Problem Solving in Quantum Mechanics: From Basics to Real-World Applications for Materials Scientists, Applied Physicists, and Devices Engineers

Problem Solving in Quantum Mechanics: From Basics to Real-World Applications for Materials Scientists, Applied Physicists, and Devices Engineers

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Overview

This topical and timely textbook is a collection of problems for students, researchers, and practitioners interested in state-of-the-art material and device applications in quantum mechanics. Most  problem are relevant either to a new device or a device concept or to current research topics which could spawn new technology. It deals with the practical aspects of the field, presenting a broad range of essential topics currently at the leading edge of technological innovation.

Includes discussion on:

Properties of Schroedinger Equation

Operators

Bound States in Nanostructures

Current and Energy Flux Densities in Nanostructures

Density of States

Transfer and Scattering Matrix Formalisms for Modelling Diffusive Quantum Transport

Perturbation Theory, Variational Approach and their Applications to Device Problems

Electrons in a Magnetic or Electromagnetic Field and Associated Phenomena

Time-dependent Perturbation Theory and its Applications

Optical Properties of Nanostructures

Problems in Quantum Mechanics: For Material Scientists, Applied Physicists and Device Engineers is an ideal companion to engineering, condensed matter physics or materials science curricula. It appeals to future and present engineers, physicists, and materials scientists, as well as professionals in these fields needing more in-depth understanding of nanotechnology and nanoscience.

Product Details

ISBN-13: 9781118988732
Publisher: Wiley
Publication date: 04/06/2017
Sold by: Barnes & Noble
Format: NOOK Book
Pages: 368
File size: 34 MB
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About the Author

MARC CAHAY, Spintronics and Vacuum Nanoelectronics Laboratory, University of Cincinnati, USA

SUPRIYO BANDYOPADHYAY, School of Engineering, Virginia Commonwealth University, USA

Table of Contents

About the Authors ix

Preface xi

1 General Properties of the Schrodinger Equation 1

2 Operators 15

3 Bound States 47

4 Heisenberg Principle 80

5 Current and Energy Flux Densities 101

6 Density of States 128

7 Transfer Matrix 166

8 Scattering Matrix 205

9 Perturbation Theory 228

10 Variational Approach 245

11 Electron in a Magnetic Field 261

12 Electron in an Electromagnetic Field and Optical Properties of Nanostructures 281

13 Time-Dependent Schrodinger Equation 292

A Postulates of Quantum Mechanics 314

B Useful Relations for the One-Dimensional Harmonic Oscillator 317

C Properties of Operators 319

D The Pauli Matrices and their Properties 322

E Threshold Voltage in a High Electron Mobility Transistor Device 325

F Peierls’s Transformation 329

G Matlab Code 332

Index 343

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