Monday, April 8, 2013

1304.1745 (F. Haupt et al.)

Fano-interference in an optical transition from a neutral quantum dot to
a correlated many-body state
   [PDF]

F. Haupt, S. Smolka, M. Hanl, W. Wüster, J. Miguel-Sanchez, A. Weichselbaum, J. von Delft, A. Imamoglu
We investigate the effect of many-body interactions on the optical absorption spectrum of a charge-tunable quantum dot coupled to a degenerate electron gas. A constructive Fano interference between an indirect path, associated with an intra-dot exciton generation followed by tunneling, and a direct path, associated with the ionization of a valence-band quantum dot electron, ensures the visibility of the ensuing Fermi-edge singularity despite weak absorption strength. We find good agreement between experiment and renormalization group theory, but only when we generalize the Anderson impurity model to include a static hole and a dynamic dot-electron scattering potential. The latter is a consequence of the significant transient probability amplitude for intra-dot excitation and differentiates our work from earlier studies of X-ray absorption by an ensemble of deep-level states.
View original: http://arxiv.org/abs/1304.1745

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