Frictional drag between quantum wells mediated by phonon exchange

Abstract

We use the Kubo formalism to evaluate the contribution of acoustic phonon exchange to the frictional drag between nearby two-dimensional electron systems. In the case of free phonons, we find a divergent drag rate (τD-1). However, τD-1 becomes finite when phonon scattering from either lattice imperfections or electronic excitations is accounted for. In the case of GaAs quantum wells, we find that for a phonon mean free path ph smaller than a critical value, imperfection scattering dominates and the drag rate varies as ln (ph/d) over many orders of magnitude of the layer separation d. When ph exceeds the critical value, the drag rate is dominated by coupling through an electron-phonon collective mode localized in the vicinity of the electron layers. We argue that the coupled electron-phonon mode may be observable for realistic parameters. Our theory is in good agreement with experimental results for the temperature, density, and d-dependence of the drag rate.

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