Janine Splettstoesser, Michele Governale, Jürgen König, Markus Büttiker
Published 2010-01-15, updated 2010-04-30Version 2
The transient response of a quantum dot with strong Coulomb interaction to a fast change in the gate potential, as well as the stationary ac-response to a slow harmonic variation of the gate potential are computed by means of a real-time diagrammatic expansion in the tunnel-coupling strength. We find that after a fast switching, the relaxation of charge and spin are governed by a single time constant each, which differ from each other due to Coulomb repulsion. We compare the response to a step potential with the $RC$ time extracted from the ac response.
Comments: 5 pages, 3 figures, published version
Journal: Phys. Rev. B 81, 165318 (2010)
Strongly nonlinear thermovoltage and heat dissipation in interacting quantum dots
Transport through single-level systems: Spin dynamics in the nonadiabatic regime
Interference in interacting quantum dots with spin
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