2008
DOI: 10.1007/s10825-008-0182-x
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Transport in open quantum systems: comparing classical and quantum phase space dynamics

Abstract: Transport in open quantum systems is of great interest. We show that the discrete states of an open quantum system may be classified into three distinct groups, dependent upon the manner in which they influence transport when connected to an external environment. A first class of states is current-carrying states, which are naturally strongly connected to the environment. A second class of states is discrete, but stable and isolated, and thought to be the pointer states of decoherence theory. Finally, we ident… Show more

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Cited by 3 publications
(1 citation statement)
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“…In this way, the density of state map of the closed system will have the relevant information about the electronic transport of the open system until the QPC value of w l . These low energy results using semi-infinite contact leads, related to current-carrying states [47], are different from those observed at high energies or with macroscopic reservoirs as contacts. In the last case the quantum-classical coupling occurs through a selective set of states or pointer states [9].…”
Section: The Open Quantum Dot Limit: Quantum Openness Diagramscontrasting
confidence: 84%
“…In this way, the density of state map of the closed system will have the relevant information about the electronic transport of the open system until the QPC value of w l . These low energy results using semi-infinite contact leads, related to current-carrying states [47], are different from those observed at high energies or with macroscopic reservoirs as contacts. In the last case the quantum-classical coupling occurs through a selective set of states or pointer states [9].…”
Section: The Open Quantum Dot Limit: Quantum Openness Diagramscontrasting
confidence: 84%