Enhanced magnetic and electrical properties in amorphous Ge:Mn thin films by non-magnetic codoping

Amorphous Ge 1−x Mn x thin films have been prepared by co-depositing Ge and Mn on SiO 2 /Si using an ultrahigh vacuum molecular beam epitaxy system. Across a range of growth temperatures and Mn concentrations (2.8 at. %, 10.9 at. %, and 21.3 at. %), we achieved enhanced magnetic and electrical prope...

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Veröffentlicht in:Journal of applied physics 2012-02, Vol.111 (3), p.033916-033916-7
Hauptverfasser: Yin, Wenjing, Kell, Copeland D., He, Li, Dolph, Melissa C., Duska, Chris, Lu, Jiwei, Hull, Robert, Floro, Jerrold A., Wolf, Stuart A.
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Sprache:eng
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Zusammenfassung:Amorphous Ge 1−x Mn x thin films have been prepared by co-depositing Ge and Mn on SiO 2 /Si using an ultrahigh vacuum molecular beam epitaxy system. Across a range of growth temperatures and Mn concentrations (2.8 at. %, 10.9 at. %, and 21.3 at. %), we achieved enhanced magnetic and electrical properties with non-magnetic codopants dispersed in the films. Self-assembled Mn-rich amorphous nanostructures were observed in the amorphous Ge matrix, either as isolated nanoclusters or as nanocolumns, depending on Mn concentration. The ferromagnetic saturation moments were found to increase with Mn concentration and reached a maximum of 0.7 μ B /Mn in the as-grown samples. Two magnetic transition temperatures around 15 K and 200 K were observed in these amorphous MBE-grown samples. Coercivity is considered within the context of local magnetic anisotropy. The anomalous Hall effect confirmed a strong correlation between the magnetization and transport properties, indicating that global ferromagnetic coupling was carrier-mediated rather than through direct exchange. In addition, negative magnetoresistance was detected from 5 K to room temperature.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.3679076