F. Haupt, F. Cavaliere, R. Fazio, M. Sassetti
Published 2006-07-04, updated 2006-07-10Version 2
In this paper we report a relaxation-induced suppression of the noise for a single level quantum dot coupled to an oscillator with incoherent dynamics in the sequential tunneling regime. It is shown that relaxation induces qualitative changes in the transport properties of the dot, depending on the strength of the electron-phonon coupling and on the applied voltage. In particular, critical thresholds in voltage and relaxation are found such that a suppression below 1/2 of the Fano factor is possible. Additionally, the current is either enhanced or suppressed by increasing relaxation, depending on bias being greater or smaller than the above threshold. These results exist for any strength of the electron-phonon coupling and are confirmed by a four states toy model.
Comments: 7 pages, 7 eps figures, submitted to PRB; minor changes in the introduction
Journal: Phys. Rev. B 74, 205328 (2006)
Current and Shot Noise in a Quantum Dot Coupled to Ferromagnetic Leads in the Large U Limit
Shot noise in diffusive conductors: A quantitative analysis of electron-phonon interaction effects
Enhancement of shot noise due to the fluctuation of Coulomb interaction
