Regular surface undulations, called cross-hatch patterns, appearing at the free surface of lattice-mismatched heteroepitaxial films are a key signature of plastic relaxation. Here we show that the dynamics of cross-hatch formation is accurately described by a continuum model based on strain-mediated surface diffusion, provided that a realistic distribution of dislocations is considered. We demonstrate quantitative agreement between our time-dependent simulations and dedicated atomic force microscopy experiments on Si0.92Ge0.08 films grown on Si(001) at various thicknesses, finally shedding light on the origin and on the dynamical behavior of a widely investigated pattern, first observed more than half a century ago.
Rovaris, F., Zoellner, M., Zaumseil, P., Marzegalli, A., Di Gaspare, L., De Seta, M., et al. (2019). Dynamics of crosshatch patterns in heteroepitaxy. PHYSICAL REVIEW. B, 100(8) [10.1103/PhysRevB.100.085307].
Dynamics of crosshatch patterns in heteroepitaxy
Rovaris, FabrizioPrimo
;Marzegalli, Anna;Montalenti, Francesco
Ultimo
2019
Abstract
Regular surface undulations, called cross-hatch patterns, appearing at the free surface of lattice-mismatched heteroepitaxial films are a key signature of plastic relaxation. Here we show that the dynamics of cross-hatch formation is accurately described by a continuum model based on strain-mediated surface diffusion, provided that a realistic distribution of dislocations is considered. We demonstrate quantitative agreement between our time-dependent simulations and dedicated atomic force microscopy experiments on Si0.92Ge0.08 films grown on Si(001) at various thicknesses, finally shedding light on the origin and on the dynamical behavior of a widely investigated pattern, first observed more than half a century ago.File | Dimensione | Formato | |
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