Archivio Istituzionale della RicercaWe shall discuss the role of the contacts as they are modelled in the conventional treatment of quantum devices based on the Wigner-Function formalism. Our analysis will show that the artificial spatial separation between device active region and external reservoirs is intrinsically incompatible with the non-local character of quantum mechanics. More specifically, by means of an exactly-solvable semiconductor model, we shall show that the application of the usual Up-Wind boundary scheme to the Wigner transport equation may produce highly non-physical results, like boundary-driven negative probability distributions.
Transport in quantum devices: Modelling contacts in the Wigner formalism / Taj, David; Genovese, L.; Rossi, Fausto. - In: PHYSICA STATUS SOLIDI. C, CURRENT TOPICS IN SOLID STATE PHYSICS. - ISSN 1862-6351. - STAMPA. - 3:7(2006), pp. 2419-2422. [10.1002/pssc.200668052]
Transport in quantum devices: Modelling contacts in the Wigner formalism
TAJ, DAVID;ROSSI, FAUSTO
2006
Abstract
We shall discuss the role of the contacts as they are modelled in the conventional treatment of quantum devices based on the Wigner-Function formalism. Our analysis will show that the artificial spatial separation between device active region and external reservoirs is intrinsically incompatible with the non-local character of quantum mechanics. More specifically, by means of an exactly-solvable semiconductor model, we shall show that the application of the usual Up-Wind boundary scheme to the Wigner transport equation may produce highly non-physical results, like boundary-driven negative probability distributions.
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https://hdl.handle.net/11583/1549673
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