Electronic Transport in Metallic Systems and Generalized Kinetic Equations
by A.L. Kuzemsky
Publisher: arXiv 2011
Number of pages: 101
This paper reviews some selected approaches to the description of transport properties, mainly electroconductivity, in crystalline and disordered metallic systems. A detailed qualitative theoretical formulation of the electron transport processes in metallic systems within a model approach is given. Generalized kinetic equations which were derived by the method of the nonequilibrium statistical operator are used.
Home page url
Download or read it online for free here:
by Neri Merhav - arXiv
This is a set of lecture notes of a course on statistical physics and thermodynamics, oriented towards electrical engineering students. The main body of the lectures is devoted to statistical physics, whereas much less emphasis is on thermodynamics.
by Franz J. Vesely - University of Vienna
This web tutorial was devised as a tool for teaching Statistical Physics to second year students. Topics covered: Why is water wet? Elements of Kinetic Theory; Phase space; Statistical Thermodynamics; Statistical Quantum Mechanics.
by Daniel Arovas - University of California, San Diego
Contents: Probability 2. Thermodynamics 3. Ergodicity and the Approach to Equilibrium 4. Statistical Ensembles 5. Noninteracting Quantum Systems 6. Classical Interacting Systems 7. Mean Field Theory of Phase Transitions 8. Nonequilibrium Phenomena.
by Jed Rembold - New Mexico Tech
From the table of contents: Fundamental Principles of Statistical Physics; Selected Applications (Classical Systems, Ideal Fermi Gas, Ideal Bose Gas, Black Body Radiation, Relativistic Degenerate Electron Gas); Introduction to Kinetic Theory.