Group Theory with Applications in Chemical Physics
£155.00
- Author: Patrick Jacobs, University of Western Ontario
- Date Published: October 2005
- availability: Available
- format: Hardback
- isbn: 9780521642507
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Group Theory is an indispensable mathematical tool in many branches of chemistry and physics. This book provides a self-contained and rigorous account on the fundamentals and applications of the subject to chemical physics, assuming no prior knowledge of group theory. The first half of the book focuses on elementary topics, such as molecular and crystal symmetry, whilst the latter half is more advanced in nature. Discussions on more complex material such as space groups, projective representations, magnetic crystals and spinor bases, often omitted from introductory texts, are expertly dealt with. With the inclusion of numerous exercises and worked examples, this book will appeal to advanced undergraduates and beginning graduate students studying physical sciences and is an ideal text for use on a two-semester course.
Read more- An introductory and advanced text that comprehensively covers fundamentals and applications of group theory in detail
- Suitable for a two-semester course with numerous worked examples and problems
- Includes several topics often omitted from introductory texts, such as rotation group, space groups and spinor bases
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×Product details
- Date Published: October 2005
- format: Hardback
- isbn: 9780521642507
- length: 506 pages
- dimensions: 254 x 180 x 30 mm
- weight: 1.2kg
- contains: 140 b/w illus. 188 tables 134 exercises
- availability: Available
Table of Contents
1. The elementary properties of groups
2. Symmetry operators and point groups
3. Matrix representations
4. Group representations
5. Bases of representations
6. Molecular orbitals
7. Crystal field theory
8. Double groups
9. Molecular vibrations
10. Transitions between electronic states
11. The rotation group
12. Projective representations
13. Time-reversal symmetry
14. The crystallographic magnetic point groups
15. Macroscopic properties of crystals
16. Space groups
17. Electronic energy states in crystals
18. The vibration of atoms in crystals
Appendices.-
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