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Physics of Photonic Devices, by Shun Lien Chuang
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The most up-to-date book available on the physics of photonic devices
This new edition of Physics of Photonic Devices incorporates significant advancements in the field of photonics that have occurred since publication of the first edition (Physics of Optoelectronic Devices). New topics covered include a brief history of the invention of semiconductor lasers, the Lorentz dipole method and metal plasmas, matrix optics, surface plasma waveguides, optical ring resonators, integrated electroabsorption modulator-lasers, and solar cells. It also introduces exciting new fields of research such as: surface plasmonics and micro-ring resonators; the theory of optical gain and absorption in quantum dots and quantum wires and their applications in semiconductor lasers; and novel microcavity and photonic crystal lasers, quantum-cascade lasers, and GaN blue-green lasers within the context of advanced semiconductor lasers.
Physics of Photonic Devices, Second Edition presents novel information that is not yet available in book form elsewhere. Many problem sets have been updated, the answers to which are available in an all-new Solutions Manual for instructors. Comprehensive, timely, and practical, Physics of Photonic Devices is an invaluable textbook for advanced undergraduate and graduate courses in photonics and an indispensable tool for researchers working in this rapidly growing field.
- Sales Rank: #664889 in Books
- Published on: 2009-01-20
- Original language: English
- Number of items: 1
- Dimensions: 9.58" h x 1.82" w x 6.35" l, 2.65 pounds
- Binding: Hardcover
- 840 pages
From the Publisher
Emphasizes the theory of semiconductor optoelectronic devices, demonstrating comparisons between theoretical and experimental results. Presents such important topics as semiconductor heterojunctions and band structure calculations near the band edges for bulk and quantum-well semiconductors. Details semiconductor lasers including double-heterostructure, stripe-geometry gain-guided semiconductor, distributed feedback and surface-emitting. Systematically investigates high-speed modulation of semiconductor lasers using linear and nonlinear gains. Features new subjects such as the theories on the band structures of strained semiconductors and strained quantum-well lasers. Covers key areas behind the operation of semiconductor lasers, modulators and photodetectors.
From the Back Cover
The most up-to-date book available on the physics of photonic devices
This new edition of Physics of Photonic Devices incorporates significant advancements in the field of photonics that have occurred since publication of the first edition (Physics of Optoelectronic Devices). New topics covered include a brief history of the invention of semiconductor lasers, the Lorentz dipole method and metal plasmas, matrix optics, surface plasma waveguides, optical ring resonators, integrated electroabsorption modulator-lasers, and solar cells. It also introduces exciting new fields of research such as: surface plasmonics and micro-ring resonators; the theory of optical gain and absorption in quantum dots and quantum wires and their applications in semiconductor lasers; and novel microcavity and photonic crystal lasers, quantum-cascade lasers, and GaN blue-green lasers within the context of advanced semiconductor lasers.
Physics of Photonic Devices, Second Edition presents novel information that is not yet available in book form elsewhere. Many problem sets have been updated, the answers to which are available in an all-new Solutions Manual for instructors. Comprehensive, timely, and practical, Physics of Photonic Devices is an invaluable textbook for advanced undergraduate and graduate courses in photonics and an indispensable tool for researchers working in this rapidly growing field.
About the Author
Shun Lien Chuang, PhD, is the MacClinchie Distinguished Professor in the Department of Electrical and Computer Engineering at the University of Illinois, Urbana-Champaign. His research centers on semiconductor optoelectronic and nanophotonic devices. He is a Fellow of the American Physical Society, IEEE, and the Optical Society of America. He received the Engineering Excellence Award from the OSA, the Distinguished Lecturer Award and the William Streifer Scientific Achievement Award from the IEEE Lasers and Electro-Optics Society, and the Humboldt Research Award for Senior U.S. Scientists from the Alexander von Humboldt Foundation.
Most helpful customer reviews
5 of 6 people found the following review helpful.
Very detailed, Nice section on calculating strain effects...
By Steven J. Wojtczuk
I have mainly used this book to help me understand how to incorporate the effects of tensile and compressive strain in quantum well calculations. It does this very clearly. It covers many other topics, but the main points are: 1) This is a graduate-level text probably unsuitable as a first exposure to this area for undergraduates; and 2) the author is not afraid of diving into the technical nitty-gritty of the areas he covers. He does a great job of explaining concepts in a relatively short amount of text (i.e. it is terse, yet understandable for the most part) and he provides good detail, including much data on III-V material properties. As another example, it gives a complete but condensed discussion of the Marcatili and effective index approximations for calculating single mode cutoffs in rectangular dielectric waveguides for lasers or PICs. This is a great reference book for those who actually want to calculate or design something without using a canned program.
9 of 12 people found the following review helpful.
Excellent book for basic physics of optoelectronics
By W.C. Ng
The book starts with the very basic equations of electromagnetic and semiconductor theory and builds up to more advanced topics such as band structure calculations for semiconductors including strained quantum wells, various optical transitions processes, optical absorption spectra, etc. In addition, the book covers the basic theory of laser cavity resonance and this includes the distributed feedback laser theory. Various waveguide, electro-optical modulators and photodetector principles are also treated in clear detail. The book brings you up to the level of which the research papers in the optoelectronic area has been written.
4 of 5 people found the following review helpful.
good book, but...
By book reviewer
First of all, I want to express regret that there is no excellent book covering the area of theory, fabrication, characterization of semiconductor lasers/devices. Some are too easy and some are too difficult. The symbols and convention are not unified at all, even simple "rate equations" have a lot of versions.
Overall, this book is good for graduate students. A good companion for advanced study. However, I don't like too many equations with only few explanations. By the way, on the small signal analysis of laser modulation, I recommend Coldren's "Diode lasers and photonic integrated circuits". Rate equations there make more sense to me. If you find it hard to understand, maybe try Parker's "Physics of Optoelectronics", an 5-star book. The strength of this book is its completeness, especially on optics, quantum mechanics and electromagnetics.
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