| Titre : | Fundamentals of guided-Wave optoelectronic devices | | Type de document : | texte imprimé | | Auteurs : | William S. C. Chang, Auteur | | Editeur : | Cambridge, New Yok, Melbourne : Cambridge University Press | | Année de publication : | 2010 | | Importance : | 199 p. | | Présentation : | couv. ill. en en coul | | Format : | 26 cm. | | ISBN/ISSN/EAN : | 978-0-521-86823-5 | | Langues : | Anglais (eng) | | Catégories : | TELECOMMUNICATION
| | Index. décimale : | 28-05 Théorie de communications et systèmes | | Résumé : | Optoelectronic guided-wave devices are used in a wide range of optical fiber communication and optoelectronic systems. In such networks, the electrical and the optical characteristics of guided-wave devices, and the interplay between them, have a profound effect on system design and overall performance. Uniquely, this book combines both the optical and electrical behavior of guided-wave optoelectronic devices so that the interwoven properties, including interconnections to external components, are easily understood. It provides the key concepts and analytical techniques that readers can apply to current and future devices. It also presents the impact of material properties on guided-wave devices, and emphasizes the importance of time-dependent interactions between electrical and optical signals. This is an ideal reference for graduate students and researchers in electrical engineering and applied physics departments, as well as practitioners in the optoelectronics industry. | | Note de contenu : | Contents
1. The formation and analysis of optical waveguides
1.1 Introduction to optical waveguides
1.2 Electromagnetic analysis of modes in optical waveguides
1.3 Formation of optical waveguides
2. Guided wave interactions
2.1 Perturbation analysis
2.2 Coupled mode analysis
2.3 Super mode analysis
2.4 Propagation in multimode waveguides and multimode interference couplers
3. Electro-optical effects
3.1 The linear electro-optic Pockel’s effect
3.2 Electro-absorption effects in semiconductors
3.3 The electro-refraction effect
3.4 The acousto-optical effect
3.5 A perturbation analysis of electro-optical effects
4. Time dependence, bandwidth and electrical circuits
4.1 Low frequency properties of electro-optical devices
4.2 High frequency properties of electro-optical devices
4.3 Microwave electric field distribution and the electro-optical effects
4.4 Traveling wave interactions
5. Planar waveguide devices
5.1 Excitation and detection of planar guided waves
5.2 Diffraction, focusing, and collimation in planar waveguides
5.3 Diffraction devices
5.4 The Star coupler
5.5 The acousto-optical scanner, spectrum analyzer, and frequency shifter
6. Channel waveguide components.
6.1 Passive waveguide components
6.2 Active waveguide components
Index |
Fundamentals of guided-Wave optoelectronic devices [texte imprimé] / William S. C. Chang, Auteur . - Cambridge, New Yok, Melbourne : Cambridge University Press, 2010 . - 199 p. : couv. ill. en en coul ; 26 cm. ISBN : 978-0-521-86823-5 Langues : Anglais ( eng) | Catégories : | TELECOMMUNICATION
| | Index. décimale : | 28-05 Théorie de communications et systèmes | | Résumé : | Optoelectronic guided-wave devices are used in a wide range of optical fiber communication and optoelectronic systems. In such networks, the electrical and the optical characteristics of guided-wave devices, and the interplay between them, have a profound effect on system design and overall performance. Uniquely, this book combines both the optical and electrical behavior of guided-wave optoelectronic devices so that the interwoven properties, including interconnections to external components, are easily understood. It provides the key concepts and analytical techniques that readers can apply to current and future devices. It also presents the impact of material properties on guided-wave devices, and emphasizes the importance of time-dependent interactions between electrical and optical signals. This is an ideal reference for graduate students and researchers in electrical engineering and applied physics departments, as well as practitioners in the optoelectronics industry. | | Note de contenu : | Contents
1. The formation and analysis of optical waveguides
1.1 Introduction to optical waveguides
1.2 Electromagnetic analysis of modes in optical waveguides
1.3 Formation of optical waveguides
2. Guided wave interactions
2.1 Perturbation analysis
2.2 Coupled mode analysis
2.3 Super mode analysis
2.4 Propagation in multimode waveguides and multimode interference couplers
3. Electro-optical effects
3.1 The linear electro-optic Pockel’s effect
3.2 Electro-absorption effects in semiconductors
3.3 The electro-refraction effect
3.4 The acousto-optical effect
3.5 A perturbation analysis of electro-optical effects
4. Time dependence, bandwidth and electrical circuits
4.1 Low frequency properties of electro-optical devices
4.2 High frequency properties of electro-optical devices
4.3 Microwave electric field distribution and the electro-optical effects
4.4 Traveling wave interactions
5. Planar waveguide devices
5.1 Excitation and detection of planar guided waves
5.2 Diffraction, focusing, and collimation in planar waveguides
5.3 Diffraction devices
5.4 The Star coupler
5.5 The acousto-optical scanner, spectrum analyzer, and frequency shifter
6. Channel waveguide components.
6.1 Passive waveguide components
6.2 Active waveguide components
Index |
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