Optical studies of zero-field magnetization of CdMnTe quantum dots: Influence of average size and composition of quantum dots

We show that through the resonant optical excitation of spin-polarized excitons into CdMnTe magnetic quantum dots (QD), we can induce a macroscopic magnetization of the Mn impurities. We observe very broad (4-meV linewidth) emission lines of single dots, which are consistent with the formation of st...

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Bibliographic Details
Published in:Journal of applied physics 2004-12, Vol.96 (12), p.7407-7413
Main Authors: Gurung, T., Mackowski, S., Jackson, H. E., Smith, L. M., Heiss, W., Kossut, J., Karczewski, G.
Format: Article
Language:English
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Summary:We show that through the resonant optical excitation of spin-polarized excitons into CdMnTe magnetic quantum dots (QD), we can induce a macroscopic magnetization of the Mn impurities. We observe very broad (4-meV linewidth) emission lines of single dots, which are consistent with the formation of strongly confined exciton magnetic polarons. Therefore, we attribute the optically induced magnetization of the magnetic dots to the formation of spin-polarized exciton magnetic polarons. We find that the photoinduced magnetization of magnetic polarons is weaker for larger dots which emit at lower energies within the QD distribution. We also show that the photoinduced magnetization is stronger for quantum dots with lower Mn concentration, which we ascribe to weaker Mn–Mn interaction between the nearest neighbors within the dots. Due to particular stability of the exciton magnetic polarons in QDs, where the localization of the electrons and holes is comparable to the magnetic exchange interaction, this optically induced spin alignment persists to temperatures as high as 160K.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.1813622