The Kondo Problem to Heavy Fermions
The Kondo Problem to Heavy Fermions
$99.00
USDThe behaviour of magnetic impurities in metals has posed problems to challenge the condensed matter theorist over the past 30 years. This book deals with the concepts and techniques which have been developed to meet this challenge, and with their application to the interpretation of experiments. This book will be of interest to condensed matter physicists, particularly those interested in strong correlation problems. The detailed discussions of advanced many-body techniques should make it of interest to theoretical physicists in general.
- important area of theoretical condensed matter physics
- 'a superb introduction to this fascinating field.' Physics Today
Reviews & endorsements
"...detailed and highly informative...The descriptions are... mathematical and well illutrated by figures and diagrams...I recommend it...the main audience for this book...is clearly the theoretical condensed matter physics community." R.J. Cava, Materials Research Bulletin
"...a concise introduction to the theory of local-moment physics. Hewson provides a thorough and reliable foundation for those interested in research in strongly correlated materials. I heartily recommend it." Piers Coleman, Physics Today
"...I strongly recommend this book to any reader interested in reading about the solution of the Kondo problem, or to graduate students who wish to prepare themselves for research into strongly correlated electron systems. I am sure that experts in the field will read the book and enjoy it. I came away wanting to read more!" Peter S. Riseborough, Foundations of Physics
Product details
April 1997Paperback
9780521599474
472 pages
228 × 153 × 24 mm
0.625kg
Available
Table of Contents
- 1. Models of magnetic impurities
- 2. Resistivity calculations and the resistance minimum
- 3. The Kondo problem
- 4. Renormalization group calculations
- 5. Fermi liquid theories
- 6. Exact solutions and the Bethe ansatz
- 7. N-fold degenerate models I
- 8. N-fold degenerate models II
- 9. Theory and experiment
- 10. Strongly correlated fermions
- Appendices.
