05290nam 2200649Ia 450 991083089320332120230721005752.01-282-68885-597866126888500-470-61114-60-470-39373-4(CKB)2550000000005867(EBL)477655(OCoLC)647848384(SSID)ssj0000341447(PQKBManifestationID)11284325(PQKBTitleCode)TC0000341447(PQKBWorkID)10389114(PQKB)10078907(MiAaPQ)EBC477655(EXLCZ)99255000000000586720090211d2009 uy 0engur|n|---|||||txtccrPhotonic waveguides[electronic resource] theory and applications /Azzedine BoudriouaLondon ISTE ;Hoboken, NJ Wiley20091 online resource (342 p.)ISTE ;v.30Description based upon print version of record.1-84821-027-2 Includes bibliographical references and index.Photonic Waveguides; Table of Contents; Foreword; Acknowledgments; Introduction; Chapter 1. Optical Waveguide Theory; 1.1. Principles of optics; 1.1.1. Total reflection phenomenon; 1.1.2. Parallel-face plate; 1.2. Guided wave study; 1.2.1. General description; 1.2.2. Step index planar waveguide; 1.2.3. Graded index planar waveguide; 1.3. Channel waveguides; 1.3.1. Effective index method; 1.4. Light propagation in anisotropic media; 1.5. Bibliography; Chapter 2. Optical Waveguide Fabrication Techniques; 2.1. Optical waveguide fabrication techniques; 2.1.1. Thin film deposition techniques2.1.2. Substitution techniques2.2. Integrated optic materials; 2.2.1. Glass; 2.2.2. Organic materials; 2.2.3. Dielectric materials; 2.2.4. Semiconductor materials; 2.2.5. SiO2/Si materials; 2.2.6. New non-linear crystals; 2.3. Bibliography; Chapter 3. Optical Waveguide Characterization Techniques; 3.1. Coupling techniques; 3.1.1. Transversal coupling; 3.1.2. Longitudinal coupling; 3.2. "m-lines" spectroscopy; 3.2.1. The experimental setup; 3.2.2. Experimental arrangement; 3.2.3. Measurement accuracy; 3.2.4. Theoretical study of the effective index Nm; 3.2.5. Waveguide parameter determination3.3. Optical losses3.3.1. Optical losses origin; 3.3.2. Optical loss measurements; 3.3.3. Characterization in near-field microscopy of optical waveguides; 3.4. Bibliography; Chapter 4. Non-linear Effects in Integrated Optics; 4.1. General considerations; 4.2. Second harmonic generation; 4.2.1. Second harmonic generation in the volume; 4.2.2. Quasi-phase matching (QPM); 4.2.3. Fabrication of periodically poled structures; 4.3. Second harmonic generation within waveguides; 4.3.1. Overlap integral calculation; 4.4. Non-linear optical characterization of waveguides; 4.4.1. SHG setup4.4.2. Second harmonic generation by reflection4.4.3. Second harmonic generation in waveguides; 4.5. Parametric non-linear optical effects; 4.5.1. Parametric amplification; 4.5.2. Optical parametric oscillation (OPO); 4.6. Laser sources based on non-linear optics; 4.7. Bibliography; Chapter 5. The Electro-optic Effect in Waveguides; 5.1. Introduction; 5.2. The electro-optic effect; 5.2.1. The case of LiNbO3; 5.3. The electro-optic effect in waveguides; 5.3.1. Analysis of the electric field distribution; 5.4. Electro-optic measurement techniques; 5.4.1. The Mach-Zehnder interferometer5.4.2. The polarization change technique5.4.3. Angular displacement of guided modes (AnDiGM) technique; 5.5. Optical devices using the electro-optic effect; 5.5.1. Phase modulators; 5.5.2. Intensity modulators; 5.6. Integrated optic setups using the electro-optic effect; 5.6.1 Optimal design of the electrodes for integrated EO modulators; 5.6.2. Integrated EO phase modulator; 5.6.3. Integrated EO intensity modulator (Mach-Zehnder); 5.7. Modulation in optical networks: state-of-the-art; 5.8. Bibliography; Chapter 6. Photonic Crystal Waveguides; 6.1. Dispersion relation6.1.1. Dispersion relation of an isotropic mediumThis book presents the principles of non-linear integrated optics. The first objective is to provide the reader with a thorough understanding of integrated optics so that they may be able to develop the theoretical and experimental tools to study and control the linear and non-linear optical properties of waveguides.The potential use of these structures can then be determined in order to realize integrated optical components for light modulation and generation. The theoretical models are accompanied by experimental tools and their setting in order to characterize the studied phenomenon. ThISTEIntegrated opticsPhotonicsIntegrated optics.Photonics.621.36/93621.3693ZN 6285rvkBoudrioua Azzedine875564MiAaPQMiAaPQMiAaPQBOOK9910830893203321Photonic waveguides3997478UNINA