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Coulomb Blockade of Tunneling Through a Double Quantum Dot

arXiv:cond-mat/9512082 · doi:10.1103/PhysRevB.54.5637

Abstract

We study the Coulomb blockade of tunneling through a double quantum dot. The temperature dependence of the linear conductance is strongly affected by the inter-dot tunneling. As the tunneling grows, a crossover from temperature-independent peak conductance to a power-law suppression of conductance at low temperatures is predicted. This suppression is a manifestation of the Anderson orthogonality catastrophe associated with the charge re-distribution between the dots, which accompanies the tunneling of an electron into a dot. We find analytically the shapes of the Coulomb blockade peaks in conductance as a function of gate voltage.

11 pages, revtex3.0 and multicols.sty, 4 figures uuencoded