Synopses & Reviews
This is a first course on quantum mechanics and describes simple applications to physical phenomena that are of immediate and everyday interest. The first five chapters introduce the fundamentals of quantum mechanics and are followed by a quiz so readers can test themselves. The remaining chapters describe applications, including the physics of lasers, molecular binding, simple properties of crystalline solids arising from their band structure, and the operation of junction transistors. This new expanded edition now includes a chapter on the theory of spin and its application to magnetic resonance imaging, as well as a description of the WKB approximation and its application to alpha decay. Ideal either as a course text or a self-study text, the book contains nearly 100 exercises and hints to their solution.
Synopsis
A first course on quantum mechanics for undergraduates in physics, mathematics and chemistry.
Synopsis
A first course on quantum mechanics describing simple applications to physical phenomena that are of immediate and everyday interest such as transistors, lasers, molecular binding, magnetic resonance imaging and alpha decay. The first five chapters introduce fundamentals and are followed by a revision quiz with which readers may test their understanding. The remaining chapters describe applications. Ideal either as a course text or a self-study text, the book contains nearly 100 exercises and hints to their solution. It will be valuable for undergraduate students at 2nd or 3rd year in physics, electronic engineering, mathematics, chemistry.
Synopsis
This first course on quantum mechanics for physics, mathematics and chemistry undergraduates describes simple applications as well as fundamental theory. The first five chapters introduce fundamentals and are followed by a revision quiz for readers to test their understanding. The remaining chapters describe applications that are of immediate and everyday interest, such as transistors, lasers, and new to this edition, magnetic resonance imaging and alpha decay. Ideal either as a course text or a self-study text, the book contains nearly 100 exercises and solution hints.
Table of Contents
Preface; Constants of quantum physics; 1. Preliminaries; 2. The Schrödinger equation; 3. Special solutions; 4. The superposition principle; 5. The hydrogen atom; Revision quiz; 6. The hydrogen molecule; 7. Introduction to perturbation theory; 8. Radiative transitions; 9. Masers and lasers; 10. Band structure of crystals; 11. Electron motion in crystals; 12. Transistors; Appendixes; Hints for the problems; Index.