Advanced Topics in Quantum Field Theory : A Lecture Course
Since the advent of Yang-Mills theories and supersymmetry in the 1970s, quantum field theory - the basis of the modern description of physical phenomena at the fundamental level - has undergone revolutionary developments. This is the first systematic and comprehensive text devoted specifically to modern field theory, bringing readers to the cutting edge of current research. The book emphasizes nonperturbative phenomena and supersymmetry. It includes a thorough discussion of various phases of gauge theories, extended objects and their quantization, and global supersymmetry from a modern perspective. Featuring extensive cross-referencing from traditional topics to recent breakthroughs in the field, it prepares students for independent research. The side boxes summarizing the main results and over 70 exercises make this an indispensable book for graduate students and researchers in theoretical physics.
- Online resource
- 05 Jun 2012
- Cambridge University Press (Virtual Publishing)
- Cambridge, United Kingdom
- 208 b/w illus. 79 exercises
'Aimed at advanced students as well as researchers, the book is a unique combination of a basic guide to modern quantum field theory and a manual of new research topics.' Gert Roepstorff, Zentralblatt MATH
About M. Shifman
Mikhail Shifman is the Ida Cohen Fine Professor of Physics at the University of Minnesota. He has been awarded the 1999 Sakurai Prize for Theoretical Particle Physics and the 2006 Julius Edgar Lilienfeld Prize for outstanding contributions to physics.
Table of contents
Part I. Before Supersymmetry: 1. Phases of gauge theories; 2. Kinks and domain walls; 3. Vortices and flux tubes (strings); 4. Monopoles and skyrmions; 5. Instantons; 6. Isotropic ferromagnet: O(3) sigma model and extensions; 7. False vacuum decay and related topics; 8. Chiral anomaly; 9. Confinement in 4D gauge theories and models in lower dimensions; Part II. Introduction to Supersymmetry: 10. Basics of supersymmetry with emphasis on gauge theories; 11. Supersymmetric solitons; References; Index.