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Solid State Theory Manfred Sigrist
Solid state physics is one of the most active and versatile branches of modern physics that have developed in the wake of the discovery of quantum mechanics. It deals with problems concerning the properties of materials and, more generally, systems with many degrees of freedom, ranging from fundamental questions to technological applications. The topics explained in this pdf include:Introduction, Electrons in the periodic crystal - band structure, Metals, Itinerant electrons in a magnetic field, Landau’s Theory of Fermi Liquids, Transport properties of metals, Magnetism in metals, Magnetism of localized moments.
Author(s): Manfred Sigrist
164 Pages
Solid State Physics by Professor Leo Radzihovsky
This note covers the following topics: Elasticity, fluctuations and thermodynamics of crystals, thermodynamics of phonons, Hohenberg-Mermin-Wagner theorem, Ginzburg-Landau theory and Landau's quantum hydrodynamics, Bosonic matter, Magnetism in charge insulators, Jordan-Wigner transformation and XXZ chain, Coherent-spin states and Berry phases, Electron liquid, Fermi gas thermodynamics, Pauli magnetism, Stoner ferromagnetism.
Author(s): Professor Leo Radzihovsky
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Introduction to Solid State Physics by National Taiwan Normal University
This note explains the following topics: Crystal structure, Wave diffraction and the reciprocal lattice, Crystal binding and elastic constants, Phonons, Free-electron Fermi gas, Energy bands, Fermi surface and metals, Semiconductor crystals, Superconductivity, Diamagnetism and paramagnetism, Ferromagnetism and antiferromagnetism, Magnetic resonance, Plasmons, polaritons and polarons, Optical processes and excitons, Dielectrics and ferroelectrics.
Author(s): National Taiwan Normal University
NA Pages
Solid State Physics Introduction Lecture notes
This note covers the following topics: The electronic structure: tight-binding method and nearly free-electron model, Comparison of results for tight-binding and nearly-free electron model, Formalization: Bloch theorem, Phonons in one dimension, Periodicity, Effect of a basis on the electronic structure, Crystal structures, The reciprocal lattice, Tight-binding in two dimensions, Optical spectroscopy, Quantum-mechanical treatment of optical spectroscopy, Relation to absorption, Thomas-Fermi screening, Ferromagnetism, Antiferromagnetism, Electron-phonon interaction, Transition temperature, Ginzburg-Landau theory, Flux quantization and the Josephson effect.
Author(s): Michel van Veenendaal
107 Pages
Lecture Notes on Solid State Physics by Daniel Arovas
These lecture notes are intended to supplement a graduate level course in condensed matter physics.
Author(s): Daniel Arovas
205 Pages
Quick and Dirty Preview of Solid State Physics
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Lecture notes for Solid State Physics [PDF 40p]
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Introduction to Solid state Physics
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Solid State Physics Lecture Handouts
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Introduction to Solid State Physics Lecture Notes
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Solid State Physics Optical Properties
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Physics for Solid State Applications
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Lecture Notes on Solid State Physics
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Solid State Physics and General Relativity
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Lecture Notes for Solid State Physics (PDF 269)
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