Resonant tunneling through quantum-dot arrays
- 15 September 1994
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 50 (11) , 8035-8038
- https://doi.org/10.1103/physrevb.50.8035
Abstract
We apply the Hubbard Hamiltonian to describe quantum-dot arrays weakly coupled to two contacts. Exact diagonalization is used to calculate the eigenstates of the arrays containing up to six dots and the linear-response conductance is then calculated as a function of the Fermi energy. In the atomic limit the conductance peaks form two distinct groups separated by the intradot Coulomb repulsion, while in the band limit the peaks occur in pairs. The crossover is studied. A finite interdot repulsion is found to cause interesting rearrangements in the conductance spectrum.This publication has 24 references indexed in Scilit:
- Collective transport in arrays of small metallic dotsPhysical Review Letters, 1993
- Artificial AtomsPhysics Today, 1993
- Coulomb Blockade Oscillations in a Double-Dot SystemEurophysics Letters, 1992
- Electron transport through one quantum dot and through a string of quantum dotsSurface Science, 1992
- Resonant tunneling in coupled quantum dotsApplied Physics Letters, 1992
- Observation of Single-Electron Charging in Double-Barrier HeterostructuresScience, 1992
- Theory of Coulomb-blockade oscillations in the conductance of a quantum dotPhysical Review B, 1991
- Transport through a strongly interacting electron system: Theory of periodic conductance oscillationsPhysical Review Letters, 1991
- Single-electron charging and periodic conductance resonances in GaAs nanostructuresPhysical Review Letters, 1990
- Transport through a finite one-dimensional crystalPhysical Review Letters, 1990