Advanced Solid State Physics
Providing an up-to-date and lucid presentation of phenomena across modern advanced-level solid state physics, this new edition builds on an elementary understanding to introduce students to the key research topics with the minimum of mathematics. It covers cutting-edge topics, including electron transport and magnetism in solids. It is the first book to explain topological insulators and strongly correlated electrons. Explaining solid state physics in a clear and detailed way, it also has over 50 exercises for students to test their knowledge. In addition to the extensive discussion of magnetic impurity problems, bosonization, quantum phase transitions, and disordered systems from the first edition, the new edition includes such topics as topological insulators, high-temperature superconductivity and Mott insulators, renormalization group for Fermi liquids, spontaneous symmetry breaking, zero and finite-temperature Green functions, and the Kubo formalism. Figures from the book and solutions to student exercises are available online at www.cambridge.org/solidstate.
- Electronic book text
- 05 Jun 2012
- CAMBRIDGE UNIVERSITY PRESS
- Cambridge University Press (Virtual Publishing)
- Cambridge, United Kingdom
- 2nd Revised edition
- 170 b/w illus. 10 tables 65 exercises
'This book has an excellent choice of both traditional and modern topics, which is not found elsewhere. Students and researchers will find it to be a valuable introduction to advanced solid state physics. The text is lucidly written, and there are many supplementary exercises for students to enhance their understanding.' Sudip Chakravarty, Distinguished Professor and David S. Saxon Presidential Term Chair of Physics, University of California, Los Angeles '[This book] has an excellent mixture between modern and traditional topics, with emphasis on strongly correlated phenomena ... The presentation of the subjects is very pleasing, with important formulas in gray boxes, simple illustrations and instructive tables. Numerous exercises help to deepen the understanding and give additional background on modern developments like, for example, graphene ... an ideal textbook for getting acquainted with the most important methods and concepts in modern condensed matter physics ...' Matthias Eschrig, Journal of Applied Crystallography
Table of contents
1. Introduction; 2. Non-interacting electron gas; 3. Born-Oppenheimer approximation; 4. Second quantization; 5. Hartree-Fock approximation; 6. Interacting electron gas; 7. Local magnetic moments in metals; 8. Quenching of local moments: the Kondo problem; 9. Screening and plasmons; 10. Bosonization; 11. Electron-lattice interactions; 12. Superconductivity in metals; 13. Disorder: localization and exceptions; 14. Quantum phase transitions; 15. Quantum hall and other topological states; 16. Electrons at strong coupling: mottness; Index.