David B. Tanner is Distinguished Professor of Physics at the University of Florida. His research focuses on condensed matter and particle astrophysics. He has previously served as Department Chair and Chair of the Division of Condensed Matter Physics for American Physical Society (APS). In 2016, he received the APS Frank Isakson Prize for Optical Effects in Solids and, in the same year, shared a Special Breakthrough Prize in Fundamental Physics for the discovery of gravitational waves.
Inhaltsangabe
Preface 1. Introduction 2. Maxwell's equations and plane waves in matter 3. The complex dielectric function and refractive index 4. Classical theories for the dielectric function 5. Phonons 6. A look at real solids 7. Transmission and reflection 8. Free-electron metals 9. Optical excitations: quantum mechanics 10. Kramers-Kronig relations and sum rules 11. Superconductors 12. Semiconductors and insulators 13. Strongly interacting solids 14. Nonlocal effects 15. Anisotropic crystals 16. Magneto-optics 17. Inhomogeneous materials Appendices References Index.
Preface 1. Introduction 2. Maxwell's equations and plane waves in matter 3. The complex dielectric function and refractive index 4. Classical theories for the dielectric function 5. Phonons 6. A look at real solids 7. Transmission and reflection 8. Free-electron metals 9. Optical excitations: quantum mechanics 10. Kramers-Kronig relations and sum rules 11. Superconductors 12. Semiconductors and insulators 13. Strongly interacting solids 14. Nonlocal effects 15. Anisotropic crystals 16. Magneto-optics 17. Inhomogeneous materials Appendices References Index.
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