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1.

図書

図書
Donald G. Baker
出版情報: Reston, Va. : Reston Pub. Co., c1985  xiii, 394 p. ; 25 cm
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2.

図書

図書
Dietrich Marcuse
出版情報: San Diego ; Tokyo : Academic Press, c1974  xi, 257 p. ; 24 cm
シリーズ名: Quantum electronics : principles and applications
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3.

図書

図書
Donald G. Baker
出版情報: Englewood Cliffs, N.J. : Prentice-Hall, c1986  xv, 286 p. ; 25 cm
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4.

図書

図書
Stewart D. Personick
出版情報: New York : Plenum Press, c1985  xii, 257 p. ; 24 cm
シリーズ名: Applications of communications theory
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5.

図書

図書
John E. Midwinter
出版情報: New York : Wiley, c1979  xv, 410 p. ; 24 cm
シリーズ名: Wiley series in pure and applied optics
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6.

図書

図書
technical staff of CSELT
出版情報: New York : McGraw-Hill Book Co., c1980  xxxv, 883 p. ; 24 cm
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7.

図書

図書
Rajiv Ramaswami, Kumar N. Sivarajan
出版情報: San Francisco ; Tokyo : Morgan Kaufmann Publishers, c1998  xxiv, 632 p. ; 24 cm
シリーズ名: The Morgan Kaufmann series in networking
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目次情報: 続きを見る
Introduction to Optical Networks / 1:
Propagation of Signals in Optical Fiber / 2:
Components / 3:
Modulation and Demodulation / 4:
Transmission System Engineering / 5:
First-Generation Optical Networks / 6:
Broadcast and Select Networks / 7:
Wavelength Routing Networks / 8:
Virtual Topology Design / 9:
Control and Management / 10:
Wavelength Routing Testbeds / 11:
Access Networks / 12:
Deployment Considerations / 13:
Photonic Packet Switching / 14:
Introduction to Optical Networks / 1:
Propagation of Signals in Optical Fiber / 2:
Components / 3:
8.

図書

図書
Donald B. Keck, editor
出版情報: Bellingham, Wash. : SPIE Optical Engineering Press, c1992  xxvi, 559 p. ; 28 cm
シリーズ名: SPIE milestone series / Brian J. Thompson, general editor ; v. MS 38
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9.

図書

図書
Govind P. Agrawal
出版情報: San Diego : Academic Press, c1995  xviii, 592 p. ; 24 cm
シリーズ名: Optics and photonics series
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目次情報: 続きを見る
Preface
Introduction / 1:
Historical Perspective / 1.1:
Fiber Characteristics / 1.2:
Material and Fabrication / 1.2.1:
Fiber Losses / 1.2.2:
Chromatic Dispersion / 1.2.3:
Polarization-Mode Dispersion / 1.2.4:
Fiber Nonlinearities / 1.3:
Nonlinear Refraction / 1.3.1:
Stimulated Inelastic Scattering / 1.3.2:
Importance of Nonlinear Effects / 1.3.3:
Overview / 1.4:
Problems
References
Pulse Propagation in Fibers / 2:
Maxwell's Equations / 2.1:
Fiber Modes / 2.2:
Eigenvalue Equation / 2.2.1:
Single-Mode Condition / 2.2.2:
Characteristics of the Fundamental Mode / 2.2.3:
Pulse-Propagation Equation / 2.3:
Nonlinear Pulse Propagation / 2.3.1:
Higher-Order Nonlinear Effects / 2.3.2:
Numerical Methods / 2.4:
Split-Step Fourier Method / 2.4.1:
Finite-Difference Methods / 2.4.2:
Group-Velocity Dispersion / 3:
Different Propagation Regimes / 3.1:
Dispersion-Induced Pulse Broadening / 3.2:
Gaussian Pulses / 3.2.1:
Chirped Gaussian Pulses / 3.2.2:
Hyperbolic-Secant Pulses / 3.2.3:
Super-Gaussian Pulses / 3.2.4:
Experimental Results / 3.2.5:
Third-Order Dispersion / 3.3:
Changes in Pulse Shape / 3.3.1:
Broadening Factor / 3.3.2:
Arbitrary-Shape Pulses / 3.3.3:
Ultrashort-Pulse Measurements / 3.3.4:
Dispersion Management / 3.4:
GVD-Induced Limitations / 3.4.1:
Dispersion Compensation / 3.4.2:
Compensation of Third-Order Dispersion / 3.4.3:
Self-Phase Modulation / 4:
SPM-Induced Spectral Broadening / 4.1:
Nonlinear Phase Shift / 4.1.1:
Changes in Pulse Spectra / 4.1.2:
Effect of Pulse Shape and Initial Chirp / 4.1.3:
Effect of Partial Coherence / 4.1.4:
Effect of Group-Velocity Dispersion / 4.2:
Pulse Evolution / 4.2.1:
Optical Wave Breaking / 4.2.2:
Effect of Third-Order Dispersion / 4.2.4:
Self-Steepening / 4.3:
Effect of GVD on Optical Shocks / 4.3.2:
Intrapulse Raman Scattering / 4.3.3:
Optical Solitons / 5:
Modulation Instability / 5.1:
Linear Stability Analysis / 5.1.1:
Gain Spectrum / 5.1.2:
Experimental Observation / 5.1.3:
Ultrashort Pulse Generation / 5.1.4:
Impact on Lightwave Systems / 5.1.5:
Fiber Solitons / 5.2:
Inverse Scattering Method / 5.2.1:
Fundamental Soliton / 5.2.2:
Higher-Order Solitons / 5.2.3:
Experimental Confirmation / 5.2.4:
Soliton Stability / 5.2.5:
Other Types of Solitons / 5.3:
Dark Solitons / 5.3.1:
Dispersion-Managed Solitons / 5.3.2:
Bistable Solitons / 5.3.3:
Perturbation of Solitons / 5.4:
Perturbation Methods / 5.4.1:
Soliton Amplification / 5.4.2:
Soliton Interaction / 5.4.4:
Higher-Order Effects / 5.5:
Propagation of Femtosecond Pulses / 5.5.1:
Polarization Effects / 6:
Nonlinear Birefringence / 6.1:
Origin of Nonlinear Birefringence / 6.1.1:
Coupled-Mode Equations / 6.1.2:
Elliptically Birefringent Fibers / 6.1.3:
Nondispersive XPM / 6.2:
Optical Kerr Effect / 6.2.2:
Pulse Shaping / 6.2.3:
Evolution of Polarization State / 6.3:
Analytic Solution / 6.3.1:
Poincare-Sphere Representation / 6.3.2:
Polarization Instability / 6.3.3:
Polarization Chaos / 6.3.4:
Vector Modulation Instability / 6.4:
Low-Birefringence Fibers / 6.4.1:
High-Birefringence Fibers / 6.4.2:
Isotropic Fibers / 6.4.3:
Birefringence and Solitons / 6.4.4:
Soliton-Dragging Logic Gates / 6.5.1:
Vector Solitons / 6.5.4:
Random Birefringence / 6.6:
Polarization State of Solitons / 6.6.1:
Cross-Phase Modulation / 7:
XPM-Induced Nonlinear Coupling / 7.1:
Nonlinear Refractive Index / 7.1.1:
Coupled NLS Equations / 7.1.2:
Propagation in Birefringent Fibers / 7.1.3:
XPM-Induced Modulation Instability / 7.2:
XPM-Paired Solitons / 7.2.1:
Bright-Dark Soliton Pair / 7.3.1:
Bright-Gray Soliton Pair / 7.3.2:
Other Soliton Pairs / 7.3.3:
Spectral and Temporal Effects / 7.4:
Asymmetric Spectral Broadening / 7.4.1:
Asymmetric Temporal Changes / 7.4.2:
Applications of XPM / 7.4.3:
XPM-Induced Pulse Compression / 7.5.1:
XPM-Induced Optical Switching / 7.5.2:
XPM-Induced Nonreciprocity / 7.5.3:
Stimulated Raman Scattering / 8:
Basic Concepts / 8.1:
Raman-Gain Spectrum / 8.1.1:
Raman Threshold / 8.1.2:
Coupled Amplitude Equations / 8.1.3:
Quasi-Continuous SRS / 8.2:
Single-Pass Raman Generation / 8.2.1:
Raman Fiber Lasers / 8.2.2:
Raman Fiber Amplifiers / 8.2.3:
Raman-Induced Crosstalk / 8.2.4:
SRS with Short Pump Pulses / 8.3:
Pulse-Propagation Equations / 8.3.1:
Nondispersive Case / 8.3.2:
Effects of GVD / 8.3.3:
Synchronously Pumped Raman Lasers / 8.3.4:
Soliton Effects / 8.4:
Raman Solitons / 8.4.1:
Raman Soliton Lasers / 8.4.2:
Soliton-Effect Pulse Compression / 8.4.3:
Effect of Four-Wave Mixing / 8.5:
Stimulated Brillouin Scattering / 9:
Physical Process / 9.1:
Brillouin-Gain Spectrum / 9.1.2:
Quasi-CW SBS / 9.2:
Coupled Intensity Equations / 9.2.1:
Brillouin Threshold / 9.2.2:
Gain Saturation / 9.2.3:
Dynamic Aspects / 9.2.4:
Relaxation Oscillations / 9.3.1:
Modulation Instability and Chaos / 9.3.3:
Transient Regime / 9.3.4:
Brillouin Fiber Lasers / 9.4:
CW Operation / 9.4.1:
Pulsed Operation / 9.4.2:
SBS Applications / 9.5:
Brillouin Fiber Amplifiers / 9.5.1:
Fiber Sensors / 9.5.2:
Parametric Processes / 10:
Origin of Four-Wave Mixing / 10.1:
Theory of Four-Wave Mixing / 10.2:
Approximate Solution / 10.2.1:
Effect of Phase Matching / 10.2.3:
Ultrafast FWM / 10.2.4:
Phase-Matching Techniques / 10.3:
Physical Mechanisms / 10.3.1:
Phase Matching in Multimode Fibers / 10.3.2:
Phase Matching in Single-Mode Fibers / 10.3.3:
Phase Matching in Birefringent Fibers / 10.3.4:
Parametric Amplification / 10.4:
Gain and Bandwidth / 10.4.1:
Pump Depletion / 10.4.2:
Parametric Amplifiers / 10.4.3:
Parametric Oscillators / 10.4.4:
FWM Applications / 10.5:
Wavelength Conversion / 10.5.1:
Phase Conjugation / 10.5.2:
Squeezing / 10.5.3:
Supercontinuum Generation / 10.5.4:
Second-Harmonic Generation / 10.6:
Physical Mechanism / 10.6.1:
Simple Theory / 10.6.3:
Quasi-Phase-Matching Technique / 10.6.4:
Decibel Units / Appendix A:
Acronyms / Appendix B:
Index
Preface
Introduction / 1:
Historical Perspective / 1.1:
10.

図書

図書
edited by A. Kumar
出版情報: Boston : Artech House, c1996  xii, 201 p. ; 24 cm
シリーズ名: The Artech House antenna library / Helmut E. Schrank, series editor
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目次情報: 続きを見る
Introduction: Background and History of Optical Fiber Technology
General Performance Considerations
Comparison of Losses
Applications and Reasons
Conclusions
Optical Fiber Types, Fabrication, Radiation, and Reliability: Introduction
Fiber Types
Advantages of Single-Mode Fiber Over Multi-Mode Fiber
Materials in the Fabrication
Fabrication Techniques
Nuclear Radiation Hardened Fibers
Mechanical Reliability and Fatigue for Silica Glass Fiber
Radio Frequency Beamforming/Scanning Techniques: Introduction
Lens-Based Beamforming/Scanning Techniques
Circuit Beamformers
Imaging Reflector Antennas
RF Electronic Beam Steering Techniques for Optical Fibers
References
Acousto-Optics Time-Delays for Phased Array Antennas: Introduction
Background of the Acousto-Optics
Delay Line Concept
Theory of the Delay Line
Time Delays arrangement for Phase Array Antennas
Experimental Results on Delay Lines and Phased Array Antennas
Two-Dimensional Array Antenna Beam Steering
Discussions and Conclusions
Optically Controlled Beam Scanning of Active Phased Array Antennas: Introduction
Application of Phase Shifters
Methods of Injection Locking
Hardware-Compressive Fiber Optical Delay Line for Steering of Phased Array Antennas: Introduction
Development of Binary Optical Delay Lines
Delay-Compressive Fiber Optical Delay Lines
Binary Fiber Optical Delay Line (BIFODEL) Architecture
Design of a Single BIFODEL Segment
Delay-Compressive Fiber Optic Delay Line
Optical Beam Steering of Antenna Array Using Two Lasers: Introduction
Concept of Optically Controlled Array
Pinhole Image Mask
Design of a Fiber-Optic Shutter Switch
Signal-to-Noise Ratio and Laser Output
Radiation Patterns and Reduction in Sidelobe Level
Introduction: Background and History of Optical Fiber Technology
General Performance Considerations
Comparison of Losses
11.

図書

図書
Eric G. Rawson, editor
出版情報: Bellingham, Wash. : SPIE Optical Engineering Press, 1994  xxiii, 653 p. ; 29 cm
シリーズ名: SPIE milestone series / Brian J. Thompson, general editor ; v. MS 91
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12.

図書

図書
Paul Klocek, George H. Sigel, Jr
出版情報: Bellingham, Wash., USA : SPIE Optical Engineering Press, c1989  xiii, 147 p. ; 26 cm
シリーズ名: Tutorial texts in optical engineering ; v. TT 2
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13.

図書

図書
by M.P. Lisitsa, L.I. Berezhinskii, M.Ya. Valakh
出版情報: New York : Israel Program for Scientific Translations [distributed by Keter], 1972  viii, 272 p. ; 24 cm
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14.

図書

図書
Stewart D. Personick
出版情報: New York : Plenum Press, c1981  xi, 179 p. ; 24 cm
シリーズ名: Applications of communications theory
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15.

図書

図書
edited by Michael K. Barnoski
出版情報: New York : Academic Press, 1976  xi, 227 p. ; 23 cm
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16.

図書

図書
edited by C.P. Sandbank
出版情報: Chichester [Eng.] ; New York : J. Wiley, c1980  vii, 347 p. ; 24 cm
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17.

図書

図書
N.S. Kapany
出版情報: New York : Academic Press, 1967  xviii, 429 p. ; 24 cm
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18.

図書

図書
edited by Helmut F. Wolf
出版情報: New York : Garland STPM Press, c1979  xii, 545 p. ; 24 cm
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19.

図書

図書
A.B. Sharma, S.J. Halme, M.M. Butusov
出版情報: Berlin ; New York : Springer-Verlag, 1981  viii, 246 p. ; 24 cm
シリーズ名: Springer series in optical sciences ; v. 24
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20.

図書

図書
Joseph C. Palais
出版情報: Englewood Cliffs, NJ : Prentice Hall, 1988  xi, 291 p. ; 24 cm
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目次情報: 続きを見る
Preface
Fiber Optic Communications Systems / Chapter 1:
Historical Perspective / 1.1:
The Basic Communications System / 1.2:
Nature of Light / 1.3:
Advantages of Fibers / 1.4:
Applications of Fiber Optic Communications / 1.5:
Summary and Discussion / 1.6:
Problems
References
Optics Review / Chapter 2:
Ray Theory and Applications / 2.1:
Lenses / 2.2:
Imaging / 2.3:
Numerical Aperture / 2.4:
Diffraction / 2.5:
Lightwave Fundamentals / 2.6:
Electromagnetic Waves / 3.1:
Dispersion, Pulse Distortion, and Information Rate / 3.2:
Polarization / 3.3:
Resonant Cavities / 3.4:
Reflection at a Plane Boundary / 3.5:
Critical-Angle Reflections / 3.6:
Integrated Optic Waveguides / 3.7:
Dielectric-Slab Waveguide / 4.1:
Modes in the Symmetric-Slab Waveguide / 4.2:
Modes in the Asymmetric-Slab Waveguide / 4.3:
Coupling to the Waveguide / 4.4:
Dispersion and Distortion in the Slab Waveguide / 4.5:
Integrated Optic Components / 4.6:
Optic Fiber Waveguides / 4.7:
Step-Index Fiber / 5.1:
Graded-Index Fiber / 5.2:
Attenuation / 5.3:
Modes and Fields in Step-Index Fibers / 5.4:
Modes and Fields in Graded-Index Fibers / 5.5:
Pulse Distortion and Information Rate in Optic Fibers / 5.6:
Construction of Optic Fibers / 5.7:
Optic-Fiber Cables / 5.8:
Optical Sources and Amplifiers / 5.9:
Light-Emitting Diodes / 6.1:
Light-Emitting-Diode Operating Characteristics / 6.2:
Laser Principles / 6.3:
Laser Diodes / 6.4:
Laser-Diode Operating Characteristics / 6.5:
Narrow-Spectral-Width and Tunable Laser Diodes / 6.6:
Optical Amplifiers / 6.7:
Fiber Lasers / 6.8:
Vertical-Cavity Surface-Emitting Laser Diodes / 6.9:
Light Detectors / 6.10:
Principles of Photodetection / 7.1:
Photomultiplier / 7.2:
Semiconductor Photodiode / 7.3:
PIN Photodiode / 7.4:
Avalanche Photodiode / 7.5:
Couplers and Connectors / 7.6:
Connector Principles / 8.1:
Fiber-End Preparation / 8.2:
Splices / 8.3:
Connectors / 8.4:
Source Coupling / 8.5:
Distribution Networks and Fiber Components / 8.6:
Distribution Networks / 9.1:
Directional Couplers / 9.2:
Star Couplers / 9.3:
Switches / 9.4:
Fiber-Optical Isolator / 9.5:
Wavelength-Division Multiplexing / 9.6:
Fiber Bragg Gratings / 9.7:
Arrayed-Waveguide Gratings / 9.8:
MEMS Switches / 9.9:
Other Components: Attenuator, Circulator, and Polarization Controller / 9.10:
Modulation / 9.11:
Light-Emitting-Diode Modulation and Circuits / 10.1:
Laser-Diode Modulation and Circuits / 10.2:
Analog-Modulation Formats / 10.3:
Digital-Modulation Formats / 10.4:
Electroabsorption Modulator / 10.5:
Optic-Heterodyne Receivers / 10.6:
Noise and Detection / 10.7:
Thermal and Shot Noise / 11.1:
Signal-to-Noise Ratio / 11.2:
Error Rates / 11.3:
Modal Noise, Mode-Partition Noise, Amplifier Noise, Laser Noise, and Jitter / 11.4:
Other Sources of Noise / 11.5:
Receiver Circuit Design / 11.6:
System Design / 11.7:
Design of Analog Systems / 12.1:
Design of Digital Systems / 12.2:
Answers to Selected Problems / 12.3:
Bibliography
Index
Preface
Fiber Optic Communications Systems / Chapter 1:
Historical Perspective / 1.1:
21.

図書

図書
edited by Michael K. Barnoski
出版情報: New York : Academic Press, 1981  xi, 351 p. ; 24 cm
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目次情報: 続きを見る
Optical fiber waveguides / Donald B. Keck
Optical fiber cable / James E. Goell
Coupling components for optical fiber waveguides / M.K. Barnoski
Electroluminescent sources for fiber systems / H. Kressel
Photodetectors for fiber systems / Steward D. Personick
Design of receivers and transmitters for fiber systems / S.D. Personick
Design considerations for multiterminal networks / M.K. Barnoski
Optical fiber waveguides / Donald B. Keck
Optical fiber cable / James E. Goell
Coupling components for optical fiber waveguides / M.K. Barnoski
22.

図書

図書
by H.-G. Unger
出版情報: Oxford [Eng.] ; New York : Clarendon Press, 1977  xvii, 751 p. ; 24 cm
シリーズ名: The Oxford engineering science series
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23.

図書

図書
J. A. Arnaud
出版情報: New York : Academic Press, 1976  447 p. ; 24 cm
シリーズ名: Quantum electronics series
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24.

図書

図書
Society of Photo-optical Instrumentation Engineers ; United States. Air Force. Office of Aerospace Research
出版情報: Redondo Beach, Calif. : Society of Photo-optical Instrumentation Engineers, c1968  vi, 138 p. ; 28 cm
シリーズ名: S.P.I.E. seminar proceedings ; v. 14
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25.

図書

図書
Peter K. Cheo
出版情報: Englewood Cliffs, NJ : Prentice-Hall, c1985  xiii, 304 p. ; 24 cm
シリーズ名: Prentice-Hall series in solid state physical electronics
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26.

図書

図書
Janusz A. Marszalec, Elzbieta Marszalec
出版情報: Bellingham, Wash. : SPIE Optical Engineering Press, c1994  ix, 144 p. ; 26 cm
シリーズ名: Tutorial texts in optical engineering ; v. TT 17
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27.

図書

図書
sponsored by IEEE Lasers and Electro-Optics Society, IEEE Communications Society
出版情報: New York : IEEE, c1992  1 v. ; 28 cm
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28.

図書

図書
edited by Andrea Bianco, Fabio Neri
出版情報: Boston : Kluwer Academic, 2003  x, 496 p. ; 24 cm
シリーズ名: The International Federation for Information Processing ; 114
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目次情報: 続きを見る
Preface
Committees
MAC Protocols / Part 1:
A QoS-Sensitive MAC for Slotted WDM Metropolitan Rings / J.D. Angelopoulos ; N. Leligou ; H. Linardakis ; A. Stavdas
An Analytical Model for a Slotted WDM Metro Ring with A-Posteriori Access / K. Bengi
A Preemptable Slotted Access Protocol to Transport Variable Size Packets in All-Optical Ring LANs/MANs / M.R. Salvador ; S. Heemstra De Groot ; D. Dey
Comparison of Single-Hop and Multihop AWG Based WDM Networks / H. Woesner ; M. Maier ; A. Wolisz
Burst Switching / Part 2:
Segmented Burst Switching: Enhancement of Optical Burst Switching to Decrease Loss Rate and Support Quality of Service / A. Maach ; G. von Bochmann
Provision of End-to-End Delay Guarantees in Wavelength-Routed Optical Burst-Switched Networks / I. de Miguel ; E. Kozlovski ; P. Bayvel
QoS Performance of WR-OBS Network Architecture with Request Scheduling
Dimensioning of FDL Buffers for Optical Burst Switching Nodes / C.M. Gauger
Italian Projects on Optical Networks / Part 3:
Optical Packet Switching of IP Traffic / S. Bregni ; G. Guerra ; A. Pattavina
Dynamic DWDM Exploitation in Connection-Oriented Optical Packet Switches / F. Callegati ; W. Cerroni ; C. Raffaelli ; P. Zaffoni
Variable-Size Packets in Slotted WDM Ring Networks / A. Bianco ; M. Bonsignori ; E. Leonardi ; F. Neri
Ringo: a Demonstrator of WDM Optical Packet Network on a Ring Topology / A. Carena ; V. Ferrero ; R. Gaudino ; V. De Feo ; P. Poggiolini
A Wavelength Recognizing Switching Architecture for Omega Interconnection Networks / A. Borella ; G. Cancellieri ; P. Prosperi
Switch Architecture / Part 4:
On the Performance of Optical Flow Routers Employing Wavelength Conversion / J.J. He ; D. Simeonidou
Prioritized Buffer Management in Photonic Packet Switches for DiffServ Assured Forwarding / H. Harai ; M. Murata
Assessment of Packet Loss for an Optical Packet Router with Recirculating Buffer / C. Develder ; M. Pickavet ; P. Demeester
Capability of Optical Code-Based MPLS (OC-MPLS) / K. Kitayama ; K. Onohara
Protection and Restoration / Part 5:
Design of Static WDM Mesh Networks with Dedicated Path-Protection / S. De Patre ; G. Maier ; M. Martinelli
Zrestore: A Link Restoration Scheme with High Aggregation and No Reservation / S. Das ; P. Verma ; B.N. Jain ; M. Gerla
Protection and Restoration Strategies in WDM Mesh Networks / G. Conte ; M. Listanti ; M. Settembre ; R. Sabella
Dynamic Routing with Partial Information in Mesh-Restorable Optical Networks / M. Sridharan ; R. Srinivasan ; A.K. Somani
Virtual Topology Design / Part 6:
A Study on the Efficacy of Regular Virtual Topology Design Heuristics for Optical Packet Switching / O. Komolafe ; D. Harle ; D. Cotter
A Design Method for Logical Topologies with Consideration of Wavebands / Y. Fukushima ; S. Arakawa ; H. Miyahara
Dynamic Establishment of All-Optical Connections in Wavelength-Routed Optical Networks Using Genetic Algorithms / D. Bisbal ; F. Gonzalez ; I. De Miguel ; J. Blas ; JC. Aguado ; P. Fernandez ; R.M. Lorenzo ; E.J. Abril ; M. Lopez
Wavelength Routed Networks / Part 7:
Capacity Expansion of Fiber Optic Infrastructure Networks Using Wavelength Division Multiplexing Systems / A. Dutta ; P. Kubat
Performance Analysis of WDM Optical Networks with Wavelength Usage Constraint / J. Fang
A Multistart Randomized Greedy Algorithm for Traffic Grooming on Mesh Logical Topologies / M. Brunato ; R. Battiti
Physical and Transmission / Part 8:
Combined ASK/FSK and ASK/DPSK Modulation Formats for Optically Labeled Signals / Sulur ; T. Koonen ; I.T. Monroy ; J. Jennen ; H. De Waardt ; G. Morthier
Some New Concepts for All-Optical 2R Regeneration Using InP-Based Photonic Integrated Circuits / J. De Merlier ; M. Zhao ; R. Baets
On the Impact of Electronic Regeneration on Dynamic Wavelength Routing in Selectively Transparent or Opaque WDM Networks / G. Franzl ; A. Jukan
Impact of Polarization Mode Dispersion in Multi-Hop Multi-Rate WDM Rings / I. Cerutti ; M.R. Xavier De Barros ; A. Fumagalli ; R. Rajagopalan ; S.M. Rossi
Modelling of a Deterministic Emulator to Accurately Reproduce the Real Fiber Affected by PMD Up to Third Order / A. Bogoni ; A. Orlandini ; L. Poti
Author index
Preface
Committees
MAC Protocols / Part 1:
29.

図書

図書
edited by Eric Udd, William B. Spillman, Jr.
出版情報: Hoboken, N.J. : Wiley, c2011  xiii, 498 p. ; 24 cm
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目次情報: 続きを見る
Preface
About the Authors
Contributors
The Emergence of Fiber Optic Sensor Technology / Eric Udd1:
Optical Fibers / Daniel A. Nolan ; Paul E. Blaszyk2:
Light Sources / 3:
Optical Detectors / William B. Spillman4:
Optical Modulators for Fiber Optic Sensors / Leonard M. Johnson5:
Intensity-Based and Fabry-Perot Interferometer Sensors / Gordon L. Mitchell6:
Multimode Grating Sensors / 7:
Multimode Polarization Sensors / 8:
Fiber Optic Sensors Based on the Sagnac Interferometer and Passive Ring Resonator / 9:
Fiber Optic Sensors Based on the Mach-Zehnder and Michelson Interferometers / Anthony Dandridge10:
Distributed and Multiplexed Fiber Optic Sensors / Alan D. Kersey11:
Fiber Optic Magnetic Sensors / Frank Bucholtz12:
Industrial Applications of Fiber Optic Sensors / John W. Berthold III13:
Fiber Optic Smart Structures / 14:
Fiber Grating Sensors / 15:
Fiber Optic Biosensors / 16:
Index
Preface
About the Authors
Contributors
30.

図書

図書
Yasuharu Suematsu, Ken-Ichi Iga ; translated by H. Matsumura ; text edited and revised by W.A. Gambling
出版情報: New York : Wiley, c1982  xviii, 208 p. ; 24 cm
シリーズ名: Wiley series in pure and applied optics
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31.

図書

東工大
目次DB

図書
東工大
目次DB
Yasuharu Suematsu, Ken-Ichi Iga ; traduit par D. de Pardieu
出版情報: Paris : Masson, 1984  204 p. ; 24 cm
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HISTOIRE DES TELECOMMUNICATIONS OPTIQUES 11
CHAPITRE 1. -Presentation des telecommunications optiques 13
   1.1 Qu'est-ce qu'une telecommunication optique? 13
   1.2 Bref historique du debut des telecommunications optiques 15
   1.3 Quelles sont les autres methodes de transmission optique? 16
   1.3.1 Propagation normale d'un faisceau laser dans l'atmosphere 17
   1.3.2 Methode utilisant un guide d'onde a lentilles 19
   1.3.3 Lignes de transmission a fibres optiques 20
   1.4 Quels sont les avantages des telecommunications par fibre optique? 22
CHAPITRE 2. -Bases theoriques du guidage de la lumiere 23
   2.1 La refraction et la reflexion constituent les bases des guides d'onde optiques 23
   2.2 Comment la lumiere peut-elle etre guidee? 26
   2.3 Une onde guidee peut etre representee par des modes discrets 28
   2.4 Nombre de modes 32
   2.5 Qu'est-ce qu'une vitesse de groupe? 35
   2.6 Modes TE et TM 38
CHAPITRE 3. -Caracteristiques de propagation et effet de focalisation d'un guide d'onde optique 39
   3.1 Qu'est-ce qu'un guide d'onde a gradient d'indice? 39
   3.1.1 Onde guidee dans un guide d'onde a gradient d'indice 40
   3.1.2 Nombre de modes guides dans un guide d'onde a gradient d'indice 42
   3.1.3 Vitesse de groupe dans le guide d'onde a gradient d'indice 44
   3.2 Guide d'onde avec repartition arbitraire d'indice de refraction 45
   3.3 Guide d'onde monomode 48
   3.4 Effet de la courbure du guide d'onde 49
   3.5 Effet d'irregularites d'interface 50
   3.6 Focalisation de la lumiere 51
CHAPITRE 4. -Principe de l'emission de lumiere et du fonctionnement du laser 54
   4.1 Principes fondamentaux de l'emission lumineuse et du fonctionnement du laser 54
   4.1.1 Mecanisme de l'emission de lumiere 54
   4.1.2 Mecanismes de l'amplification et de l'oscillation de la lumiere 55
   4.2 Emission lumineuse dans les semi-conducteurs et les diodes electroluminescentes 57
   4.2.1 Processus d'emission de lumiere dans un semi-conducteur 57
   4.2.2 Diode electroluminescente 62
   4.3 Principes de fonctionnement du laser 62
   4.3.1 Processus d'oscillation dans les lasers 62
   4.3.2 Conditions pour l'oscillation laser 64
   4.3.3 Double heterojonction et fonctionnement continu a temperature normale 65
   4.4 Lasers a semi-conducteur 67
   4.4.1 Fonctionnement d'un laser a semi-conducteur a double heterojonction 67
   4.4.2 Spectre d'oscillation d'un laser a semi-conducteur 69
   4.4.3 Fabrication de lasers semi-conducteurs a double hetero-structure 69
   4.5 Caracteristiques de la lumiere emise 73
   4.5.1 Signification de la coherence 73
   4.5.2 Lasers et coherence 74
CHAPITRE 5. -Sources de lumiere pour telecommunications par fibres optiques 77
   5.1 Conditions requises pour les sources optiques des telecommunications 77
   5.1.1 Principales caracteristiques des sources optiques 77
   5.1.2 Autres proprietes d'une source optique 80
   5.2 Sources lumineuses et caracteristiques de propagation des fibres optiques 82
   5.3 Types de sources optiques 83
   5.3.1 Diode electroluminescente au GaAlAs 83
   5.3.2 Diode laser a semi-conducteur (DL) au GaAlAs 85
   5.3.3 Les variantes de structures a geometrie en ruban 85
   5.3.4 Approche d'une plus grande fiabilite 88
   5.3.5 Puissance de sortie et rendement 89
   5.3.6 Caracteristiques thermiques du laser DH au GaAlAs 90
   5.4 Couplage a une fibre optique 91
   5.5 Sources optiques a semi-conducteurs a longueurs d'onde plus grandes 92
   5.5.1 Dispositifs au GaInAs 93
   5.5.2 Dispositifs au GaAsSb 93
   5.5.3 Dispositifs au GaInAsP 94
   5.6 Lasers a cristaux 《a etat solide》 94
   5.7 Lasers a semi-conducteur ameliores 97
CHAPITRE 6. -Modulation, demodulation et circuits integres optiques 99
   6.1 Qu'est-ce que la modulation optique? 99
   6.2 Modulation directe des lasers a semi-conducteur 101
   6.2.1 Resonance de cavite 102
   6.2.2 Impulsions erratiques a la frequence de resonance 102
   6.2.3 Oscillation de relaxation 103
   6.2.4 Effet de l'accumulation des porteurs sur la modulation d'impulsion 103
   6.3 Modulation directe des diodes electroluminescentes 107
   6.4 Modulation externe 109
   6.4.1 Modulation de phase 109
   6.4.2 Modulateurs guide d'onde 111
   6.5 Detecteurs optiques 111
   6.5.1 Conversion d'un signal optique en signal electrique 111
   6.5.2 Conditions requises pour les detecteurs optiques 111
   6.5.3 Principe de la photodiode a avalanche (PDA) 112
   6.5.4 Amplificateur a avalanche 114
   6.6. Presentation generale des circuits integres optiques 115
   6.7 Guides d'onde pour circuits integres optiques 116
   6.8 Circuits de guides d'onde passifs 118
   6.8.1 Filtre 118
   6.8.2 Guide d'onde unidirectionnel 118
   6.9 Circuits de guides d'onde actifs 119
   6.9.1 Laser integre 119
   6.9.2 Modulateur et deflecteur de guide d'onde 119
   6.9.3 Detecteur de guide d'onde 121
   6.9.4 Guide d'onde parametrique optique 121
   6.10 Avenir des circuits integres optiques 121
CHAPITRE 7. -Lignes de transmission par fibres optiques 122
   7.1 Les differents types de fibres optiques et leurs caracteristiques 122
   7.2 Parametres fondamentaux des fibres optiques 124
   7.2.1 Fibres cylindriques circulaires 124
   7.2.2 Modes se propageant dans une fibre a saut d'indice 125
   7.2.3 Fibres a gradient d'indice 128
   7.3 Materiaux et methodes de fabrication des fibres optiques 130
   7.3.1 Fibre en verre de silice 130
   7.3.2 Fibres en verre multicomposants 133
   7.4 Attenuation des fibres optiques 134
   7.4.1 Pertes dues a l'absorption et a la diffusion 134
   7.4.2 Pertes dues aux courbures et a la diffusion a l'interface coeur-gaine 136
   7.4.3 Pertes dues aux raccordements 137
   7.5 Methodes de mesures de la repartition d'indices de refraction 138
   7.6 Bande passante des fibres optiques 140
   7.6.1 Facteurs reduisant la largeur de bande 140
   7.6.2 Dispersion dans le materiau 141
   7.6.3 Dispersion de guide d'onde 143
   7.6.4 Dispersion multimodale 144
   7.6.5 Effet du couplage de mode et des pertes dependant du mode sur la bande passante 146
   7.6.6 Exemples de caracteristiques de transmission. Fibres multimodes a saut d'indice 147
   7.7 Raccordements, connexions et cablages 150
CHAPITRE 8. -Reseaux de telecommunications optiques et applications 153
   8.1 Caracteristiques des reseaux de telecommunications par fibre optique 153
   8.1.1 Comparaison avec les systemes a fil existants 153
   8.1.2 Caracteristiques et applications des telecommunications par fibre optique 154
   8.2 Distance de transmission avec les fibres optiques 156
   8.2.1 Principe des transmissions 156
   8.2.2 Puissance minimale du recepteur 156
   8.2.3 Distance de transmission 158
   8.2.4 Distances de transmission dans differents systemes 159
   8.3 Exemples de techniques de transmissions optiques 160
   8.3.1 Modulation par intervalles d'impulsions 160
   8.3.2 Transmission optique avec modulation PCM 162
   8.3.3 Telecommunication par fibre optique dans les reseaux de distribution electrique 163
   8.3.4 Instrumentation et commande par fibre optique 165
   8.4 Multiplexage de longueurs d'onde 166
Annexe 1. -Trajectoire d'un rayon dans un guide d'onde a indice parabolique 168
Annexe 2. -Dephasage sur une periode dans un guide d'onde a indice parabolique 170
Annexe 3. -Traitement des equations (3.12) et (3.15) 172
Annexe 4. -Equations differentielles 173
Annexe 5. -Modes dans les fibres cylindriques a section circulaire 174
Annexe 6. -Modes de Hermite-Gauss 178
Annexe 7. -Modes HE, EH, HG et LG 179
BIBLIOGRAPHIE 181
INDEX 198
HISTOIRE DES TELECOMMUNICATIONS OPTIQUES 11
CHAPITRE 1. -Presentation des telecommunications optiques 13
   1.1 Qu'est-ce qu'une telecommunication optique? 13
32.

図書

図書
Gerd Keiser
出版情報: Boston, MA : McGraw-Hill, 2000  xxi, 602 p. ; 24 cm
シリーズ名: McGraw-Hill series in electrical and computer engineering ; Communications and signal processing
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Overview of Optical Fiber Communications / 1:
Optical Fibers: Structures, Waveguiding, and Fabrication / 2:
Signal Degradation in Optical Fibers / 3:
Optical Sources / 4:
Power Launching and Coupling / 5:
Photodetectors / 6:
Optical Receiver Operation / 7:
Digital Transmission Systems / 8:
Analog Systems / 9:
WDM Concepts and Components / 10:
Optical Amplifiers / 11:
Optical Networks / 12:
Measurements / 13:
International System of Units / Appendix A:
Useful Mathematical Relations / Appendix B:
Bessel Functions / Appendix C:
Decibels / Appendix D:
Topics from Communication Theory / Appendix E:
Factors Contributing to Dispersion / Appendix F:
Overview of Optical Fiber Communications / 1:
Optical Fibers: Structures, Waveguiding, and Fabrication / 2:
Signal Degradation in Optical Fibers / 3:
33.

図書

図書
Yuri N. Kulchin, editor ; sponsored by SPIE Russia Chapter ; published by SPIE--The International Society for Optical Engineering
出版情報: Bellingham, Wash. : SPIE, c2001  vi, 148 p. ; 28 cm
シリーズ名: Proceedings / SPIE -- the International Society for Optical Engineering ; v. 4357
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34.

図書

図書
edited by Stewart E. Miller, Alan G. Chynoweth
出版情報: Orlando ; Tokyo : Academic Press, c1979-  v. ; 24 cm
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Contributors
Overview / Ivan P. KaminowChapter 1:
Design of Optical Fibers for Communications Systems / David J. DiGiovanni ; Santanu K. Das ; Lee L. Blyler ; W. White ; Raymond K. Boncek ; Steven E. GolowichChapter 2:
New Materials for Optical Amplifiers / Adam Ellison ; John MinellyChapter 3:
Advances in Erbium-Doped Fiber Amplifiers / Atul K. Srivastava ; Yan SunChapter 4:
Raman Amplification in Lightwave Communication Systems / Karsten Rottwitt ; Andrew J. StentzChapter 5:
Electrooptic Modulators / Amaresh Mahapatra ; Edmond J. MurphyChapter 6:
Optical Switching in Transport Networks: Applications, Requirements, Architectures, Technologies, and Solutions / Daniel Y. Al-Salameh ; Steven K. Korotky ; David S. Levy ; Timothy O. Murphy ; Sunita H. Patel ; Gaylord W. Richards ; Eric S. TentarelliChapter 7:
Applications for Optical Switch Fabrics / Martin ZirngiblChapter 8:
Planar Lightwave Devices for WDM / Christopher R. DoerrChapter 9:
Fiber Grating Devices in High-Performance Optical Communications Systems / Thomas A. Strasser ; Turan ErdoganChapter 10:
Pump Laser Diodes / Berthold E. Schmidt ; Stefan Mohrdiek ; Christoph S. HarderChapter 11:
Telecommunication Lasers / D. A. Ackerman ; J. E. Johnson ; L. J. P. Ketelsen ; L. E. Eng ; P. A. Kiely ; T. G. B. MasonChapter 12:
VCSEL for Metro Communications / Connie J. Chang-HasnainChapter 13:
Semiconductor Optical Amplifiers / Leo H. SpiekmanChapter 14:
All-Optical Regeneration: Principles and WDM Implementation / Olivier Leclerc ; Bruno Lavigne ; Dominique Chiaroni ; Emmanuel DesurvireChapter 15:
High Bit-Rate Receivers, Transmitters, and Electronics / Bryon L. Kasper ; Osamu Mizuhara ; Young-Kai ChenChapter 16:
Index to Volumes IVA and IVB
Overview and Summary of Progress / S.E. Miller
Fiber Types and Their Status / P. Kaiser ; D.B. Keck
Selected Topics in the Theory of Telecommunications Fibers / D. Marcuse
Fiber Materials and Fabrication Methods / S.R. Nagel
Optical Fiber Cables / C.H. Gartside III ; P.D. Patel ; M.R. Santana
Optical Fiber Splicing / S.C. Mettler ; C.M. Miller
Fiber Connectors / W.C. Young ; D.R. Frey
Optical Fiber Transmission Evaluation / D.L. Philen ; W.T. Anderson
Integrated Optics: Basic Concepts and Techniques / W.J. Tomlinson ; S.K. Korotky
Passive and Low-Speed Active Optical Components for Fiber Systems
Waveguide Electrooptic Devices for Optical Communication / R.C. Alferness
Light-Emitting Diodes for Telecommunication / T.P. Lee ; C.A. Burrus, Jr ; R.H. Saul
Semiconductor Lasers for Telecommunications / J.E. Bowers ; M.A. Pollack
Optical Detectors for Lightwave Communication / S.R. Forrest
Integrated Optical and Electronic Devices / K. Kobayashi
Epitaxial Growth Methods for Lightwave Devices / J.A. Long ; R.A. Logan ; R.F. Karlicek, Jr
Reliability of Lasers and LEDs / N.K. Dutta ; C.L. Zipfel
Receiver Design / B.L. Kasper
Lightwave Transmitters / P.W. Shumate
High Performance Integrated Circuits for Lightwave Systems / R.G. Swartz
Introduction to Lightwave Systems / P.S. Henry ; R.A. Linke ; A.H. Gnauck
Interoffice Transmission Systems / S.S. Cheng ; E.H. Angell
Terrestrial Intercity Transmission Systems / D.C. Gloge ; I. Jacobs
Undersea Cable Transmission Systems / P.K. Runge ; N.S. Bergano
Optical Fibers in Loop Distribution Systems / P.E. White ; L.S. Smoot
Photonic Local Networks / I.P. Kaminow
Growth of the Internet / Kerry G. Coffman ; Andrew M. Odlyzko
Optical Network Architecture Evolution / John Strand
Undersea Communication Systems / Neal S. Bergano
High-Capacity, Ultra-Long-Haul Networks / John Zyskind ; Rick Barry ; Graeme Pendock ; Michael Cahill ; Jinendra Ranka
Pseudo-Linear Transmission of High-Speed TDM Signals: 40 and 160 Gb/s / Rene-Jean Essiambre ; Gregory Raybon ; Benny Mikkelsen
Dispersion-Managed Solitons and Chirped Return to Zero: What Is the Difference? / Curtis R. Menyuk ; Gary M. Carter ; William L. Kath ; Ruo-Mei Mu
Metropolitan Optical Networks / Nasir Ghani ; Jin-Yi Pan ; Xin Cheng
The Evolution of Cable TV Networks / Xiaolin Lu ; Oleh Sneizko
Optical Access Networks / Edward Harstead ; Pieter H. van Heyningen
Beyond Gigabit: Application and Development of High-Speed Ethernet Technology / Cedric F. Lam
Photonic Simulation Tools / Arthur J. Lowery
Nonlinear Optical Effects in WDM Transmission / Polina Bayvel ; Robert Killey
Fixed and Tunable Management of Fiber Chromatic Dispersion / Alan E. Willner ; Bogdan Hoanca
Polarization-Mode Dispersion / Herwig Kogelnik ; Robert M. Jopson ; Lynn E. Nelson
Bandwidth-Efficient Modulation Formats for Digital Fiber Transmission Systems / Jan Conradi
Error-Control Coding Techniques and Applications / P. Vijay Kumar ; Moe Z. Win ; Hsiao-Feng Lu ; Costas N. GeorghiadesChapter 17:
Equalization Techniques for Mitigating Transmission Impairments / Jack H. Winters ; Giorgio M. VitettaChapter 18:
Overview of OFT V Volumes A & B / Tingye Li
Semiconductor Quantum Dots: Genesis-The Excitonic Zoo-Novel Devices for Future Applications / Dieter Bimberg
High-Speed Low-Chirp Semiconductor Lasers / Shun Lien Chuang ; Guobin Liu ; Piotr Konrad Kondratko
Recent Advances in Surface-Emitting Lasers / Fumio Koyama
Pump Diode Lasers / Christoph Harder
Ultrahigh-Speed Laser Modulation by Injection Locking / Xiaoxue Zhao
Recent Developments in High-Speed Optical Modulators / Lars Thylen ; Urban Westergren ; Petter Holmstrom ; Richard Schatz ; Peter Janes
Advances in Photodetectors / Joe Charles Campbell
Planar Lightwave Circuits in Fiber-Optic Communications / Katsunari Okamoto
III-V Photonic Integrated Circuits and Their Impact on Optical Network Architectures / Dave Welch ; Chuck Joyner ; Damien Lambert ; Peter W. Evans ; Maura Raburn
Silicon Photonics / Cary Gunn ; Thomas L. Koch
Photonic Crystal Theory: Temporal Coupled-Mode Formalism / Shanhui Fan
Photonic Crystal Technologies: Experiment / Susumu Noda
Photonic Crystal Fibers: Basics and Applications / Philip St John Russell
Specialty Fibers for Optical Communication Systems / Ming-Jun Li ; Xin Chen ; Daniel A. Nolan ; Ji Wang ; James A. West ; Karl W. Koch
Plastic Optical Fibers: Technologies and Communication Links / Yasuhiro Koike ; Satoshi Takahashi
Polarization Mode Dispersion / Misha Brodsky ; Nicholas J. Frigo ; Moshe Tur
Electronic Signal Processing for Dispersion Compensation and Error Mitigation in Optical Transmission Networks / Abhijit Shanbhag ; Qian Yu ; John Choma
Microelectromechanical Systems for Lightwave Communication / Ming C. Wu ; Olav Solgaard ; Joseph E. FordChapter 19:
Nonlinear Optics in Communications: From Crippling Impairment to Ultrafast Tools / Stojan Radic ; David J. Moss ; Benjamin J. EggletonChapter 20:
Fiber-Optic Quantum Information Technologies / Prem Kumar ; Jun Chen ; Paul L. Voss ; Xiaoying Li ; Kim Fook Lee ; Jay E. SharpingChapter 21:
Index to Volumes VA and VB
(Volume B)
Introduction / J.L. Zyskind ; J.A. Nagel ; H.D. Kidorf
Erbium-Doped Fiber Amplifiers for Optical Communications: Introduction
Properties of EDFAs
Terrestrial Applications for EDFAs
Submarine Systems
Optical Amplifiers for Analog Video Transmission
Optical Amplifiers for Optical Networking
Conclusions / D.A. Fishman ; B.S. Jackson
Transmitter and Receiver Design for Amplified Lightwave Systems: Introduction
DesignIntricacies of Laser Transmitters
Receivers for Optically Amplified Systems
Systems Performance Metrics
Multiple Wavelength Systems
Provisions for Performance Monitoring in Long Amplified Systems / T.L. Koch
Laser Sources for Amplified and WDM Lightwave Systems: Introduction
Low-Chirp Transmission Sources
WDM Sources
Advances in Semiconductor Laser Growth and Fabrication Technology: Introduction / C. Joyner
New Sources and Growth Apparatus
Band Structure Engineering via Strained Multiquantum Wells
Selective Area Growth
Selective Area Etching
Beam Expanded Lasers
Conclusion / L.A. Coldren ; B.J. Thibeault
Vertical Cavity Surface-Emitting Lasers: Introduction
Structures
Design Issues
Growthand Issues
Integration: Photonic and Optoelectronic
Applications / A.E. White ; S.G. Grubb
Optical Fiber Components and Devices: Introduction
Fiber Amplifiers and Related Components
Applications of Fiber Gratings
High-Power Fiber Lasers and Amplifiers
Upconversion Fiber Lasers and Amplifiers / Y.P. Li ; C.H. Henry
Silicon Optical Bench Waveguide Technology: Introduction
Materials and Fabrication
Design
Transmission Loss
Couplers and Splitters
Mach-Aehnder and FourierFilter Multiplexers
Array Waveguide Devices
Bragg Reflection
Wavelength and Polarization Control
Amplification in Erbium Doped Waveguides
Integrated Optical Switches
Hybrid Integration
Lithium Niobate Integrated-Optics: Selected Contemporary Devices and System Applications: Introduction / F. Heismann ; J.J. Veselka
High Speed Phase and Amplitude Modulators and Switches
Electrooptic Polarization Controllers and Modulators
Electrooptic and Acoustooptic Wavelength Filters
Summary and Conclusions / E.J. Murphy
Photonic Switching:Introduction
Optical Switching Overview
Technology Advances
Device Demonstrations
System Demonstrations and Advances
Summary and Comments
Subject Index
Overview of OFT V volumes A & B
Advanced optical modulation formats / Peter J. Winzer
Coherent optical communication systems / Kazuro Kikuchi
Self-coherent optical transport systems / Xiang Liu ; Sethumadhavan Chandrasekhar ; Andreas Leven
High-bit-rate ETDM transmission systems / Karsten Schuh ; Eugen Lach
Ultra-high-speed OTDM transmission technology / Hans-Georg Weber ; Reinhold Ludwig
Optical performance monitoring / Zhongqi Pan ; Changyuan Yu
ROADMs and their system applications / Mark D. Feuer ; Daniel C. Kilper ; Sheryl L. Woodward
Optical Ethernet: Protocols, management, and 1-100 G technologies / Winston I. Way
Fiber-based broadband access technology and deployment / Richard E. Wagner
Global landscape in broadband: Politics, economics, and applications / Richard Mack
Metro networks: Services and technologies / Loukas Paraschis ; Ori Gerstel ; Michael Y. Frankel
Commercial optical networks, overlay networks, and services / Robert Doverspike ; Peter Magill
Technologies for global telecommunications using undersea cables / Sebastien Bigo
Future optical networks / Michael O'Mahony
Optical burst and packet switching / S. J. Ben Yoo
Optical and electronic technologies for packet switching / Rodney S. Tucker
Microwave-over-fiber systems / Alwyn J. Seeds
Optical interconnection networks in advanced computing systems / Keren Bergman
Simulation tools for devices, systems, and networks / Robert Scarmozzino
Semiconductor Quantum Dots
Recent Advances in Surface Emitting Lasers
Ultra-High-Speed Laser Modulation by Injection-Locking
MEMS (Micro-Electro-Mechanical Systems) for Lightwave Communication
Fiber-optic Quantum Information Technologies
Fiber Lasers
High-Power Semiconductor Lasers
Advances in Tunable, Settable VCSELs
Nanolasers
Monolithic III-V Tx/Rx PICs
Advances in Photodetectors & Receivers
Fundamentals of Photonic Crystals for Telecom Applications
High-Speed Polymer Optical Modulators
Nanophotonics for Low-Power Switches
Fibers for Short-Distance Applications
Few-Mode Fiber Technology for Spatial Multiplexing
Multicore Optical Fibers
Plastic Optical Fibers Fabrication Tech and Gbit/s Data Links
Silicon Photonic Devices: Building Blocks
Integrated and Hybrid Photonics for High-Performance Interconnects (InP and Hybrid)
CMOS Photonics for High Performance Interconnects
Hybrid Silicon Lasers
VCSEL-Based Data Links
Implementation Aspects of Coherent Transceiver Functions in ASICs
Phase-Sensitive Optical Regeneration
Ultra-High-Speed OTDM Techniques
Advanced Technology and Applications of Liquid Crystal on Silicon Capacity of Fibers in Optical Networks
Commercial 100-Gbit/s Coherent Transmission Systems
Advances in Tbit/s Superchannels
Undersea Transport
Optical Satellite Communications
Advanced DSP for Optical Communication Systems
Coding for Optical Links
Extreme Higher-Order Modulation Formats
Multi-Carrier Optical Transmission (including OFDM)
Optical Encoding/Decoding of OFDM & Nyquist Signals
Multi-Orthogonal-Mode Multichannel Systems
Fundamentals of Propagation in Multimode Fibers
Multimode Communications using OAM
Transmission Systems using Multicore Fibers
Elastic Optical Networking
Advances in Rapidly Reconfigurable Networking
Convergence of IP and Optical Networking
Energy Efficient Telecommunications
Advanced Metro Network Architectures
Novel Architectures for Streaming / Routing in Optical Networks
High-BW (10-100 GHz) RF and Microwave Photonic Links
State-of-the-Art and Standardization Issues for PONs
WDM PONs
Worldwide FTTx Deployment
Contributors
Overview / Ivan P. KaminowChapter 1:
Design of Optical Fibers for Communications Systems / David J. DiGiovanni ; Santanu K. Das ; Lee L. Blyler ; W. White ; Raymond K. Boncek ; Steven E. GolowichChapter 2:
35.

図書

図書
by W. B. Allan
出版情報: London ; New York : Plenum Press, 1973  vi, 247 p. ; 24 cm
シリーズ名: Optical physics and engineering
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36.

図書

図書
Takanori Okoshi
出版情報: New York : Academic Press, 1982  xii, 299 p. ; 24 cm
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37.

図書

図書
Govind P. Agrawal
出版情報: Boston ; Tokyo : Academic Press, c1989  xii, 342 p. ; 24 cm
シリーズ名: Quantum electronics : principles and applications
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Preface
Introduction / 1:
Historical Perspective / 1.1:
Fiber Characteristics / 1.2:
Material and Fabrication / 1.2.1:
Fiber Losses / 1.2.2:
Chromatic Dispersion / 1.2.3:
Polarization-Mode Dispersion / 1.2.4:
Fiber Nonlinearities / 1.3:
Nonlinear Refraction / 1.3.1:
Stimulated Inelastic Scattering / 1.3.2:
Importance of Nonlinear Effects / 1.3.3:
Overview / 1.4:
Problems
References
Pulse Propagation in Fibers / 2:
Maxwell's Equations / 2.1:
Fiber Modes / 2.2:
Eigenvalue Equation / 2.2.1:
Single-Mode Condition / 2.2.2:
Characteristics of the Fundamental Mode / 2.2.3:
Pulse-Propagation Equation / 2.3:
Nonlinear Pulse Propagation / 2.3.1:
Higher-Order Nonlinear Effects / 2.3.2:
Numerical Methods / 2.4:
Split-Step Fourier Method / 2.4.1:
Finite-Difference Methods / 2.4.2:
Group-Velocity Dispersion / 3:
Different Propagation Regimes / 3.1:
Dispersion-Induced Pulse Broadening / 3.2:
Gaussian Pulses / 3.2.1:
Chirped Gaussian Pulses / 3.2.2:
Hyperbolic-Secant Pulses / 3.2.3:
Super-Gaussian Pulses / 3.2.4:
Experimental Results / 3.2.5:
Third-Order Dispersion / 3.3:
Changes in Pulse Shape / 3.3.1:
Broadening Factor / 3.3.2:
Arbitrary-Shape Pulses / 3.3.3:
Ultrashort-Pulse Measurements / 3.3.4:
Dispersion Management / 3.4:
GVD-Induced Limitations / 3.4.1:
Dispersion Compensation / 3.4.2:
Compensation of Third-Order Dispersion / 3.4.3:
Self-Phase Modulation / 4:
SPM-Induced Spectral Broadening / 4.1:
Nonlinear Phase Shift / 4.1.1:
Changes in Pulse Spectra / 4.1.2:
Effect of Pulse Shape and Initial Chirp / 4.1.3:
Effect of Partial Coherence / 4.1.4:
Effect of Group-Velocity Dispersion / 4.2:
Pulse Evolution / 4.2.1:
Optical Wave Breaking / 4.2.2:
Effect of Third-Order Dispersion / 4.2.4:
Self-Steepening / 4.3:
Effect of GVD on Optical Shocks / 4.3.2:
Intrapulse Raman Scattering / 4.3.3:
Optical Solitons / 5:
Modulation Instability / 5.1:
Linear Stability Analysis / 5.1.1:
Gain Spectrum / 5.1.2:
Experimental Observation / 5.1.3:
Ultrashort Pulse Generation / 5.1.4:
Impact on Lightwave Systems / 5.1.5:
Fiber Solitons / 5.2:
Inverse Scattering Method / 5.2.1:
Fundamental Soliton / 5.2.2:
Higher-Order Solitons / 5.2.3:
Experimental Confirmation / 5.2.4:
Soliton Stability / 5.2.5:
Other Types of Solitons / 5.3:
Dark Solitons / 5.3.1:
Dispersion-Managed Solitons / 5.3.2:
Bistable Solitons / 5.3.3:
Perturbation of Solitons / 5.4:
Perturbation Methods / 5.4.1:
Soliton Amplification / 5.4.2:
Soliton Interaction / 5.4.4:
Higher-Order Effects / 5.5:
Propagation of Femtosecond Pulses / 5.5.1:
Polarization Effects / 6:
Nonlinear Birefringence / 6.1:
Origin of Nonlinear Birefringence / 6.1.1:
Coupled-Mode Equations / 6.1.2:
Elliptically Birefringent Fibers / 6.1.3:
Nondispersive XPM / 6.2:
Optical Kerr Effect / 6.2.2:
Pulse Shaping / 6.2.3:
Evolution of Polarization State / 6.3:
Analytic Solution / 6.3.1:
Poincare-Sphere Representation / 6.3.2:
Polarization Instability / 6.3.3:
Polarization Chaos / 6.3.4:
Vector Modulation Instability / 6.4:
Low-Birefringence Fibers / 6.4.1:
High-Birefringence Fibers / 6.4.2:
Isotropic Fibers / 6.4.3:
Birefringence and Solitons / 6.4.4:
Soliton-Dragging Logic Gates / 6.5.1:
Vector Solitons / 6.5.4:
Random Birefringence / 6.6:
Polarization State of Solitons / 6.6.1:
Cross-Phase Modulation / 7:
XPM-Induced Nonlinear Coupling / 7.1:
Nonlinear Refractive Index / 7.1.1:
Coupled NLS Equations / 7.1.2:
Propagation in Birefringent Fibers / 7.1.3:
XPM-Induced Modulation Instability / 7.2:
XPM-Paired Solitons / 7.2.1:
Bright-Dark Soliton Pair / 7.3.1:
Bright-Gray Soliton Pair / 7.3.2:
Other Soliton Pairs / 7.3.3:
Spectral and Temporal Effects / 7.4:
Asymmetric Spectral Broadening / 7.4.1:
Asymmetric Temporal Changes / 7.4.2:
Applications of XPM / 7.4.3:
XPM-Induced Pulse Compression / 7.5.1:
XPM-Induced Optical Switching / 7.5.2:
XPM-Induced Nonreciprocity / 7.5.3:
Stimulated Raman Scattering / 8:
Basic Concepts / 8.1:
Raman-Gain Spectrum / 8.1.1:
Raman Threshold / 8.1.2:
Coupled Amplitude Equations / 8.1.3:
Quasi-Continuous SRS / 8.2:
Single-Pass Raman Generation / 8.2.1:
Raman Fiber Lasers / 8.2.2:
Raman Fiber Amplifiers / 8.2.3:
Raman-Induced Crosstalk / 8.2.4:
SRS with Short Pump Pulses / 8.3:
Pulse-Propagation Equations / 8.3.1:
Nondispersive Case / 8.3.2:
Effects of GVD / 8.3.3:
Synchronously Pumped Raman Lasers / 8.3.4:
Soliton Effects / 8.4:
Raman Solitons / 8.4.1:
Raman Soliton Lasers / 8.4.2:
Soliton-Effect Pulse Compression / 8.4.3:
Effect of Four-Wave Mixing / 8.5:
Stimulated Brillouin Scattering / 9:
Physical Process / 9.1:
Brillouin-Gain Spectrum / 9.1.2:
Quasi-CW SBS / 9.2:
Coupled Intensity Equations / 9.2.1:
Brillouin Threshold / 9.2.2:
Gain Saturation / 9.2.3:
Dynamic Aspects / 9.2.4:
Relaxation Oscillations / 9.3.1:
Modulation Instability and Chaos / 9.3.3:
Transient Regime / 9.3.4:
Brillouin Fiber Lasers / 9.4:
CW Operation / 9.4.1:
Pulsed Operation / 9.4.2:
SBS Applications / 9.5:
Brillouin Fiber Amplifiers / 9.5.1:
Fiber Sensors / 9.5.2:
Parametric Processes / 10:
Origin of Four-Wave Mixing / 10.1:
Theory of Four-Wave Mixing / 10.2:
Approximate Solution / 10.2.1:
Effect of Phase Matching / 10.2.3:
Ultrafast FWM / 10.2.4:
Phase-Matching Techniques / 10.3:
Physical Mechanisms / 10.3.1:
Phase Matching in Multimode Fibers / 10.3.2:
Phase Matching in Single-Mode Fibers / 10.3.3:
Phase Matching in Birefringent Fibers / 10.3.4:
Parametric Amplification / 10.4:
Gain and Bandwidth / 10.4.1:
Pump Depletion / 10.4.2:
Parametric Amplifiers / 10.4.3:
Parametric Oscillators / 10.4.4:
FWM Applications / 10.5:
Wavelength Conversion / 10.5.1:
Phase Conjugation / 10.5.2:
Squeezing / 10.5.3:
Supercontinuum Generation / 10.5.4:
Second-Harmonic Generation / 10.6:
Physical Mechanism / 10.6.1:
Simple Theory / 10.6.3:
Quasi-Phase-Matching Technique / 10.6.4:
Decibel Units / Appendix A:
Acronyms / Appendix B:
Index
Preface
Introduction / 1:
Historical Perspective / 1.1:
38.

図書

図書
Dietrich Marcuse
出版情報: Boston ; Tokyo : Academic Press, c1991  xv, 380 p. ; 24 cm
シリーズ名: Quantum electronics : principles and applications
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39.

図書

図書
Rongqing Hui
出版情報: London : Academic Press, c2020  xiii, 635 p. ; 24 cm
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