A. Levy Yeyati, A. Martin-Rodero, F. Flores
Published 1999-10-13Version 1
We present an interpolative method for describing coherent transport through an interacting quantum dot. The idea of the method is to construct an approximate electron self-energy which becomes exact both in the limits of weak and strong coupling to the leads. The validity of the approximation is first checked for the case of a single (spin-degenerate) dot level. A generalization to the multilevel case is then discussed. We present results both for the density of states and the temperature dependent linear conductance showing the transition from the Kondo to the Coulomb blockade regime.
Comments: 8 pages, 3 figures, includes lamuphys.sty, submitted to the Proceedings of the XVI Sitges Conference on Statistical Mechanics
Journal: Lecture Notes in Physics 547, 27 (2000)
Shot Noise through a Quantum Dot in the Kondo Regime
Chessboard magnetoconductance of a quantum dot in the Kondo regime
Controlled Dephasing of a Quantum Dot in the Kondo Regime
