Wow! eBook
Physics Through Symmetries
Author(s): S G Rajeev (Author)
- Publisher: WSPC
- Publication Date: August 1, 2025
- Language: English
- Print length: 334 pages
- ISBN-10: 9819812887
- ISBN-13: 9789819812882
Book Description
Group Theory has been an essential tool of theoretical physics for about a century. During the early days of quantum theory, it was useful to formulate symmetries of systems and to solve for their spectra. Later it was found, in the standard model, that certain groups determine the fundamental interactions of elementary particle. It is not possible to understand modern theoretical physics without knowing group theory. This book is an introduction to group theoretical ideas that arising in classical or quantum mechanics as well as Gield theory. The emphasis is on concepts, although some calculations are done in detail. The intended audience is a graduate student who has already learned mechanics, quantum mechanics as well as some Gield theory (e.g., Maxwell equations in their relativistic form). Among the topics covered are the rotation group and its representations; group extensions and their relevance to spinors; the Lorentz group and relativistic wave equations; the gaussian unitary ensemble of random matrices; the quark model; the Peter-Weyl theorem for Ginite groups as well as compact Lie groups. There are hints that future physics will need symmetries that go beyond the idea of a group. An introduction to such “quantum groups” is included as well. The book concludes with a study of a class of mechanical systems (Euler-Arnold) which include the rigid body and the ideal Gluids as examples. Some toy models that are one step away from being exactly solvable are studied as examples of chaos.
Editorial Reviews
About the Author
S G Rajeev is a graduate of Kerala University in India. He obtained a PhD In Physics from Syracuse University in 1984 and was a Post-Doctoral Fellow at the Center for Theoretical Physics at MIT during 1984–1987. From 1987 until 2024 he was on the Faculty at the Department of Physics and Astronomy at the University of Rochester. He continues as Professor Emeritus there.
