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Title
Fundamentals of semiconductor lasers / Takahiro Numai.
ISBN
0387217975 (electronic bk.)
9780387217970 (electronic bk.)
1280189339
9781280189333
0387408363
9780387408361
Publication Details
New York : Springer, ©2004.
Language
English
Description
1 online resource (xii, 259 pages)
Item Number
10.1007/b97531 doi
Call Number
TA1700 .N86 2004
Dewey Decimal Classification
621.36/6
Summary
Fundamentals of Semiconductor Lasers explains the physics and fundamental characteristics of semiconductor lasers with regards to systems applications. The detailed and comprehensive presentation is unique in that it encourages the reader to consider different semiconductor lasers from different angles. Emphasis is placed on recognizing common concepts such operating principles and structure, and solving problems based on individual situations. The treatment is enhanced by an historical account of advances in semiconductor lasers over the years, discussing both those ideas that have both persisted over the years and those that have faded out. The first four chapters cover the basics of semiconductors, including band structures, optical transitions, optical waveguides, and optical resonators. The remaining chapters discuss operating principles and basic characteristics of semiconductor lasers, and advanced topics including dynamics single-mode lasers, quantum well lasers, and control of spontaneous emission. The reader need only be familiar with undergraduate-level electromagnetism and quantum mechanics. After reading this book, the student will be able to think critically about semiconductor lasers, and be able to read and understand journal papers in the field. This book will be essential to any advanced undergraduate or graduate student of semiconductor lasers, and any professional physicist or engineer looking for a good overview of the subject.
Bibliography, etc. Note
Includes bibliographical references (pages 249-252) and index.
Access Note
Access limited to authorized users.
Digital File Characteristics
text file
PDF
Series
Springer series in optical sciences ; v. 93.
1. Band Structures
2. Optical Transitions
3. Optical Waveguides
4. Optical Resonators
5. Fundamentals of Semiconductor Lasers
6. Dynamic Single-Mode LDs
7. Quantum Well LDs
8. Control of Spontaneous Emission
A. Cyclotron Resonance
B. Time-Independent Perturbation Theory
C. Time-Dependent Perturbation Theory
D. TE Mode and TM Mode
E. Characteristic Matrix in Discrete Approach
F. Free Carrier Absorption and Plasma Effect
G. Relative Intensity Noise (RIN).