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Passivation of GaAs(001) surface by the growth of high quality c-GaN ultra-thin film using low power glow discharge nitrogen plasma source
Authors:G. Monier  L. Bideux  C. Robert-Goumet  B. Gruzza  M. Petit  J.L. Lábár  M. Menyhárd
Affiliation:1. Clermont Université, Université Blaise Pascal, LASMEA, BP 10448, F-63000 Clermont-Ferrand, France;2. CNRS, UMR 6602, LASMEA, F-63177 Aubiere, France;3. Aix-Marseille Univ, CINaM UPR3118, 13288 Marseille Cedex 9, France;4. CNRS, CINaM UPR3118, 13288 Marseille Cedex 9, France;5. MTA MFA, Thin Films Physics Laboratory, Research Institute for Technical Physics and Materials Science, Budapest H-1525 P.O. Box 49, Hungary
Abstract:The benefits of using a low power glow discharge nitrogen plasma source to create high quality GaN layers on GaAs(001) surface are first highlighted. This uncommon type of plasma source has the particularity of working at a low power (3–10 W) and a low pressure (10? 1 Pa) which induce creation of a small quantity of active nitrogen species. We put in evidence that this distinctiveness allows the growth of a stoichiometric and As-free GaN ultra-thin film on a GaAs(001) substrate by the mean of the inter-diffusion of As and N atoms. XPS, EELS, AFM are used to monitor surface composition and structure changes and to estimate the GaN thickness. A near saturation of the nitride layer thickness versus plasma exposure time is found. Furthermore, the possibility to crystallize the amorphous GaN layer by an annealing at 620 °C in a cubic structure with a lattice parameter close to that of c-GaN is put in evidence by means of TEM and LEED measurements. These measurements also show the homogeneity of the GaN thickness. In addition, the passivating effect of the GaN ultra-thin film to protect the GaAs surface is proved with the monitoring by XPS of the surface oxidation during several days of air exposure.
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