Quantized conductance without reservoirs: Method of the nonequilibrium statistical operator
Authors: 
Bart Sorée, Wim MagnusAuthors Info & Claims
Pages 255 - 258
Abstract
We introduce a generalized non-equilibrium statistical operator (NSO) to study a current-carrying system. The NSO is used to derive a set of quantum kinetic equations based on quantum mechanical balance equations. The quantum kinetic equations are solved self-consistently together with Poisson’s equation to solve a general transport problem. We show that these kinetic equations can be used to rederive the Landauer formula for the conductance of a quantum point contact, without any reference to reservoirs at different chemical potentials. Instead, energy dissipation is taken into account explicitly through the electron-phonon interaction. We find that both elastic and inelastic scattering are necessary to obtain the Landauer conductance.
References
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Sorée B., Magnus W., and Schoenmaker W. Energy and momentum balance equations: a novel approach to quantum transport in closed circuits Phys. Rev. B 2002 66 035318
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Sorée B., Magnus W., and Schoenmaker W. Conductance quantization and dissipation Phys. Lett. A 2003 310 322-328
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Das M.P. and Green F. Landauer formula without Landauer’s assumptions J. Phys. Condens. Matt. 2003 12 687-693
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Magnus W. and Schoenmaker W. On the use of a new integral theorem for the quantum mechanical treatment of electric circuits, J Math. Phys. 1998 39 6715
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Landauer, R.: IBM J. Res. Develop. 1, 223 (1957) and Philos. Mag. 21 863 (1970)
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Büttiker M., Imry Y., Landauer R., and Pinhas S. Phys Rev. B 1985 31 6207
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Kamenev A. and Kohn W. Landauer conductance without two chemical potentials Phys. Rev. 2001 63 155304
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Xing D.Y. and Liu M. Nonequilibrium statistical operator in hot-electron transport theory Int. J. Mod. Phys. 1992 b7 1037-1057
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© 2006 2006.
Publisher
Springer-Verlag
Berlin, Heidelberg
Publication History
Published: 01 September 2007
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