Noé | Essentials of Modern Optical Fiber Communication | E-Book | sack.de
E-Book

E-Book, Englisch, 343 Seiten, eBook

Noé Essentials of Modern Optical Fiber Communication


E-Book, Englisch, 343 Seiten, eBook

ISBN: 978-3-662-49623-7
Verlag: Springer
Format: PDF
 Kopierschutz: Wasserzeichen (»Systemvoraussetzungen)

This is a concise introduction into optical fiber communication. It covers important aspects from the physics of optical wave propagation and amplification to the essentials of modulation formats and receivers. The combination of a solid coverage of necessary fundamental theory with an in-depth discussion of recent relevant research results enables the reader to design modern optical fiber communication systems. The book serves both graduate students and professionals. It includes many worked examples with solutions for lecturers.
 
For the second edition, Reinhold Noé made many changes and additions throughout the text so that this concise book presents the essentials of optical fiber communication in an easy readable and understandable way.


Prof. Dr. Reinhold Noé is Chair and leader of 'Optical Communication and High-Frequency Engineering' at Paderborn University, Germany. He graduated in 1984 at Technical University Munich, and received his Dr.-Ing. (Ph.D.) degree in 1987 at the same University.
In his carreer, he worked as Academic researcher in Munich and Bellcore (now Telcordia), Red Bank, New Jersey, USA, as well as R&D engineer at Siemens, Munich, Germany. Since 1992 Reinhold Noé is full professor, heading the newly founded Chair for 'Optical Communication and High-Frequency Engineering' at the University of Paderborn, Germany.
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Professional/practitioner

Autoren/Hrsg.

Noé, Reinhold

Weitere Infos & Material

1;Preface;5
2;Contents;6
3;1 Introduction;8
4;2 Optical Waves in Fibers and Components;10
4.1;2.1 Electromagnetic Fundamentals;10
4.1.1;2.1.1 Maxwell’s Equations;10
4.1.2;2.1.2 Boundary Conditions;13
4.1.3;2.1.3 Wave Equation;15
4.1.4;2.1.4 Homogeneous Plane Wave in Isotropic Homogeneous Medium;17
4.1.5;2.1.5 Power and Energy;20
4.2;2.2 Dielectric Waveguides;35
4.2.1;2.2.1 Dielectric Slab Waveguide;36
4.2.2;2.2.2 Cylindrical Dielectric Waveguide;45
4.3;2.3 Polarization;59
4.3.1;2.3.1 Representing States-of-Polarization;59
4.3.2;2.3.2 Anisotropy, Index Ellipsoid;65
4.3.3;2.3.3 Jones Matrices, Müller Matrices;72
4.3.4;2.3.4 Monochromatic Polarization Transmission;89
4.3.5;2.3.5 Polarization Mode Dispersion;99
4.3.6;2.3.6 Polarization-Dependent Loss;107
4.4;2.4 Linear Electrooptic Effect;113
4.4.1;2.4.1 Phase Modulation;113
4.4.2;2.4.2 Soleil-Babinet Compensator;117
4.5;2.5 Mode Coupling;121
4.5.1;2.5.1 Mode Orthogonality;121
4.5.2;2.5.2 Mode Coupling Theory;126
4.5.3;2.5.3 Codirectional Coupling in Anisotropic Waveguide;129
4.5.4;2.5.4 Codirectional Coupling of Two Waveguides;136
4.5.5;2.5.5 Periodic Codirectional Coupling;142
4.5.6;2.5.6 Periodic Counterdirectional Coupling;147
4.6;2.6 Differential Group Delay Profiles;149
4.6.1;2.6.1 DGD Profiles and Discrete Mode Coupling;149
4.6.2;2.6.2 Polarization Mode Dispersion Compensation;155
4.6.3;2.6.3 Chromatic Dispersion Compensation;161
4.6.4;2.6.4 Fourier Expansion of Mode Coupling;167
4.6.5;2.6.5 DGD and PDL Profiles Determined by Inverse Scattering;172
4.7;2.7 Nonlinearities in Optical Fibers;176
4.7.1;2.7.1 Self Phase Modulation;177
4.7.2;2.7.2 Cross Phase Modulation;188
4.7.3;2.7.3 Four-Wave Mixing;191
5;3 Optical Fiber Communication Systems;195
5.1;3.1 Standard Systems with Direct Optical Detection;195
5.1.1;3.1.1 Signal Generation, Transmission, and Detection;195
5.1.2;3.1.2 Regeneration of Binary Signals;212
5.1.3;3.1.3 Circuits and Clock Recovery;220
5.2;3.2 Advanced Systems with Direct Detection;228
5.2.1;3.2.1 Photon Distributions;228
5.2.2;3.2.2 Noise Figure of Optical Amplifier;234
5.2.3;3.2.3 Intensity Distributions;238
5.2.4;3.2.4 Receivers for Amplitude Shift Keying;242
5.2.5;3.2.5 Receivers for Differential Phase Shift Keying;247
5.2.6;3.2.6 Polarization Division Multiplex;262
5.3;3.3 Coherent Optical Transmission;268
5.3.1;3.3.1 Receivers with Synchronous Demodulation;268
5.3.2;3.3.2 Carrier Recovery;279
5.3.3;3.3.3 Receivers with Asynchronous Demodulation;289
5.3.4;3.3.4 Laser Linewidth Requirements;293
5.3.5;3.3.5 Digital Coherent QPSK Receiver;300
5.3.6;3.3.6 Digital Coherent QAM Receiver;312
5.3.7;3.3.7 Other Modulation Schemes;330
6;References;333
7;Index;341

Introduction.- Optical waves in fibers and components.- Electromagnetic fundamentals .- Dielectric waveguides .- Polarization .- Linear electrooptic effect .- Mode coupling .- Differential group delay profiles .- Nonlinearities in optical fibers .- Optical fiber communication systems.- Standard systems with direct optical detection.- Advanced systems with direct detection.- Coherent optical transmission Coherent optical transmission.- References.- Index.

Reinhold Noé is Professor for Optical Communication and High-Frequency Engineering at Paderborn University in Germany, since 1992. He has been working for Infineon (2001), Siemens (1988-1992) and Bellcore (1987-1988). He obtained Dr.-Ing. (1987)  and Dipl.-Ing. (1984) degrees in Electrical Engineering from Technical University of Munich, Germany. With his coworkers, he received the Innovation Prize of the Land Northrhine-Westphalia in the category Innovation (2008), founded Novoptel GmbH (2010) and has authored about 300 journal and conference publications.

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