This paper investigates effects of surface stress and wetting layers on the morphological instability of a growing epitaxially strained dislocation-free solid film. Linear stability analysis of the planar film shows that the film, unstable due to lattice mismatch, is affected differently by surface stress for a film under compression than for one under tension and depends on whether the relative stiffness of the film to the substrate is less than or greater than (12ν)1; here ν is Poisson’s ratio. The presence of a wetting layer has the capacity to substantially stabilize the planar film. The critical thickness of the film below which the film is stable depends on the bulk elastic properties of film and substrate and increases with increase of the wetting potential.

Topics
Linear stability analysis, Free energy, Dispersion function, Linear elasticity, Elastic stiffness, Poisson's ratio, Shear modulus, Thin films, Matrix calculus, Surface physics
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© 2004 American Institute of Physics.
2004
American Institute of Physics
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