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This textbook provides a thorough and accessible treatment of semiconductor lasers from a design and engineering perspective. It includes both the physics of devices as well as the engineering, designing and testing of practical lasers. The material is presented clearly with many examples provided. Readers of the book will come to understand the finer aspects of the theory, design, fabrication and test of these devices and have an excellent background for further study of optoelectronics.
This book also:
Provides a multi-faceted approach to explaining the theories behind semiconductor lasers, utilizing mathematical examples, illustrations and written theoretical presentations
Offers a balance of relevant optoelectronic topics, with specific attention given to distributed feedback lasers, growth techniques and waveguide cavity design
Provides a summary of every chapter, worked examples, and problems for readers to solve
Incorporates and explains recent breakthroughs in laser design
List of contents
Introduction: The Basics of Optical Communication.- The Basics of Lasers.- Semiconductors as Laser Material 1: Fundamentals and Fabrication.- Semiconductors as Laser Materials 2: Density of States, Quantum Wells and Gain.- Semiconductor Laser Cavity Operation.- The Optical Cavity.- Laser Modulation.- Distributed Feedback Lasers.- Assorted Miscellany: Dispersion, Fabrication, and Reliability.
About the author
David J. Klotzkin is a Professor in the Electrical and Computer Engineering Department at Binghamton University.
Summary
This textbook provides a thorough and accessible treatment of semiconductor lasers from a design and engineering perspective. It includes both the physics of devices as well as the engineering, designing and testing of practical lasers. The material is presented clearly with many examples provided. Readers of the book will come to understand the finer aspects of the theory, design, fabrication and test of these devices and have an excellent background for further study of optoelectronics.
This book also:
Provides a multi-faceted approach to explaining the theories behind semiconductor lasers, utilizing mathematical examples, illustrations and written theoretical presentations
Offers a balance of relevant optoelectronic topics, with specific attention given to distributed feedback lasers, growth techniques and waveguide cavity design
Provides a summary of every chapter, worked examples, and problems for readers to solve
Incorporates and explains recent breakthroughs in laser design
