J. N. H. J. Cremers, P. W. Brouwer
Published 2001-10-20Version 1
We study how dephasing affects the distribution of the dc current pumped through a chaotic quantum dot. We introduce dephasing by the addition of a voltage probe to the quantum dot, treating both the case of controlled dephasing (when the voltage probe is coupled to the dot via a ballistic point contact with a conductance that is increased stepwise) and intrinsic dephasing (for which the voltage probe serves as a phenomelogical model). While dephasing eventually suppresses the dc current through the dot, we also find that, for a quantum dot with single-mode point contacts, a small amount of dephasing actually decreases the likelihood of a zero pumped current.
Comments: 8 pages, 5 figures
Journal: Phys. Rev. B 65, 115333 2002
Entanglement production in a chaotic quantum dot
Weak localization and conductance fluctuations of a chaotic quantum dot with tunable spin-orbit coupling
Direct current generation due to harmonic mixing: From bulk semiconductors to semiconductor superlattices
