Solid State Physics: An Introduction to Theory presents an intermediate quantum approach to the properties of solids. Through this lens, the text explores different properties, such as lattice, electronic, elastic, thermal, dielectric, magnetic, semiconducting, superconducting and optical and transport properties, along with the structure of crystalline solids. The work presents the general theory for most of the properties of crystalline solids, along with the results for one-, two- and three-dimensional solids in particular cases. It also includes a brief description of emerging topics, such as the quantum hall effect and high superconductivity.
Building from fundamental principles and requiring only a minimal mathematical background, the book includes illustrative images and solved problems in all chapters to support student understanding.
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Table of Contents
1. Crystal Structure of Solids 2. Crystal Structure in Reciprocal Space 3. Approximations in The Study of Solids 4. Bonding in Solids 5. Elastic Properties of Solids 6. Lattice Vibrations-1 7. Lattice Vibrations-2 8. Specific Heat of Solids 9. Free-Electron Theory of Metals 10. Electrons in Electric and Magnetic Fields 11. Transport Phenomena 12. Energy Bands in Crystalline Solids 13. The Fermi Surfaces 14. Semiconductors 15. Dielectric Properties of Nonconducting Solids 16. Ferroelectric Solids 17. Optical Properties of Solids 18. Magnetism 19. Ferromagnetism 20. Antiferromagnetism and Ferrimagnetism 21. Magnetic Resonance 22. Superconductivity 23. Defects in Crystalline Solids 24. Amorphous Solids and Liquid Crystals 25. Physics of Nanomaterials