Andrej Gendiar, Martin Mosko, Pavel Vagner, Radoslav Nemeth
Published 2007-12-06Version 1
Using the self-consistent Hartree-Fock approximation for spinless electrons at zero temperature, we study tunneling of the interacting electron gas through a single delta-barrier in a finite one-dimensional (1D) wire connected to contacts. Our results exhibit features known from correlated many-body models. In particular, the conductance decays with the wire length as $\propto L^{-2\alpha}$, where the power $\alpha$ is universal. We also show that a similar result for a wire conductance can be extracted from the persistent current (I) through the delta-barrier in a 1D ring, where it is known that I \propto L^{-1-\alpha}$.
Comments: Conference proceedings
Journal: Acta Physica Polonica 108 (2005) 661-667
The renormalization group for interacting fermions: from Fermi liquids to quantum dots
Treatment of backscattering in a gas of interacting fermions confined to a one-dimensional harmonic atom trap
Many-body spectral statistics of interacting Fermions
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