Fundamentals of Guided Wave Optoelectronic Devices 1st Edition by William Chang ISBN 0521868238 978-0521868235
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ISBN 10: 0521868238
ISBN 13: 978-0521868235
Author: William Chang
Fundamentals of Guided Wave Optoelectronic Devices 1st Table of contents:
1 The formation and analysis of optical waveguides
1.1 Introduction to optical waveguides
1.1.1 Differences between optical and microwave waveguides
1.1.2 Diffraction of plane waves in waveguides
1.1.3 General characteristics of guided waves
1.2 Electromagnetic analysis of modes in optical waveguides
1.2.1 The asymmetric planar waveguide
1.2.2 TE and TM modes in planar waveguides
1.2.3 TE modes of planar waveguides
1.2.4 TM modes of planar waveguides
1.2.5 Generalized guided-wave modes in planar waveguides
1.2.6 Rectangular channel waveguides and the effective index analysis
1.2.7 The representation of fields and the excitation of guided-wave modes
1.2.8 Scalar approximation of the wave equations for TE and TM modes
1.3 Formation of optical waveguides
1.3.1 Formation of optical waveguides on LiNbO3 substrates
1.3.2 Formation of optical waveguides on GaAs and InP substrates
1.3.3 Formation of polymer optical waveguides
1.3.4 Formation of optical waveguides on Si substrates
2 Guided-wave interactions
2.1 Perturbation analysis
2.1.1 Review of properties of modes in a waveguide
2.1.2 The effect of perturbation
2.1.3 A simple application of perturbation analysis – perturbation by a nearby dielectric
2.2 Coupled mode analysis
2.2.1 Modes of two uncoupled parallel waveguides
2.2.2 Analysis of two coupled waveguides, using modes of individual waveguides
2.2.3 An example of coupled mode analysis – the grating reflection filter
2.2.4 An example of coupling of waveguides – the directional coupler
2.3 Super mode analysis
2.3.1 Super modes of two parallel waveguides
2.3.2 Directional coupling, viewed as propagation of super modes
2.3.3 Super modes of two coupled waveguides in general
2.3.4 Adiabatic branching and the super mode analysis of the Mach–Zehnder interferometer
2.4 Propagation in multimode waveguides and multimode interference couplers
3 Electro-optical effects
3.1 The linear electro-optic Pockel’s effect
3.1.1 The electro-optic effect in plane waves
3.1.2 Linear electro-optic effects in optical waveguides
3.2 Electro-absorption effects in semiconductors
3.2.1 The Frantz–Keldysh electro-absorption effect in bulk semiconductors
3.2.2 Electro-absorption in quantum wells (QW)
3.2.3 Comparison of Frantz–Keldysh and QW electro-absorption
3.3 The electro-refraction effect
3.4 The acousto-optical effect
3.5 A perturbation analysis of electro-optical effects
3.5.1 Perturbation of the effective index neff by Δχ′
3.5.2 Attenuation of guided-wave mode by Δχ″
3.5.3 The diffraction of a planar guided wave by acoustic surface waves
4 Time dependence, bandwidth, and electrical circuits
4.1 Low frequency properties of electro-optical devices
4.1.1 Low frequency representation of devices
4.1.2 Frequency variation of voltage and power delivered to devices
4.2 High frequency properties of electro-optical devices
4.2.1 Representation of the electrodes as a transmission line
4.2.2 Propagation of electrical voltages and currents
4.2.3 The Smith chart
4.2.4 Characterizing the electrodes as electrical transmission lines and circuit analysis
4.2.5 Impedance matching and bandwidth
4.2.6 Transient response
4.2.7 Pulse propagation and frequency response
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
5.1.1 End excitation
5.1.2 Excitation by prism coupler
5.1.3 The grating coupler
5.1.4 The tapered waveguide coupler
5.1.5 Detection and monitoring of guided waves
5.2 Diffraction, focusing, and collimation in planar waveguides
5.2.1 The diffraction grating
5.2.2 Refraction, collimation, and focusing of planar waveguide modes
5.3 Diffraction devices
5.3.1 Grating reflectors and filters
5.3.2 Grating deflector/switch
5.3.3 The grating mode converter/coupler
5.4 The Star coupler
5.5 The acousto-optical scanner, spectrum analyzer, and frequency shifter
5.5.1 The optical scanner
5.5.2 The acousto-optical RF spectrum analyzer
5.5.3 The acousto-optical frequency shifter
6 Channel waveguide components
6.1 Passive waveguide components
6.1.1 The power divider
6.1.2 Wavelength filters/multiplexers
6.1.3 Waveguide reflectors
6.1.4 Resonators
6.1.5 The optical time delay line
6.2 Active waveguide components
6.2.1 Lumped element modulators and switches
6.2.2 Traveling wave modulators and switches
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Tags: William Chang, Wave Optoelectronic, Fundamentals of Guided