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Quantum mechanics for electrical engineers / by Dennis M. Sullivan.

By: Contributor(s): Material type: TextTextPublication details: Oxford : Wiley-Blackwell, ©2012.Description: 1 online resource (1 volume)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781118169780
  • 1118169786
Subject(s): Genre/Form: Additional physical formats: Print version:: Quantum mechanics for electrical engineers.DDC classification:
  • 530.120246213 22
LOC classification:
  • QC174.12 .S85 2012
Online resources:
Contents:
Introduction -- Stationary States -- Fourier Theory in Quantum Mechanics -- Matrix Algebra in Quantum Mechanics -- A Brief Introduction to Statistical Mechanics -- Bands and Subbands -- The Sch{under}rdinger Equation for Spin-1/2 Fermions -- The Green's Function Formulation -- Transmission -- Approximation Methods -- The Harmonic Oscillator -- Finding Eigenfunctions Using Time-Domain Simulation -- Appendix A: Important Constants and Units -- Appendix B: Fourier Analysis and the Fast Fourier Transform (FFT) -- Appendix C: An Introduction to the Green's Function Method -- Appendix D: Listings of the Programs Used in this Book -- Index.
Summary: "The main topic of this book is quantum mechanics, as the title indicates. It specifically targets those topics within quantum mechanics that are needed to understand modern semiconductor theory. It begins with the motivation for quantum mechanics and why classical physics fails when dealing with very small particles and small dimensions. Two key features make this book different from others on quantum mechanics, even those usually intended for engineers: First, after a brief introduction, much of the development is through Fourier theory, a topic that is at the heart of most electrical engineering theory. In this manner, the explanation of the quantum mechanics is rooted in the mathematics familiar to every electrical engineer. Secondly, beginning with the first chapter, simple computer programs in MATLAB are used to illustrate the principles. The programs can easily be copied and used by the reader to do the exercises at the end of the chapters or to just become more familiar with the material. Many of the figures in this book have a title across the top. This title is the name of the MATLAB program that was used to generate that figure. These programs are available to the reader. Appendix D lists all the programs, and they are also downloadable at http://booksupport.wiley.com"-- Provided by publisher.
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"The main topic of this book is quantum mechanics, as the title indicates. It specifically targets those topics within quantum mechanics that are needed to understand modern semiconductor theory. It begins with the motivation for quantum mechanics and why classical physics fails when dealing with very small particles and small dimensions. Two key features make this book different from others on quantum mechanics, even those usually intended for engineers: First, after a brief introduction, much of the development is through Fourier theory, a topic that is at the heart of most electrical engineering theory. In this manner, the explanation of the quantum mechanics is rooted in the mathematics familiar to every electrical engineer. Secondly, beginning with the first chapter, simple computer programs in MATLAB are used to illustrate the principles. The programs can easily be copied and used by the reader to do the exercises at the end of the chapters or to just become more familiar with the material. Many of the figures in this book have a title across the top. This title is the name of the MATLAB program that was used to generate that figure. These programs are available to the reader. Appendix D lists all the programs, and they are also downloadable at http://booksupport.wiley.com"-- Provided by publisher.

Introduction -- Stationary States -- Fourier Theory in Quantum Mechanics -- Matrix Algebra in Quantum Mechanics -- A Brief Introduction to Statistical Mechanics -- Bands and Subbands -- The Sch{under}rdinger Equation for Spin-1/2 Fermions -- The Green's Function Formulation -- Transmission -- Approximation Methods -- The Harmonic Oscillator -- Finding Eigenfunctions Using Time-Domain Simulation -- Appendix A: Important Constants and Units -- Appendix B: Fourier Analysis and the Fast Fourier Transform (FFT) -- Appendix C: An Introduction to the Green's Function Method -- Appendix D: Listings of the Programs Used in this Book -- Index.

Includes index.

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