
. 53
4.1.1
Sputtered Dielectric Films
. 53
4.1.2
Deposition from Solutions
. 56
4.1.3
Organosilicon Films
. 57
4.2
Substitutional Dopant Atoms
. 57
4.2.1
Diffused Dopants
. 57
4.2.2
Ion Exchange and Migration
. 59
4.2.3
Ion Implantation
. 60
4.3
Carrier-Concentration-Reduction Waveguides
. 62
4.3.1
Basic Properties of Carrier-Concentration-Reduction
Waveguides
. 62
4.3.2
Carrier Removal by Proton Bombardment
. 64
4.4
Epitaxial Growth
. 65
4.4.1
Basic Properties of Epitaxially Grown Waveguides
. 65
4.4.2
Gail—x)AlxAs Epitaxially Grown Waveguides
. 66
4.4.3
Epitaxial Waveguides in Other
ПІ
-V
and II-VI
and IV Materials
. 70
4.4.4
Molecular Beam Epitaxy
. 71
4.4.5
Metal-Organic Chemical Vapor Deposition
. 72
4.5
Electro-Optic Waveguides
. 73
4.6
Oxidation
. 74
4.7
Methods for Fabricating Channel Waveguides
. 75
4.7.
1 Ridged Waveguides Formed by Etching
. 75
4.7.2
Strip-Loaded Waveguides
. 77
4.7.3
Masked Ion Implantation, Diffusion or Ion Exchange
. 77
4.7.4
Focused Beam Writing Techniques
. 78
Problems
. 79
References
. 81
Polymer and Fiber Integrated Optics
. 85
5.1
Types of Polymers
. 85
5.2
Polymer Processing
. 87
5.2.1
Processing of Polystyrene
. 87
5.2.2
Processing of Polyimide
. 89
5.2.3
Post-Deposition Processing
. 89
5.3
Applications of Polymer Waveguide Interconnections
. 90
5.4
Polymer Waveguide Devices
. 93
5.4.1
Passive Polymer Devices
. 93
5.4.2
Active Polymer Devices
. 96
Contents
xx¡
5.5
Optical Fiber Waveguide Devices
. 98
Problems
.103
References
.104
6
Losses in Optical Waveguides
.107
6.1
Scattering Losses
.107
6.1.1
Surface Scattering Loss
.108
6.2
Absorption Losses
.110
6.2.1
Interband
Absorption
.110
6.2.2
Free Carrier Absorption
.] ] 2
6.3
Radiation Losses
.116
6.3.1
Radiation Loss from Planar and Straight Channel
Waveguides
. 117
6.3.2
Radiation Loss from Curved Channel Waveguides
. 117
6.4
Measurement of Waveguide Losses
. 120
6.4.1
End-Fire Coupling to Waveguides of Different Length
. 120
6.4.2
Prism-Coupled Loss Measurements
.122
6.4.3
Scattering Loss Measurements
.123
Problems
.125
References
.127
7
Waveguide Input and Output Couplers
.129
7.1
Fundamentals of Optical Coupling
.129
7.2
Transverse Couplers
.130
7.2.1
Direct Focusing
.130
7.2.2
End-Butt Coupling
.131
7.3
Prism Couplers
.135
7.4
Grating Couplers
.139
7.4.1
Basic Theory of the Grating Coupler
.139
7.4.2
Grating Fabrication
.141
7.5
Tapered Couplers
.143
7.6
Tapered Mode Size Converters
.144
7.7
Fiber to Waveguide Couplers
.145
7.7.1
Butt Coupling
.145
7.7.2
High Density Multifiber Connectors
.148
Problems
.149
References
.151
8
Coupling Between Waveguides
.153
8.1
Multilayer Planar Waveguide Couplers
.153
8.2
Dual-Channel Directional Couplers
.154
8.2.1
Operating Characteristics of the Dual-Channel
Coupler
. 155
8.2.2
Coupled-Mode Theory of Synchronous Coupling
.157
:x¡¡
Contents
8.2.3
Methods of Fabricating Dual-Channel Directional
Couplers
. 160
8.2.4
Applications Involving Directional Couplers
.164
8.3
Butt-Coupled Ridge Waveguides
.164
8.4
Branching Waveguide Couplers
.164
8.5
Optical Fiber Couplers and Splitters
.166
Problems
.167
References
.168
9
Electro-Optic Modulators
.171
9.1
Basic Operating Characteristics of Switches and Modulators
.171
9.1.1
Modulation Depth
.171
9.1.2
Bandwidth
.172
9.1.3
Insertion Loss
.172
9.1.4
Power Consumption
.173
9.1.5
Isolation
.173
9.2
The Electro-Optic Effect
.174
9.3
Single-Waveguide Electro-Optic Modulators
.175
9.3.1
Phase Modulation
.175
9.3.2
Polarization Modulation
.177
9.3.3
Intensity Modulation
.177
9.3.4
Electro-Absorption Modulation
.178
9.4
Dual-Channel Waveguide Electro-Optic Modulators
.181
9.4.1
Theory of Operation
.181
9.4.2
Operating Characteristics of Dual-Channel Modulators
. 183
9.5
Mach-Zehnder Type Electro-Optic Modulators
.187
9.6
Electro-Optic Modulators Employing Reflection or Diffraction
.188
9.6.1
Bragg-Effect Electro-Optic Modulators
.188
9.6.2
Electro-Optic Reflection Modulators
.190
9.7
Comparison of Waveguide Modulators to Bulk Electro-Optic
Modulators
.191
9.8
Traveling Wave Electrode Configurations
.193
Problems
.195
References
.198
10
Acousto-Optic
Modulators.201
10.1
Fundamental Principles of the Acousto-Optic Effect
.201
10.2
Raman-Nath-Type Modulators
.203
10.3
Bragg-Type Modulators
.204
10.4
Bragg-Type Beam Deflectors and Switches
.208
10.5
Performance Characteristics of Acoustic-Optic Modulators
and Beam Deflectors
.210
10.6
Accusto-Optic Frequency Shifters
.214
Problems
.217
References
.219
Contents xxiii
11 Basic
Principles of
Light Emission in
Semiconductors
.221
11.1
A Microscopic
Model
for
Light Generation and Absorption
in
a Crystalline
Solid .221
11.1.1 Basic
Definitions
.221
11.1.2
Conservation of
Energy
and Momentum
.224
11.2
Light Emission in Semiconductors
.226
11.2.1
Spontaneous Emission
.226
11.2.2
Stimulated Emission
.232
11.3
Lasing
.234
11.3.1
Semiconductor Laser Structures
.235
11.3.2
Lasing Threshold
.235
11.3.3
Efficiency of Light Emission
.237
Problems
.238
References
.239
12
Semiconductor Lasers
.241
12.1
The Laser Diode
.241
12.1.1
Basic Structure
.241
12.1.2
Optical Modes
.242
12.1.3
Lasing Threshold Conditions
.243
12.1.4
Output Power and Efficiency
.248
12.2
The Tunnel-Injection Laser
.250
12.2.1
Basic Structure
.250
12.2.2
Lasing Threshold Conditions
.252
12.3
Polymer Lasers
.252
12.4
New Semiconductor Materials for New Wavelengths
.253
12.4.1
Gallium Nitride Lasers
.253
12.4.2
Silicon Lasers
.254
Problems
.255
References
.257
Supplementary Reading on Semiconductor-Laser Fundamentals
.258
13
Optical Amplifiers
.259
13.1
Optical Fiber Amplifiers
.259
13.1.1
Erbium Doped Fiber Amplifiers
.260
13.1.2
Raman Optical Fiber Amplifiers
.263
13.1.3
Other Optical Fiber Amplifiers
.264
13.2
Non-Fiber Ion-Doped Optical Amplifiers
.265
13.3
Semiconductor Optical Amplifiers
.265
13.3.1
Integrated Semiconductor Optical Amplifiers
.268
13.4
Comparison of Ion-Doped Fiber Amplifiers with SOAs
.269
13.4.1
Wavelength Range
.269
13.4.2
Performance Characteristics
.269
13.5
Gain Equalization
.271
13.6
Fiber Lasers
.271
xx¡v
Contents
Problems
.273
References
.274
Supplementary Reading on Optical Amplifiers
.275
14
Heterostructure, Confined-Field Lasers
.277
14.1
Basic Heterojunction Laser Structures
.278
14.1.1
Single Heterojunction (SH) Lasers
.278
14.1.2
Double Heterostructure (DH) Lasers
.279
14.2
Performance Characteristics of the Heterojunction Laser
.280
14.2.1
Optical Field Confinement
.280
14.2.2
Carrier Confinement
.283
14.2.3
Comparison of Laser Emission Characteristics
.284
14.3
Control of Emitted Wavelength
.285
14.3.1
Gąi-X)AlxAs
Lasers for Fiber-Optic Applications
.285
14.3.2
Lasers Made of Quaternary Materials
.287
14.3.3
Long-Wavelength Lasers
.287
14.4
Advanced Heterojunction Laser Structures
.288
14.4.1
Stripe Geometry Lasers
.288
14.4.2
Single-Mode Lasers
.288
14.4.3
Integrated Laser Structures
.291
14.5
Reliability
.295
14.5.1
Catastrophic Failure
.295
14.5.2
Gradual Degradation
.296
14.6
Vertical Cavity Lasers
.296
Problems
.298
References
.299
Supplementary Reading on Heterojunction Lasers
.301
15
Distributed-Feedback Lasers
.303
15.1
Theoretical Considerations
.303
15.1.1
Wavelength Dependence of Bragg Reflections
.303
15.1.2
Coupling Efficiency
.305
15.1.3
Lasing with Distributed Feedback
.308
15.2
Fabrication Techniques
.309
15.2.1
Effects of Lattice Damage
.310
15.2.2
Grating Location
.310
15.2.3
DBR Lasers
.313
15.3
Performance Characteristics
.315
15.3.1
Wavelength Selectability
.315
15.3.2
Optical Emission Linewidth
.317
15.3.3
Stability
.317
15.3.4
Commercially Available DFB Lasers
.319
15.4
Nanoscale DFB Lasers
.319
15.4.1
Semiconductor Air Bragg Reflector Lasers
.320
15.4.2
Quantum Dot DFB Lasers
.321
Contents xxv
Problems .32
1
References
.322
16
Direct
Modulation
of Semiconductor
Lasers.325
16.1 Basic
Principles of Direct Modulation
.325
16.1.1
Amplitude Modulation
.325
16.1.2
Pulse Modulation
.328
16.1.3
Frequency Modulation
.330
16.2
Microwave Frequency Modulation of Laser Diodes
.331
16.2.1
Summary of Early Experimental Results
.332
16.2.2
Factors Limiting Modulation Frequency
.332
16.2.3
Design of Laser Diode Packages for Microwave
Modulation
. 336
16.3
Monolithically Integrated Direct Modulators
.337
16.4
Amplified Laser Modulation
.339
16.5
Direct Modulation of Quantum Dot Lasers
.339
16.6
Future Prospects for Microwave Modulation
of Laser Diodes
.340
Problems
.340
References
.342
Supplementary Reading on Modulation of Laser Diodes
.344
17
Integrated Optical Detectors
.345
17.1
Depletion Layer
Photodiodes
.345
17.1.1
Conventional Discrete
Photodiodes
.345
17.1.2
Waveguide
Photodiodes
.348
17.1.3
Effects of Scattering and Free-Carrier Absorption
.349
17.2
Specialized
Photodiode
Structures
.350
17.2.1
Schottky-Barrier
Photodiode
.351
17.2.2
Avalanche
Photodiodes
.351
17.2.3
p-i-n
Photodiodes
.353
17.2.4
Metal-Semiconductor-Metal
Photodiodes
.354
17.3
Techniques for Modifying Spectral Response
.355
17.3.1
Hybrid Structures
.355
17.3.2
Heteroepitaxial Growth
.356
17.3.3
Proton Bombardment
.360
17.3.4
Electro-Absorption
.363
17.4
Factors Limiting Performance of Integrated Detectors
.366
17.4.1
High Frequency Cutoff
.366
17.4.2
Linearity
.367
17.4.3
Noise
.367
Problems
.368
References
.371
xxv¡
Contents
18
Quantum-
Well
Devices
.375
18.1
Quantum Wells and Superlattices
.375
18.2
Quantum-Well Lasers.
377
18.2.1
Single-Quantum-Well Lasers.
377
18.2.2
Multiple
Quantum
Well Lasers
.380
18.3
Quantum-Well Modulators and Switches
.384
18.3.1
Electro-Absorption Modulators
.384
18.3.2
Electro-Optic Effect in Quantum Wells
.388
18.3.3
Multiple Quantum Well Switches
.390
18.4
Quantum-Well Detectors
.392
18.4.1
Photoconductive Detectors
.392
18.4.2
MQW Avalanche
Photodiodes
.392
18.5
Self-Electro-Optic Effect Devices
.393
18.6
Quantum-Well Devices in OEIC's
.394
18.6.1
Integrated Laser/Modulators
.395
18.6.2
A Four-Channel Transmitter Array
with MQW Lasers
. 396
Problems
.398
References
.399
Supplementary Reading on Quantum Wells
.401
19
Micro-Optical-Electro-Mechanical Devices
.403
19.1
Basic Equations of Mechanics
.404
19.1.1
Axial Stress and Strain
.404
19.1.2
Thin Membranes
.405
19.1.3
Cantilever Beams
.406
19.1.4
Torsion Plates
.407
19.2
Thin Membrane Devices
.408
19.3
Cantilever Beam Devices
.411
19.4
Torsionai
Devices
.413
19.5
Optical Elements
.417
19.6
Future Directions in MOEMS Development
.418
19.7
Mechanical Properties of Silicon
.419
Problems
.419
References
.420
20
Applications of Integrated Optics and Current Trends
.423
20.1
Applications of Optical Integrated Circuits
.423
20.1.1
RF Spectrum Analyzer
.423
20.1.2
Monolithic Wavelength-Multiplexed Optical Source
.426
20.1.3
Analog-to-Digital Converter (ADC)
.428
20.1.4
Integrated-Optic
Doppler Velocimeter
.429
20.1.5
An
IO
Optical Disk Readhead
.430
20.1.6
OIC Temperature Sensor
.432
20.1.7
IO
High Voltage Sensor
. 433
Contents xxvii
20.1.8
IO
Wavelength Meters and Spectrum Analyzers
.434
20.1.9
IO
Chemical Sensors
.435
20.2
Opto-Electronic Integrated Circuits
.436
20.2.1
An OEIC Transmitter
.436
20.2.2
An OEIC Receiver
.437
20.2.3
An OEIC Phased-Array Antenna Driver
.438
20.3
Devices and Systems for Telecommunications
.439
20.3.1
Trends in Optical Telecommunications
.439
20.3.2
New Devices for Telecommunications
.444
Problems
.447
References
.447
21
Photonic and Microwave Wireless Systems
.451
21.1
Merging of Photonics and Microwave Technology
.451
21.2
Fiber-Optic Transmission of RF and Microwave Signals
.453
21.2.1
Basic Principles
.454
21.2.2
Device Performance
.456
21.2.3
System Performance
.458
21.3
Microwave Carrier Generation by Optical Techniques
.459
21.4
Future Projections
.463
Problems
.464
References
.465
22
Nanophotonics
.469
22.1
Dimensions
.469
22.2
Properties of Electrons and Photons
.469
22.3
Confinement of Photons and Electrons
.471
22.4
Photonic Crystals
.472
22.4.1
Classes of Photonic Crystals
.472
22.4.2
Comparison of Electrons in Semiconductor Crystals to
Photons in Photonic Crystals
.473
22.5
Fabrication of Nanostructures
.477
22.5.1
Molecular Beam Epitaxy
.478
22.5.2
Metalorganic Vapor Phase Epitaxy
.478
22.5.3
Nanoscale Lithography
.479
22.5.4
Nanomachining
.481
22.6
Characterization and Evaluation of Nanostructures
.485
22.6.1
Available Tools
.485
22.6.2
Scanning Electron Microscope
.485
22.6.3
Reflection High-Energy Electron Diffraction
.486
22.7
Nanophotonic Devices
.487
22.7.1
Waveguides
.487
22.7.2
Couplers
.491
22.7.3
Resonators
.493
22.7.4
Light Emitters
.495
xxviii Contents
22.7.5 Photodetectors .496
22.7.6 Sensors .497
22.8
Future
Projections
for Integrated Optics and Nanophotonics
.499
Problems
.501
References
.501
Index
.507
Integrated
Optics
Theory and Technology
Sixth Edition
Robert G.Hunsperger
Integrated
Opties:
Theory and Technology explains the subject of optoelectronic
devices and their use in integrated optics and fiber optic systems. The text
emphasizes the physics ot how devices work and how they can be used in various
applications. Mathematical derivations and the development of design equations
are provided where necessary to explain phenomena and engineering principles,
but a strong effort has been made to avoid obscuring important concepts with
mathematical details. Illustrations and references from technical journals have
been used to demonstrate the relevance of the theory to currently important
topics in industry.
This sixth edition of Integrated Optics: Theory and Technology includes updates
and revisions in all chapters, as well as a completely new chapter on
nanophotonics. Problems are included at the end of each chapter to develop
students' knowledge. Scientists, engineers, students and engineering managers can
utilize this book to obtain an overall view of the theory and the most recent
technology in integrated optics. |
any_adam_object | 1 |
author | Hunsperger, Robert G. 1940- |
author_GND | (DE-588)143138545 |
author_facet | Hunsperger, Robert G. 1940- |
author_role | aut |
author_sort | Hunsperger, Robert G. 1940- |
author_variant | r g h rg rgh |
building | Verbundindex |
bvnumber | BV035497197 |
classification_rvk | UH 5765 UH 6700 |
classification_tum | PHY 393f ELT 330f |
ctrlnum | (OCoLC)900649758 (DE-599)DNB991034457 |
discipline | Physik Elektrotechnik |
edition | 6. ed. |
format | Book |
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id | DE-604.BV035497197 |
illustrated | Illustrated |
indexdate | 2024-11-25T17:37:10Z |
institution | BVB |
isbn | 9780387897745 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-017553486 |
oclc_num | 900649758 |
open_access_boolean | |
owner | DE-703 DE-1043 DE-29T DE-11 DE-91G DE-BY-TUM DE-1050 DE-634 DE-83 DE-M347 |
owner_facet | DE-703 DE-1043 DE-29T DE-11 DE-91G DE-BY-TUM DE-1050 DE-634 DE-83 DE-M347 |
physical | XXVIII, 513 S. Ill., graph. Darst. |
publishDate | 2009 |
publishDateSearch | 2009 |
publishDateSort | 2009 |
publisher | Springer |
record_format | marc |
spellingShingle | Hunsperger, Robert G. 1940- Integrated optics theory and technology Integrierte Optoelektronik (DE-588)4223876-6 gnd Integrierte Optik (DE-588)4027240-0 gnd Optoelektronik (DE-588)4043687-1 gnd |
subject_GND | (DE-588)4223876-6 (DE-588)4027240-0 (DE-588)4043687-1 |
title | Integrated optics theory and technology |
title_auth | Integrated optics theory and technology |
title_exact_search | Integrated optics theory and technology |
title_full | Integrated optics theory and technology Robert G. Hunsperger |
title_fullStr | Integrated optics theory and technology Robert G. Hunsperger |
title_full_unstemmed | Integrated optics theory and technology Robert G. Hunsperger |
title_short | Integrated optics |
title_sort | integrated optics theory and technology |
title_sub | theory and technology |
topic | Integrierte Optoelektronik (DE-588)4223876-6 gnd Integrierte Optik (DE-588)4027240-0 gnd Optoelektronik (DE-588)4043687-1 gnd |
topic_facet | Integrierte Optoelektronik Integrierte Optik Optoelektronik |
url | http://deposit.dnb.de/cgi-bin/dokserv?id=3170798&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017553486&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017553486&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT hunspergerrobertg integratedopticstheoryandtechnology |