Temperature and magnetic field effects on the transport controlled charge state of a single quantum dot

L. A. Larsson; M. Larsson; E. S. Moskalenko; P. O. Holtz

Journal ArticleOPEN ACCESS

Temperature and magnetic field effects on the transport controlled charge state of a single quantum dot

Nanoscale Research Letters (2010) 5(7) 1150-1155

DOI: 10.1007/s11671-010-9618-x

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Abstract

Individual InAs/GaAs quantum dots are studied by micro-photoluminescence. By varying the strength of an applied external magnetic field and/or the temperature, it is demonstrated that the charge state of a single quantum dot can be tuned. This tuning effect is shown to be related to the in-plane electron and hole transport, prior to capture into the quantum dot, since the photo-excited carriers are primarily generated in the barrier. © The Author(s) 2010.

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Larsson, L. A., Larsson, M., Moskalenko, E. S., & Holtz, P. O. (2010). Temperature and magnetic field effects on the transport controlled charge state of a single quantum dot. Nanoscale Research Letters, 5(7), 1150–1155. https://doi.org/10.1007/s11671-010-9618-x

Temperature and magnetic field effects on the transport controlled charge state of a single quantum dot

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