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Self-organized in-plane incorporation of Si atoms in GaAs by molecular beam epitaxy

  • Surfaces And Multilayers
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Abstract

The preferential attachment of Si atoms at misorientation steps on vicinal GaAs(001) surfaces has been studied by RHEED. By analysing the time evolution of the specular beam intensity and the change in surface reconstruction during Si deposition we show that a self-organized Si incorporation along the step edges takes place. The observed (3×2) structure is due to an ordered array of dimerized Si atoms with missing dimer rows. Taking into account the structure of the (3×2) unit mesh and its orientation with respect to the As-terminated or Ga-terminated steps, a characteristic minimum in the RHEED intensity recording corresponds to the number of Ga step-edge sites. Since the preferential path for Ga as well as for Si adatom diffusion is along the [110] direction, the critical terrace width for wirelike Si attachment is much larger for a misorientation toward (111)As than for a misorientation toward (111)Ga. Despite the high local impurity concentration, the Si-modified surface can be overgrown with GaAs without adverse effects on the growth front. This is promising for the fabrication of doping wires.

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Authors and Affiliations

  1. Paul-Drude-Institut für Festkörperelektronik, Hausvogteiplatz 5-7, D-10117, Berlin, Germany

    L. Däweritz & H. Kostial

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  1. L. Däweritz
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  2. H. Kostial
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Däweritz, L., Kostial, H. Self-organized in-plane incorporation of Si atoms in GaAs by molecular beam epitaxy. Appl. Phys. A 58, 81–86 (1994). https://doi.org/10.1007/BF00331522

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