Physics of Heavy Fermions
Heavy Fermions and Strongly Correlated Electrons Systems
- 336 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
About This Book
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A large variety of materials prove to be fascinating in solid state and condensed matter physics. New materials create new physics, which is spearheaded by the international experimental expert, Prof Yoshichika Onuki. Among them, the f electrons of rare earth and actinide compounds typically exhibit a variety of characteristic properties, including spin and charge orderings, spin and valence fluctuations, heavy fermions, and anisotropic superconductivity. These are mainly manifestations of better competitive phenomena between the RKKY interaction and the Kondo effect. The present text is written so as to understand these phenomena and the research they prompt. For example, superconductivity was once regarded as one of the more well-understood many-body problems. However, it is, in fact, still an exciting phenomenon in new materials. Additionally, magnetism and superconductivity interplay strongly in heavy fermion superconductors. The understanding of anisotropic superconductivity and magnetism is a challenging problem in solid state and condensed matter physics. This book will tackle all these topics and more.
--> Contents:
- Conduction Electrons and Fermi Surfaces
- Local Magnetic Moment
- Single Crystal Growth and Measuring Methods
- Itinerant 3d-electrons
- Heavy Fermions
- Superconductivity
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--> Readership: Graduate students and researchers interested and/or involved in single crystal growth, heavy fermions, superconductivity and related experimental methods. -->
Keywords:Heavy Fermions;Strongly Correlated Electrons Systems;Magnetism;SuperconductivityReview: Key Features:
- Readers can understand the present frontiers of solid state and condensed matter physics, on the basis of fundamental ideas and formulae described in various related methods of measurement
- This paves the way for readers to participate in research concerning single crystal growth and characteristic properties in rare earth and actinide compounds
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Table of contents
- Cover
- Half
- Title
- Copyright
- Contents
- Preface
- 1. Conduction Electrons and Fermi Surfaces
- 2. Local Magnetic Moment
- 3. Single Crystal Growth and Measuring Methods
- 4. Itinerant 3d Electrons
- 5. Heavy Fermions
- 6. Superconductivity
- References
- Appendix
- Index