Quantum Physics
Cambridge University Press
Edition: Reprint, 12/1/2011
EAN 9781107602762, ISBN10: 1107602769
Paperback, 606 pages, 24.4 x 17 x 3.5 cm
Language: English
Quantum physics allows us to understand the nature of the physical phenomena which govern the behavior of solids, semi-conductors, lasers, atoms, nuclei, subnuclear particles and light. In Quantum Physics, Le Bellac provides a thoroughly modern approach to this fundamental theory. Throughout the book, Le Bellac teaches the fundamentals of quantum physics using an original approach which relies primarily on an algebraic treatment and on the systematic use of symmetry principles. In addition to the standard topics such as one-dimensional potentials, angular momentum and scattering theory, the reader is introduced to more recent developments at an early stage. These include a detailed account of entangled states and their applications, the optical Bloch equations, the theory of laser cooling and of magneto-optical traps, vacuum Rabi oscillations and an introduction to open quantum systems. This is a textbook for a modern course on quantum physics, written for advanced undergraduate and graduate students.
1. Introduction
2. Mathematics of quantum mechanics I
finite dimension
3. Polarization
photons and spin 1/2 particles
4. Postulates of quantum mechanics
5. Systems with a finite number of levels
6. Entangled states
7. Mathematics of quantum mechanics II
infinite dimension
8. Symmetries in quantum physics
9. Wave mechanics
10. Angular momentum
11. The harmonic oscillator
12. Elementary scattering theory
13. Identical particles
14. Atomic physics
15. Open quantum systems
Appendices
References.
Reviews of the French edition: 'This new text comes closest to the contemporary heart of the discipline and I cannot recommend it strongly enough to everyone interested in quantum mechanics, and especially students and teachers ... this text is the best one available for a course designed to expose students to the role played by quantum mechanics in today's world.' Edouard Brézin, Bulletin de la Société Francaise de Physique