Probing single-charge fluctuations at aGaAs/AlAsInterface using laser spectroscopy on a nearby InGaAs quantum dot
- Houel, J.
- Kuhlmann, A. V.
- Greuter, L.
- Xue, F.
- Poggio, M.
- Gerardot, B. D.
- Dalgarno, P. A.
- Badolato, A.
- Petroff, P. M.
- Ludwig, A.
- Reuter, D.
- Wieck, A. D.
- Warburton, R. J.
Publication date
March 2012
DOI Publisher
American Physical Society (APS)Abstract
We probe local charge fluctuations in a semiconductor via laser spectroscopy on a nearby self-assembled quantum dot. We demonstrate that the quantum dot is sensitive to changes in the local environment at the single-charge level. By controlling the charge state of localized defects, we are able to infer the distance of the defects from the quantum dot with ± 5 nm resolution. The results identify and quantify the main source of charge noise in the commonly used optical field-effect devices
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