Description

Quantum Mechanics: Classical Results, Modern Systems, and Visualized Examples is a comprehensive introduction to non-relativistic quantum mechanics for advanced undergraduate students in physics and related fields. It provides students with a strong conceptual background in the most important theoretical aspects of quantum mechanics, extensive experience with the mathematical tools required to solve problems, the opportunity to use quantum ideas to confront modern experimental realizations of quantum systems, and numerous visualizations of quantum concepts and phenomena. Changes from the First Edition include many new discussions of modern quantum systems (such as Bose-Einstein condensates, the quantum Hall effect, and wave packet revivals) all in the context of familiar textbook level examples. The book continues to emphasize the many connections to classical mechanics and wave physics to help students use their existing intuition to better learn new quantum concepts.

 

Table of Contents

Preface to the Second Edition

1. A First Look at Quantum Physics

2. Classical Waves

3. The Schrodinger Wave Equation

4. Interpreting the Schrodinger Equation

5. The Infinite Well: Physical Aspects

6. The Infinite Well: Formal Aspects

7. Many Particles in the Infinite Well: The Role of Spin and Indistinguishability

8. Other 1D Potentials

9. The Harmonic Oscillator

10. Alternative Methods of Solution and Approximation Methods

11. Scattering

12. More Formal Topics

13. Operator and Factorization Methods for the Schrodinger Equation

14. Multi-Particle Systems

15. Two-Dimensional Quantum Mechanics

16. The Schrodinger Equation in Three-Dimensions

17. The Hydrogen Atom

18. Gravity and Electromagnetism in Quantum Mechanics

19.