Two-Dimensional Nucleation with Edge and Corner Diffusion
Abstract
The effect of edge and corner diffusions on the morphology and on the density of islands nucleated irreversibly on a flat substrate surface is studied. Without edge and corner diffusion, islands are fractal. As an edge diffusion constant De increases, islands tend to take a cross shape with four needles in the < 10 > direction. Additional corner diffusion with a diffusion constant Dc yields square islands. When De is small relative to the surface diffusion constant Ds, the square corner shows the Berg instability to produce hopper growth in the <11> direction. The corner diffusion influences the island number density n. At a deposition flux F with a small Dc, mainly monomers are mobile and n (F/Ds)1/3. At large Dc, dimers and trimers are also mobile and n F3/7 Ds-5/21 Dc-4/21. The F dependence is in good agreement to the rate equation analysis, but the dependence on Dc cannot be explained by the theory.
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