Essential Classical Mechanics for Device Physics

 

Book Description
Continued advances in the precision manufacturing of new structures at the nanometer scale have provided unique opportunities for device physics. This book sets out to summarize those essential elements of classical mechanics most applicable for scientists and engineers studying device physics. Supplementary MATLAB materials are available for all figures generated numerically.
 

Author

Tony Levi joined the USC faculty in mid-1993 after working for 10 years at AT&T Bell Laboratories, Murray Hill, New Jersey. He invented hot electron spectroscopy, discovered ballistic electron transport in heterostructure bipolar transistors, demonstrated room temperature operation of unipolar transistors with ballistic electron transport, created the first microdisk laser, and carried out work in parallel fiber optic interconnect components in computer and switching systems. His current research interests include high-performance electronic and photonic systems, RF photonics, very small lasers and modeling their behavior, and optimal design of small electronic and photonic systems. To date he has published numerous scientific papers, several book chapters, is author of the books 'Applied Quantum Mechanics' and 'Essential Classical Mechanics for Device Physics', coeditor of the book 'Optimal Device Design', and holds 17 U.S. patents
 

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Resources:
Corrections and additional Problem 6.2
MATLAB code