Epitaxial growth of GdN on silicon substrate using an AlN buffer layer |
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| Authors: | F. Natali N.O.V. Plank J. Galipaud B.J. Ruck H.J. Trodahl F. Semond S. Sorieul L. Hirsch |
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| Affiliation: | 1. MacDiarmid Institute for Advanced Materials and Nanotechnology, School of Chemical and Physical Sciences, Victoria University of Wellington, PO Box 600, Wellington 6140, New Zealand;2. Centre de Recherche sur l’Hetero-Epitaxie et ses Applications, Centre National de la Recherche Scientifique, Rue Bernard Gregory, 06560 Valbonne, France;3. Centre d’Etudes Nucléaires de Bordeaux-Gradignan IN2P3, UMR 5797, Université de Bordeaux 1, Chemin du solarium BP120, 33175 Gradignan Cedex, France;4. Université Bordeaux 1, Laboratoire d’Intégration du Matériau au Système – CNRS UMR 5218, ENSCPB, 16, Avenue Pey Berland, 33607 Pessac Cedex, France |
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| Abstract: | We report on the epitaxial growth of the intrinsic ferromagnetic semiconductor GdN on Si (1 1 1) substrates buffered by a thick AlN layer, forming a heteroepitaxial system with promise for spintronics. Growth is achieved by depositing Gd in the presence of unactivated N2 gas, demonstrating a reactivity at the surface that is sufficient to grow near stoichiometric GdN only when the N2:Gd flux ratio is at least 100. Reflection high-energy electron diffraction and X-ray diffraction show fully (1 1 1)-oriented epitaxial GdN films. The epitaxial quality of the films is assessed by Rutherford backscattering spectroscopy carried out in random and channelling conditions. Magnetic measurements exhibit a Curie temperature at 65 K and saturation magnetisation of 7 μB/Gd in agreement with previous bulk and thin-film data. Hall effect and resistance data establish that the films are heavily doped semiconductors, suggesting that up to 1% of the N sites are vacant. |
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| Keywords: | A3. Molecular beam epitaxy B1. Nitrides B2. Magnetic materials B2. Semiconducting materials |
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