Chaotic quantum dots with strongly correlated electrons
arXiv:0710.2701 · doi:10.1103/RevModPhys.80.379
Abstract
Quantum dots pose a problem where one must confront three obstacles: randomness, interactions and finite size. Yet it is this confluence that allows one to make some theoretical advances by invoking three theoretical tools: Random Matrix theory (RMT), the Renormalization Group (RG) and the 1/N expansion. Here the reader is introduced to these techniques and shown how they may be combined to answer a set of questions pertaining to quantum dots
latex file 16 pages 8 figures, to appear in Reviews of Modern Physics