Book contents
- Frontmatter
- Contents
- Preface to the first edition
- Preface to the second edition
- MATLAB® programs
- 1 Introduction
- 2 Toward quantum mechanics
- 3 Using the Schrödinger wave equation
- 4 Electron propagation
- 5 Eigenstates and operators
- 6 The harmonic oscillator
- 7 Fermions and bosons
- 8 Time-dependent perturbation
- 9 The semiconductor laser
- 10 Time-independent perturbation
- 11 Angular momentum and the hydrogenic atom
- Appendix A Physical values
- Appendix B Coordinates, trigonometry, and mensuration
- Appendix C Expansions, differentiation, integrals, and mathematical relations
- Appendix D Matrices and determinants
- Appendix E Vector calculus and Maxwell's equations
- Appendix F The Greek alphabet
- Index
Preface to the second edition
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface to the first edition
- Preface to the second edition
- MATLAB® programs
- 1 Introduction
- 2 Toward quantum mechanics
- 3 Using the Schrödinger wave equation
- 4 Electron propagation
- 5 Eigenstates and operators
- 6 The harmonic oscillator
- 7 Fermions and bosons
- 8 Time-dependent perturbation
- 9 The semiconductor laser
- 10 Time-independent perturbation
- 11 Angular momentum and the hydrogenic atom
- Appendix A Physical values
- Appendix B Coordinates, trigonometry, and mensuration
- Appendix C Expansions, differentiation, integrals, and mathematical relations
- Appendix D Matrices and determinants
- Appendix E Vector calculus and Maxwell's equations
- Appendix F The Greek alphabet
- Index
Summary
Following the remarkable success of the first edition and not wanting to give up on a good thing, the second edition of this book continues to focus on three main themes: practicing manipulation of equations and analytic problem solving in quantum mechanics, utilizing the availability of modern compute power to numerically solve problems, and developing an intuition for applications of quantum mechanics. Of course there are many books which address the first of the three themes. However, the aim here is to go beyond that which is readily available and provide the reader with a richer experience of the possibilities of the Schrödinger equation and quantum phenomena.
Changes in the second edition include the addition of problems to each chapter. These also appear on the Cambridge University Press website. To make space for these problems and other additions, previously printed listing of MATLAB code has been removed from the text. Chapter 1 now has a section on harmonic oscillation of a diatomic molecule. Chapter 2 has a new section on quantum communication. In Chapter 3 the discussion of numerical solutions to the Schrödinger now includes periodic boundary conditions. The tight binding model of band structure has been added to Chapter 4 and the numerical evaluation of density of states from dispersion relation has been added to Chapter 5. The discussion of occupation number representation for electrons has been extended in Chapter 7.
- Type
- Chapter
- Information
- Applied Quantum Mechanics , pp. xvPublisher: Cambridge University PressPrint publication year: 2006