This detailed yet accessible text provides an essential introduction to the advanced mathematical methods at the core of theoretical physics. The book steadily develops the key concepts required for an understanding of symmetry principles and topological structures, such as group theory, differentiable manifolds, Riemannian geometry, and Lie algebras. Based on a course for senior undergraduate students of physics, it is written in a clear, pedagogical style and would also be valuable to students in other areas of science and engineering. The material has been subject to more than twenty years of feedback from students, ensuring that explanations and examples are lucid and considered, and numerous worked examples and exercises reinforce key concepts and further strengthen readers' understanding. This text unites a wide variety of important topics that are often scattered across different books, and provides a solid platform for more specialized study or research.
- Unites a wide variety of important topics that are often scattered across different books
- Written in a clear, pedagogical style and accessible to students from physics, mathematics, and engineering
- Numerous worked examples and exercises reinforce key concepts and further strengthen readers' understanding
Author(s): Esko Keski-Vakkuri, Claus Montonen, Marco Panero,
Edition: 1
Publisher: Cambridge University Press
Year: 2022
Language: English
Pages: 358
Tags: Groups, Representation Theory, Manifolds, Riemannian Geometry, Lie Algebras
1. Introduction 1
2. Group theory 4
3. Representation theory of groups 52
4. Differentiable manifolds 99
5. Riemannian geometry 170
6. Semisimple Lie algebras and their unitary representations 233
Appendix A 314
References 350
Index 351