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What is Solid State Physics
This note covers the following topics:Condensed Matter Systems, Basic Notions of Condensed Matter, Quantum Hamiltonian of Condensed Matter Physics, Pauli Exclusion Principle for Atoms, Energy Bands and Rigid Band Filling, Electron-Electron Interactions in Metals , Broken Symmetry States of Metals and Soft Condensed Matter Phases.
Author(s): Branislav K. Nikolic
33 Pages 
Elementary Solid State Physics UOU
The topics in this pdf include: Crystal structure, Band theory of Solids, Specific Heat Dielectric and Magnetic properties of Materials.
Author(s): Department of Physics, School of Sciences, Uttarakhand Open University
219 Pages
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
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
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
Introduction to solid state theory by Prof. Thomas Pruschke
This note explains the following topics: The solid as quantum system, The homogeneous electron gas, Lattices and crystals, Electrons in a periodic potential, Lattice dynamics, Electron Dynamics, Magnetism, Superconductivity, Theory of scattering from crystals.
Author(s): Prof. Thomas Pruschke
197 Pages
Advanced Solid State Physics Lectures
This note describes the following topics: Quantization, Photons, Free electrons, empty lattice approximation, Metals, Fermi surfaces, Metals, Fermi surfaces, plane wave method, tight binding, Graphene, carbon nanotubes, photoemission, Semiconductors, Free electrons in a magnetic field , Landau levels, Quantum Hall Effect, Landau levels, Linear response theory , Optical properties of insulators, Optical properties of metals, Boltzmann equation, Thermoelectric effects, Crystal physics, Structural phase transitions / electron screening, Single-electron effects, Hubbard model, Peierls transition , Landau's theory of a Fermi liquid, phonons, Ferroelectrics, piezoelectrics, Landau theory of phase transition, Superconductivitys.
Author(s): Peter Hadley
NA 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
Quick and Dirty Preview of Solid State Physics
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Author(s): NA
NA Pages
Lecture notes for Solid State Physics [PDF 40p]
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Introduction to Solid state Physics
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Physics for Solid State Applications
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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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NA Pages
Physics for Solid State Applications
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NA Pages
Lecture Notes for Solid State Physics (PDF 269)
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