Coarsening Dynamics of Crystalline Thin Films
Abstract
The formation of pyramid-like structures in thin-film growth on substrates with a quadratic symmetry, e.g., 001 surfaces, is shown to exhibit anisotropic scaling as there exist two length scales with different time dependences. Analytical and numerical results indicate that for most realizations coarsening of mounds is described by an exponent n=0.2357. However, depending on material parameters, n may lie between 0 (logarithmic coarsening) and 1/3. In contrast, growth on substrates with triangular symmetries (111 surfaces) is dominated by a single length scale and an exponent n=1/3.
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