Many-body Physics with Ultracold Gases
by Immanuel Bloch, Jean Dalibard, Wilhelm Zwerger
Publisher: arXiv.org 2007
Number of pages: 83
This paper reviews recent experimental and theoretical progress concerning many-body phenomena in dilute, ultracold gases. It focuses on effects beyond standard weak-coupling descriptions, such as the Mott-Hubbard transition in optical lattices, strongly interacting gases in one and two dimensions, or lowest-Landau-level physics in quasi-two-dimensional gases in fast rotation.
Home page url
Download or read it online for free here:
by J. Froehlich, U.M. Studer, E. Thiran - arXiv
From the table of contents: The Pauli Equation and its Symmetries; Gauge Invariance in Non-Relativistic Quantum Many-Particle Systems; Some Key Effects Related to the U(1)xSU(2) Gauge Invariance of Non-Relativistic Quantum Mechanics; and more.
by Kieron Burke, et al. - University of California, Irvine
DFT is not just another way of solving the Schroedinger equation. Density functional theory is a completely different, rigorous way of approaching any interacting problem, by mapping it exactly to a much easier-to-solve non-interacting problem.
by Ulrika Magnea - arXiv
In this text we give a self-contained introduction to symmetric spaces and their main characteristics. We take an algebraic approach; therefore it is not necessary to know almost anything about differential geometry to be able to follow the outline.
by Kim Christensen - MIT
Percolation theory is the simplest model displaying a phase transition. The aim of the percolation theory course is to provide a challenging and stimulating introduction to a selection of topics within modern theoretical condensed matter physics.