We examine the structure and the evolution of Ge islands epitaxially grown on vicinal Si(111) surfaces by scanning tunneling microscopy. Contrary to what is observed on the singular surface, three-dimensional Ge nanoislands form directly through the elastic relaxation of step-edge protrusions during the unstable step-flow growth. As the substrate misorientation is increased, the islands undergo a shape transformation which is driven by surface energy minimization and controlled by the miscut angle. Using finite element simulations, we show that the dynamics of islanding observed in the experiment results from the anisotropy of the strain relaxation. © 2011 American Institute of Physics.

Persichetti, L., Menditto, R., Sgarlata, A., Fanfoni, M., Balzarotti, A. (2011). Hug-like island growth of Ge on strained vicinal Si(111) surfaces. APPLIED PHYSICS LETTERS, 99(16), 161907 [10.1063/1.3655906].

Hug-like island growth of Ge on strained vicinal Si(111) surfaces

Persichetti L.
;
Balzarotti A.
2011-01-01

Abstract

We examine the structure and the evolution of Ge islands epitaxially grown on vicinal Si(111) surfaces by scanning tunneling microscopy. Contrary to what is observed on the singular surface, three-dimensional Ge nanoislands form directly through the elastic relaxation of step-edge protrusions during the unstable step-flow growth. As the substrate misorientation is increased, the islands undergo a shape transformation which is driven by surface energy minimization and controlled by the miscut angle. Using finite element simulations, we show that the dynamics of islanding observed in the experiment results from the anisotropy of the strain relaxation. © 2011 American Institute of Physics.
2011
Persichetti, L., Menditto, R., Sgarlata, A., Fanfoni, M., Balzarotti, A. (2011). Hug-like island growth of Ge on strained vicinal Si(111) surfaces. APPLIED PHYSICS LETTERS, 99(16), 161907 [10.1063/1.3655906].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/354482
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