Abstract
Abstract
Evolution of composition patterns in the annealed, single-crystal surface alloy film is considered in the presence of the spinodal decomposition, the compositional stress and the diffusion anisotropy. While the former two effects contribute to overall phase separation, the anisotropy, correlated with the surface crystallographic orientation, guides the in-plane formation and orientation of a pattern. The impacts of the anisotropy parameters on patterns are systematically computed for [110], [100], and [111]-oriented fcc cubic alloy surfaces.
Funder
Ministry of Education of Perm Territory
Subject
Computer Science Applications,Mechanics of Materials,Condensed Matter Physics,General Materials Science,Modeling and Simulation
Reference28 articles.
1. Surface alloying in heteroepitaxial metal-on-metal growth;Besenbacher,1997
2. Surface alloying and de-alloying of Pb on single-crystal Cu surfaces;Kellogg,2002
3. Ge/Ag(111) semiconductor-on-metal growth: formation of an Ag2Ge surface alloy;Oughaddou;Phys. Rev. B,2000
4. Growth of Si nanostructures on Ag(001);Léandri;Surf. Sci.,2007
5. Adsorption of silicon on Au(110): an ordered two dimensional surface alloy;Enriquez;Appl. Phys. Lett.,2012
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