Phonon-assisted decoherence and tunneling in quantum dot molecules
arXiv:1011.2857 · doi:10.1002/pssc.201000824
Abstract
We study the influence of the phonon environment on the electron dynamics in a doped quantum dot molecule. A non-perturbative quantum kinetic theory based on correlation expansion is used in order to describe both diagonal and off-diagonal electron-phonon couplings representing real and virtual processes with relevant acoustic phonons. We show that the relaxation is dominated by phonon-assisted electron tunneling between constituent quantum dots and occurs on a picosecond time scale. The dependence of the time evolution of the quantum dot occupation probabilities on the energy mismatch between the quantum dots is studied in detail.
4 pages, 2 figures, conference proceeding NOEKS10, to be published in Phys. Stat. Sol