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Course notes for Solid State Physics by Jacques Tempere
This note covers Second quantization, Electrons and phonons, Greens functions and feynman diagrams, Dielectric function and linear response and Superconductivity.
Author(s): Prof Dr Jacques Tempere
155 Pages
Introductory Solid State Physics
This note covers Bravais lattice or how to pack a crystal, Symmetry as the guiding principle, Systematics of crystals symmetry groups, Unpacking the crystal structure, Spaces of crystallography, Structure factor, Bonding in crystals, Mechanical properties, Dielectric properties, Phonons and sound, Phonons and light and phonons and the reciprocal lattice.
Author(s): Leipzig University
65 Pages
Notes for Solid State Theory by Andreas Wacker
This note describes the following topics: Band structure, Transport, Magnetism, Dielectric function and semiconductor lasers, Quantum kinetics of many-particle systems, Electron-Electron interaction, Superconductivity.
Author(s): Andreas Wacker
88 Pages
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
Introduction to Solid State Physics by University of Nebrask
This note explains the following topics: Crystal Structure, X-Ray Diffraction and Reciprocal Lattice, Crystal Binding, Elastic Properties , Lattice Vibrations, Thermal Properties, Free-Electron Model,Electron Transport, Energy Bands, Electron Dynamics and Fermi Surfaces, Methods for Calculating Band Structure, Semiconductors, Optical Properties of Solids, Dielectric Properties of Insulators, Magnetic Properties.
Author(s): University of Nebrask
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 for Solid State Physics by Steven H. Simon
This book covers the following topics: Physics of Solids without Considering Microscopic Structure, Putting Materials Together, Toy Models of Solids in One Dimension, Geometry of Solids, Neutron and X-Ray Diffraction, Electrons in Solids, Magnetism and Mean Field Theory.
Author(s): Professor Steven H. Simon
269 Pages
This note covers the following topics: Crystal Structure, Classifying lattices, Diffraction and the reciprocal lattice, Scattering of a plane wave by a crystal, Bragg’s Law, X-Ray Diffraction, Lattice Dynamics, Metals, Semiconductors.
Author(s): NA
78 Pages
Lecture notes for Solid State Physics [PDF 40p]
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Author(s): NA
NA Pages
Introduction to Solid state Physics
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NA Pages
Physics of Semiconductors and Nanostructures
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NA Pages
Introduction to Solid State Physics Lecture Notes
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NA Pages
Solid State Physics Optical Properties
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Author(s): NA
NA Pages
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Author(s): NA
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Lecture Notes on Solid State Physics
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Author(s): NA
NA Pages
Solid State Physics and General Relativity
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Author(s): NA
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