Abstract
Time-resolved Faraday rotation studies of quantum-dot quantum wells have recently shown that the Faraday rotation angle exhibits several well-defined resonances as a function of probe energy close to the absorption edge. Here, we calculate the Faraday rotation angle from the eigenstates of the quantum-dot quantum well obtained with theory. We show that the large number of narrow resonances with comparable spectral weights observed in experiment is not reproduced by the level scheme of a quantum-dot quantum well with perfect spherical symmetry. A simple model for broken spherical symmetry yields results in better qualitative agreement with experiment.
- Received 16 November 2004
DOI:https://doi.org/10.1103/PhysRevB.71.205315
©2005 American Physical Society