Description
Book SynopsisDeveloped from the authors' classroom-tested material, Semiconductor Laser Theory takes a semiclassical approach to teaching the principles, structure, and applications of semiconductor lasers. Designed for graduate students in physics, electrical engineering, and materials science, the text covers many recent developments, including diode lasers using quantum wells, quantum dots, quantum cascade lasers, nitride lasers, group IV lasers, and transistor lasers.
The first half of the book presents basic concepts, such as the semiconductor physics needed to understand the operation of lasers, p-n junction theory, alloys, heterostructures, quantum nanostructures, k.p theory, waveguides, resonators, filters, and optical processes. The remainder of the book describes various lasers, including double heterostructure, quantum wire, quantum dot, quantum cascade, vertical-cavity surface-emitting, single-mode and tunable, nitride, group IV, and transistor la
Trade Review
"This textbook offers a thorough treatment of basic principles and also manages to capture current trends in semiconductor laser research. … topics are supplemented with problem sets for testing the reader’s understanding, and some references to the literature. The authors’ clear presentation of the material in this volume makes it eminently digestible."
—Optics & Photonics News, December 2015
Table of ContentsIntroduction to Semiconductor Lasers. Basic Theory. Heterojunctions and Quantum Structures. Band Structures. Waveguides and Resonators. Optical Processes. Models for DH Lasers. Quantum Well Lasers. Quantum Dots. Quantum Cascade Lasers. Vertical-Cavity Surface-Emitting Laser. Single-Mode and Tunable Lasers. Nitride Lasers. Group IV Lasers. Transistor Lasers. Appendices.
