(NOTE: Each chapter concludes with Questions and Problems.)
1. Wave Nature of Light.
Light Waves in a Homogeneous Medium. Refractive Index. Group
Velocity and Group Index. Magnetic Field, Irradiance and Poynting
Vector. Snell's Law and Total Internal Reflection (TIR). Fresnel's
Equations. Multiple Interference and Optical Resonators.
Goos-Hänchen and Optical Tunneling. Temporal and Spatial Coherence.
Diffraction Principles.
2. Dielectric Waveguides and Optical Fibers.
Symmetric Planar Dielectric Slab Waveguide. Modal and Waveguide
Dispersion in the Planar Waveguide. Step Index Fiber. Numerical
Aperture. Dispersion in Single Mode Fibers. Bit-Rate, Dispersion,
Electrical and Optical Bandwidth. The Graded Index Optical Fiber.
Light Absorption and Scattering. Attenuation in Optical Fibers.
Fiber Manufacture.
3. Semiconductor Science and Light Emitting Diodes.
Semiconductor Concepts and Energy Bands. Direct and Indirect
Bandgap Semiconductors: E-k Diagrams. pn Junction Principles. The
pn Junction Band Diagram. Light Emitting Diodes. LED Materials.
Heterojunction High Intensity LEDs. LED Characteristics. LEDs for
Optical Fiber Communications.
4. Stimulated Emission Devices Lasers.
Stimulated Emission and Photon Amplification. Stimulated Emission
Rate and Einstein Coefficients. Optical Fiber Amplifiers. Gas
Laser: The He-Ne Laser. The Output Spectrum of a Gas Laser. LASER
Oscillation Conditions. Principle of the Laser Diode.
Heterostructure Laser Diodes. Elementary Laser Diode
Characteristics. Steady State Semiconductor Rate Equation. Light
Emitters for Optical Fiber Communications. Single Frequency Solid
State Lasers. Quantum Well Devices. Vertical Cavity Surface
Emitting Lasers (VCSELs). Optical Laser Amplifiers. Holography.
5. Photodetectors.
Principle of the pn Junction Photodiode. Ramo's Theorem and
External Photocurrent. Absorption Coefficient and Photodiode
Materials. Quantum Efficiency and Responsivity. The pin Photodiode.
Avalanche Photodiode. Heterojunction Photodiodes. Phototransistors.
Photoconductive Detectors and Photoconductive Gain. Noise in
Photodetectors.
6. Photovoltaic Devices.
Solar Energy Spectrum. Photovoltaic Device Principles. pn Junction
Photovoltaic I-V Characteristics. Series Resistance and Equivalent
Circuit. Temperature Effects. Solar Cells Materials, Devices and
Efficiencies.
7. Polarization and Modulation of Light.
Polarization. Light Propagation in an Anisotropic Medium:
Birefringence. Birefringent Optical Devices. Optical Activity and
Circular Birefringence. Electro-Optic Effects. Integrated Optical
Modulators. Acousto-Optic Modulator. Magneto-Optic Effects.
Non-Linear Optics and Second Harmonic Generation.
Notation and Abbreviations.
Index.
CD-ROM: Optoelectronics and Photonics Contents.
SAFA KASAP is currently a Professor of Electronic Materials and Devices in the Electrical Engineering Department at the University of Saskatchewan, Canada. He obtained the B.S.E.E. (1976), M.S. (1978), and Ph.D. (1983) degrees from Imperial College of Science, Technology and Medicine, University of London, specializing in amorphous semiconductors and optoelectronics. In 1996 he was awarded the D.Sc. (Engineering) degree from London University for his research contributions to materials science in electrical engineering. He is a Fellow of the Institution of Electrical Engineers, the Institute of Physics and the Institute of Materials. His research interests are in amorphous semiconductors, noise in electronic devices, photoconductors, photodetectors, X-ray image detectors, laser-induced transient photocnductivity and related topics, with more than 100 refereed journal publications in these areas.
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