Effects of Electron Correlation on the Transport through a Quantum Dot Superlattice(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
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概要
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We study correlation effects on the transport through a quantum dot superlattice using a two-dimensional Hubbard model connected to two noninteracting leads. To calculate the zero-temperature conductance away from half-filling, we have used the non-magnetic solution of the Hartree-Fock approximation for the unperturbed Green's function, and then take into account the electron correlation beyond the mean field theory through the second-order self-energy corrections with respect to the residual interaction. When the value of the onsite potential ⋴_d or the repulsion U is changed, the conductance shows a number of peaks corresponding to the resonance states passing through the Fermi energy. The behavior of the resonance states for correlated electrons can be investigated using the eigenvalue of the effective Hamiltonian for a quasi-particle of a local Fermi liquid. We calculate the eigenvalue using the second-order self-energy, and show explicitly that it can be compared with the conductance peak.
- 社団法人日本物理学会の論文
- 2004-01-15
著者
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TANAKA Yoshihide
Department of Neurosurgery, Yokohama City University School of Medicine
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Oguri Akira
Department Of Material Science Osaka City University
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Oguri Akira
Department Of Applied Physics Nagoya University
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Tanaka Yoshihide
Department Of Material Science Osaka City University
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Tanaka Yoshihide
Department Of Analytical Chemistry Nippon Boehringer Ingelheim Co. Ltd.
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