Room temperature magnetism in GaMnP produced by both ion implantation and molecular-beam epitaxy

Room temperature magnetism in GaMnP produced by both ion implantation and molecular-beam epitaxy

The magnetization of the dilute magnetic alloy GaMnP:C prepared by the implantation of Mn into p- GaP:C or by direct molecular-beam epitaxy is reported. The material implanted to produce a Mn level of 3% produces ferromagnetic behavior that persists up to a temperature of 330 K, while the epitaxiall...

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Veröffentlicht in:Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 2002-05, Vol.20 (3), p.969-973
Hauptverfasser: Overberg, M. E., Gila, B. P., Thaler, G. T., Abernathy, C. R., Pearton, S. J., Theodoropoulou, N. A., McCarthy, K. T., Arnason, S. B., Hebard, A. F., Chu, S. N. G., Wilson, R. G., Zavada, J. M., Park, Y. D.
Format: Artikel
Sprache:eng
Schlagworte:
Doping (additives)
Energy gap
Ferromagnetism
Film growth
Ion implantation
Lattice constants
Magnetic anisotropy
Manganese
Molecular beam epitaxy
Phase composition
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Zusammenfassung:The magnetization of the dilute magnetic alloy GaMnP:C prepared by the implantation of Mn into p- GaP:C or by direct molecular-beam epitaxy is reported. The material implanted to produce a Mn level of 3% produces ferromagnetic behavior that persists up to a temperature of 330 K, while the epitaxially derived material shows evidence of ferromagnetism at a temperature of 300 K. In both cases, no second phases were observed by x-ray diffraction, transmission electron microscopy, or selected area diffraction pattern analysis. A phase diagram of the GaMnP:C system, determined by epitaxial growth, is also reported.
ISSN:0734-211X
1071-1023
1520-8567
DOI:10.1116/1.1477424