| Titre : | Optical Electronics in Modern Communications | | Type de document : | texte imprimé | | Auteurs : | Amnon Yariv, Auteur | | Mention d'édition : | 5th ed. | | Editeur : | New york : Oxford University Press Inc | | Année de publication : | 1997 | | Collection : | The Oxford Series in Electrical and Computer Engineering | | Importance : | 744 p. | | Présentation : | couv. ill. en coul. | | Format : | 24 cm. | | ISBN/ISSN/EAN : | 978-0-19-510626-8 | | Langues : | Anglais (eng) | | Index. décimale : | 05-06 Optique | | Résumé : | Now in its fifth edition, Optical Electronics in Modern Communications reflects the latest developments in the field Yariv helped define. The changes to this edition emulate the continuous ascendance of optical communication to the forefront of communication technology, evidenced also by the change in title from Optical Electronics in previous editions. The text introduces readers to the first principles of phenomena and devices used in the practice of laser physics, including applications based on lasers with emphasis placed on optical fiber communications, and features real-life examples as well as extensive problems. New to this edition are sections on pulse dispersion and narrowing in fibers, high speed modulation of semiconductor lasers, vertical cavity lasers, quantum optics, holographic data storage, fiber gratings, and dfb lasers. A solutions manual is also available for instructors. Known as the authoritative forerunner on optical electronics, this new edition can be used as both a core text in the classroom and as an invaluable reference for practicing engineers. | | Note de contenu : | Contents
1. Electromagnetic Theory
2. The Propagation of Rays and Beams
3. Propagation of Optical Beams in Fibers
4. Optical Resonators
5. Interaction of Radiation and Atomic Systems
6. Theory of Laser Oscillation and its Control in the Continuous and Pulsed Regimes
7. Some Specific Laser Systems
8. Second-Harmonic Generation and Parametric oscillation
9. Electronic Modulation of Laser Beams
10. Noise in Optical Detection and Generation
11. Detection of Optical Radiation
12. Interaction of Light and Sound
13. Propagation of Coupling Modes in Optical Dielectric Waveguides-Periodic Waveguides
14. Holography and Optical Data Storage
15. Semiconductor Lasers-Theory and Applications
16. Advanced Semiconductor Lasers: Quantum Well Lasers, Distributed Feedback Lasers, Vertical Cavity Surface Emitting
Lasers
17. Phase Conjugate Optics - Theory and Applications
18. Two-Beam Coupling and Phase Conjugation in Photorefractive Media
19. Optical Solitons
20. A Classical Treatment of Quantum Optics, Quantum noise, and squeezing
-Appendices A. The Kramers-Kroning relations
B. The Electrooptic Effect in Cubic 43m Crystals
C. Noise in Traveling Wave Lasers Amplifiers
D. Transformation of a coherent.
(source: Nielsen Book Data) |
Optical Electronics in Modern Communications [texte imprimé] / Amnon Yariv, Auteur . - 5th ed. . - New york : Oxford University Press Inc, 1997 . - 744 p. : couv. ill. en coul. ; 24 cm.. - ( The Oxford Series in Electrical and Computer Engineering) . ISBN : 978-0-19-510626-8 Langues : Anglais ( eng) | Index. décimale : | 05-06 Optique | | Résumé : | Now in its fifth edition, Optical Electronics in Modern Communications reflects the latest developments in the field Yariv helped define. The changes to this edition emulate the continuous ascendance of optical communication to the forefront of communication technology, evidenced also by the change in title from Optical Electronics in previous editions. The text introduces readers to the first principles of phenomena and devices used in the practice of laser physics, including applications based on lasers with emphasis placed on optical fiber communications, and features real-life examples as well as extensive problems. New to this edition are sections on pulse dispersion and narrowing in fibers, high speed modulation of semiconductor lasers, vertical cavity lasers, quantum optics, holographic data storage, fiber gratings, and dfb lasers. A solutions manual is also available for instructors. Known as the authoritative forerunner on optical electronics, this new edition can be used as both a core text in the classroom and as an invaluable reference for practicing engineers. | | Note de contenu : | Contents
1. Electromagnetic Theory
2. The Propagation of Rays and Beams
3. Propagation of Optical Beams in Fibers
4. Optical Resonators
5. Interaction of Radiation and Atomic Systems
6. Theory of Laser Oscillation and its Control in the Continuous and Pulsed Regimes
7. Some Specific Laser Systems
8. Second-Harmonic Generation and Parametric oscillation
9. Electronic Modulation of Laser Beams
10. Noise in Optical Detection and Generation
11. Detection of Optical Radiation
12. Interaction of Light and Sound
13. Propagation of Coupling Modes in Optical Dielectric Waveguides-Periodic Waveguides
14. Holography and Optical Data Storage
15. Semiconductor Lasers-Theory and Applications
16. Advanced Semiconductor Lasers: Quantum Well Lasers, Distributed Feedback Lasers, Vertical Cavity Surface Emitting
Lasers
17. Phase Conjugate Optics - Theory and Applications
18. Two-Beam Coupling and Phase Conjugation in Photorefractive Media
19. Optical Solitons
20. A Classical Treatment of Quantum Optics, Quantum noise, and squeezing
-Appendices A. The Kramers-Kroning relations
B. The Electrooptic Effect in Cubic 43m Crystals
C. Noise in Traveling Wave Lasers Amplifiers
D. Transformation of a coherent.
(source: Nielsen Book Data) |
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