A concise introduction to magnetism, magnetic materials and phenomena, and their contemporary applications and technologies for both students and researchers.
A concise introduction to magnetism, magnetic materials and phenomena, and their contemporary applications and technologies for both students and researchers.
Nicola A. Spaldin is a Professor in the Materials Department at the University of California, Santa Barbara. She is an enthusiastic and effective teacher, with experience ranging from developing and managing the UCSB Integrative Graduate Training Program to answering elementary school students' questions online. Particularly renowned for her research in the area of multiferroics and magnoelectrics, her current research focuses on using electronic structure methods to design and understand materials that combine magnetism with additional functionalities. She was recently awarded the American Physical Society's McGroddy Prize for New Materials for this work. She is also active in research administration, directing the UCSB/National Science Foundation International Center for Materials Research.
Inhaltsangabe
Part I. Basics: 1. Review of basic magnetostatics 2. Magnetization and magnetic materials 3. Atomic origins of magnetism 4. Diamagnetism 5. Paramagnetism 6. Interactions in ferromagnetic materials 7. Ferromagnetic domains 8. Antiferromagnetism 9. Ferrimagnetism 10. Summary of basics Part II. Magnetic Phenomena: 11. Anisotropy 12. Nanoparticles and thin films 13. Magnetoresistance 14. Exchange bias Part III. Device Applications and Novel Materials: 15. Magnetic data storage 16. Magneto-optics and magneto-optic recording 17. Magnetic semiconductors and insulators 18. Multiferroics Solutions to selected exercises.
Part I. Basics: 1. Review of basic magnetostatics 2. Magnetization and magnetic materials 3. Atomic origins of magnetism 4. Diamagnetism 5. Paramagnetism 6. Interactions in ferromagnetic materials 7. Ferromagnetic domains 8. Antiferromagnetism 9. Ferrimagnetism 10. Summary of basics Part II. Magnetic Phenomena: 11. Anisotropy 12. Nanoparticles and thin films 13. Magnetoresistance 14. Exchange bias Part III. Device Applications and Novel Materials: 15. Magnetic data storage 16. Magneto-optics and magneto-optic recording 17. Magnetic semiconductors and insulators 18. Multiferroics Solutions to selected exercises.
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