Simulations of Quantum Many Body Systems
by Mark Jarrell
Publisher: Louisiana State University 2011
Contents: The Equilibrium Green Function Method; Dynamical Mean Field and Dynamical Cluster Approximation; Hirsh Fye and Continuous time Quantum Monte Carlo Methods; The Maximum Entropy Method for analytic continuation of QMC data; The non-equilibrium Green function method.
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by Chetan Nayak - University of California
Contents: Basic Formalism; Goldstone Modes and Spontaneous Symmetry Breaking; Critical Fluctuations and Phase Transitions; Symmetry-Breaking In Fermion Systems; Gauge Fields and Fractionalization; Localized and Extended Excitations in Dirty Systems.
by Wolfgang Ketterle, Martin W. Zwierlein - arXiv
This text summarizes the experimental frontier of ultra cold fermionic gases. It is based on three lectures which one of the authors gave at the Varenna summer school describing the experimental techniques used to study ultracold fermionic gases.
by Daniel Arovas - University of California, San Diego
These lecture notes are intended to supplement a graduate level course in condensed matter physics. From the table of contents: Introductory Information; Boltzmann Transport; Mesoscopia; Linear Response Theory; Magnetism.
by R. Starke, G. A. H. Schober - arXiv
Systematic theoretical enquiry concerning the conceptual foundations and the nature of phonon-mediated electron-electron interactions. We propose a simple scheme to decouple the electrons and nuclei of a crystalline solid via effective interactions.