Coulomb Drag as a Probe of Coupled Plasmon Modes in Parallel Quantum Wells
Abstract
We show theoretically that the Coulomb drag rate between two parallel quasi-two-dimensional electron gases is substantially enhanced by the coupled acoustic and optic plasmon modes of the system at temperatures T 0.2TF (where TF is the Fermi temperature) for experimentally relevant parameters. The acoustic mode causes a sharp upturn in the scaled drag rate as a function of temperature at T ≈ 0.2 TF. Other experimental signatures of plasmon-dominated drag are a d-3 dependence on the well separation d, and a peak in the drag rate as a function of relative carrier densities at matched Fermi velocities.
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