Guided-Wave Acousto-Optics Interactions, Devices, and Applications
Başlık:
Guided-Wave Acousto-Optics Interactions, Devices, and Applications
ISBN:
9783642752254
Edition:
1st ed. 1990.
Yayın Bilgileri:
Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 1990.
Fiziksel Tanımlama:
XIII, 322 p. online resource.
Series:
Springer Series in Electronics and Photonics ; 23
Contents:
1. Introduction -- References -- 2. Bulk-Wave Acousto-Optic Bragg Diffraction -- 2.1 A Simple Experiment -- 2.2 Historical Perspective -- 2.3 Heuristic Picture -- 2.4 Parametric Excitation and Bragg Diffraction -- 2.5 A Quantum-Mechanical Point-of-View -- 2.6 Wave Theory -- 2.7 A Sample Calculation -- 2.8 The Reflection Case -- 2.9 Birefringent Bragg Diffraction -- 2.10 Acousto-Optic Materials -- 2.11 Conclusion -- References -- 3. Optical Waveguides - Theory and Technology -- 3.1 Background -- 3.2 Wave Equations and Wave Vectors -- 3.3 The Zigzag-Wave Model -- 3.4 The Potential-Well Model -- 3.5 Mode Equations of a Slab Waveguide -- 3.6 Mode Equations of a Channel Waveguide -- 3.7 Effective-Index Method -- 3.8 Diffused Waveguides and the WKB Method -- 3.9 Waveguide Materials -- References -- 4. Excitation of Surface-Acoustic Waves by Use of Interdigital Electrode Transducers -- 4.1 Fundamentals of Transducer Operation -- 4.2 Design of Transducer and Coupling Networks for Broad-Band Operations -- 4.3 Summary -- References -- 5. Wideband Acousto-Optic Bragg Diffraction in LiNbO3 Waveguide and Applications -- 5.1 Guided-Wave Acousto-Optic Bragg Interactions in Planar Waveguides -- a) LiNbO3 Substrate -- b) GaAs Substrate -- c) SiO2, AS2S3 or SiO2-Si Substrates -- 5.2 Key Performance Parameters of Basic Planar Acousto-Optic Bragg Modulators and Deflectors -- 5.3 Guided-Wave Acousto-Optic Bragg Diffraction from Multiple Surface Acoustic Waves -- a) Tilted-SAWs Configuration -- b) Phased-SAWs Configuration -- 5.4 Realization of Wide-Band Planar Acousto-Optic Bragg Modulators and Deflectors -- a) Isotropic Diffraction with Multiple Tilted Transducers of Staggered Center Frequency -- b) Isotropic Diffraction with Phased-Array Transducers -- c) Isotropic Diffraction with Multiple Tilted -- Phased-Array Transducers -- d) Isotropic Diffraction with a Single Tilted-Finger, Chirp Transducer or an Array of Such Transducers -- e) Optimized Anisotropic Diffraction with Multiple Transducers of Staggered Center Frequency or a Parallel-Finger Chirp Transducer -- a) Isotropic Device with Multiple Tilted Transducers of Staggered Center Frequency -- b) Isotropic Device with Multiple, Tilted Transducers of Improved Geometry -- c) Isotropic Device with Phased-Array Transducers -- d) Isotropic Device with a Tilted-Finger, Chirp Transducer -- e) Optimized Anisotropic Device with a Single Transducer of Large Aperture -- 5.5 Applications in Optical Communications, Signal Processing, and Computing -- a) Digital Deflection and Switching -- b) Analog Deflection and Switching -- c) Electronically Tunable Optical Wavelength Filtering -- d) Wide-Band Optical Frequency Shifting -- a) Spectral Anlysis of Very Wide-Band RF Signals -- b) Convolution of Wide-Band RF Signals -- c) Compression of RF Chirp Pulse -- d) Correlation of Wide-Band RF Signals -- 5.6 Summary -- References -- 6. Guided-Wave Acousto-Optic Interaction in a ZnO Thin Film on a Nonpiezoelectric Substrate -- 6.1 Fabrication of ZnO Thin Film -- 6.2 The ZnO Thin-Film Waveguide -- 6.3 Excitation of SAW by ZnO Thin Films -- 6.4 Photoelastic Effect in ZnO -- 6.5 Acousto-Optic Interaction in ZnO Thin Film -- 6.6 Combined Structure of ZnO and Other Thin Films -- References -- 7. Spectrum Analysis with Integrated Optics -- 7.1 Acousto-Optic Spectrum Analysis -- 7.2 The Integrated Optical Spectrum Analyzer -- 7.3 Components -- a) Semiconductor Diode Laser Characteristics -- b) Butt-Coupling -- a) Silicon -- b) Lithium Niobate -- a) Generalized Waveguide Luneburg Lens -- b) Diffraction Lenses -- c) Geodesic Lenses -- a) Frequency Dependence of the Diffraction Efficiency -- b) Wideband Transducer Configurations -- c) SAW Attenuation -- a) Detector Array Architecture -- b) Post-Detection Processing -- c) Detector Sensitivity -- d) Dynamic Range -- e) Speed -- f) Photodetector Pitch -- g) Photodetector Coupling -- 7.4 IOSA Demonstrations -- 7.5 Related Applications -- 7.6 Summary -- References -- 8. Integrated Acousto-Optic Device Modules and Applications -- 8.1 RF Spectrum Analyzer Modules in Nonpiezoelectric Substrates -- 8.2 Acousto-Optic Time-Integrating Correlator Module Using Anisotropic Bragg Diffraction -- 8.3 Crossed-Channel Waveguide Acousto-Optic Modulator/ Deflector and Frequency-Shifter Modules -- 8.4 Channel-Planar Composite Waveguide Acousto-Optic Bragg Modulator Modules -- 8.5 Multichannel RF Correlator Modules Using Acousto-Optic and Electro-Optic Bragg Diffractions -- 8.6 Planar-Waveguide Acousto-Optic Frequency-Shifter Module -- 8.7 GaAs Acousto-Optic Bragg Cell and RF Spectrum Analyzer Modules -- 8.8 Spherical Waveguide Acousto-Optic Bragg Modulator/ Deflector and Frequency-Shifter Modules -- 8.9 Conclusion -- References.
Abstract:
The field of integrated- or guided-wave optics has experienced significant and continuous growth since its inception in the late 1960s. There has been a considerable increase in research and development activity in this field worldwide and some significant advances in the realization of working in tegrated optic devices and modules have been made in recent years. In fact, there have already been some commercial manufacturing and technical ap plications of such devices and modules. The guided-wave-acoustooptics involving Bragg interactions between guided optical waves and surface acoustic waves is one of the areas of in tegrated-optics that has reached some degree of scientific and technological maturity. This topical volume is devoted to an in-depth treatment of this emerging branch of science and technology. Presented in this volume are concise treatments on bulk-wave acoustooptics, guided-wave optics, and surface acoustic waves, and detailed studies of guided-wave acoustooptic Bragg diffraction in three promising material substrates, namely, LiNb0 , 3 ZnO/Si0 , and GaAs, the resulting wide band modulators and deflectors, 2 and applications. The chapters cover not only the basic principles and the oretical analysis, but also the design, fabrication, and measurement of the resulting devices and modules, and their applications.
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Ek Kurum Yazarı:
Dil:
English