Modeling of cotunneling in quantum dot systems
Pedersen, Jonas; Wacker, Andreas (2010). Modeling of cotunneling in quantum dot systems Physica E-Low-Dimensional Systems & Nanostructures, 42, (3), 595 - 599. International Conference on Frontiers of Quantum and Mesoscopic Thermodynamics (FQMT '08). Prague, Czech Republic: Elsevier
Conference Proceeding/Paper
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Published
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English
Authors:
Pedersen, Jonas
;
Wacker, Andreas
Department:
Mathematical Physics
Linne Center for Nanoscience and Quantum Engineering-lup-obsolete
Research Group:
Linne Center for Nanoscience and Quantum Engineering-lup-obsolete
Abstract:
Transport through nanosystems is treated within the second-order von Neumann approach. This approach bridges the gap between rate equations which neglect level broadening and cotunneling, and the transmission formalism, which is essentially based on the single-particle picture thereby treating many-particle interactions oil an approximate level. Here we provide an alternative presentation of the method in order to clarify the underlying structure. Furthermore we apply it to the problem of cotunneling. It is shown that both elastic and inelastic cotunneling can be described quantitatively, while the transmission approach with a mean-field treatment of the interaction provides an artificial bistability. (C) 2009 Elsevier B.V. All rights reserved.
Keywords:
Transport ;
Master equation ;
Quantum dots
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