Add to ORKGWe study spatially discretized versions of a class of one-dimensional, nonequilibrium, conserved growth equations for both nonconserved and conserved noise using numerical integration. An atomistic version of these growth equations is also studied using stochastic simulation. The models with nonconserved noise are found to exhibit mound formation and power-law coarsening with slope selection for a range of values of the model parameters. Unlike previously proposed models of mound formation, the Ehrlich-Schwoebel step-edge barrier, usually modeled as a linear instability in growth equations, is absent in our models. Mound formation in our models occurs due to a nonlinear instability in which the height (depth) of spontaneously generated pill...
We show that discretized versions of commonly studied nonlinear growth equations have a generic inst...
We study the dynamics of growth at the interface level for two different kinetic models. Both of the...
Step-dynamics models are developed for mound shape evolution during multilayer homoepitaxial growth ...
We study spatially discretized versions of a class of one-dimensional, nonequilibrium, conserved gro...
We study spatially discretized versions of a class of one-dimensional, nonequilibrium, conserved gro...
We numerically study a one-dimensional conserved growth equation with competing linear (Ehrlich-Schw...
Conserved growth models that exhibit a nonlinear instability in which the height (depth) of isolated...
Surface growth models may give rise to instabilities with mound formation whose typical linear size ...
We show by numerical simulations that discretized versions of commonly studied continuum nonlinear g...
Two types of mechanisms are proposed for mound coarsening during unstable epitaxial growth: stochas...
International audienceCrystal surfaces may undergo thermodynamical as well as kinetic, out-of-equili...
We consider a class of unstable surface growth models, $\partial_t z = -\partial_x {\cal J}$, develo...
In this dissertation, I present a number of theoretical and numerical studies of the dynamic scaling...
A step dynamics model is developed for mound formation during multilayer homoepitaxy. Downward fun...
In this article we study a model from epitaxial thin-film growth. It was originally introduced as a ...
We show that discretized versions of commonly studied nonlinear growth equations have a generic inst...
We study the dynamics of growth at the interface level for two different kinetic models. Both of the...
Step-dynamics models are developed for mound shape evolution during multilayer homoepitaxial growth ...
We study spatially discretized versions of a class of one-dimensional, nonequilibrium, conserved gro...
We study spatially discretized versions of a class of one-dimensional, nonequilibrium, conserved gro...
We numerically study a one-dimensional conserved growth equation with competing linear (Ehrlich-Schw...
Conserved growth models that exhibit a nonlinear instability in which the height (depth) of isolated...
Surface growth models may give rise to instabilities with mound formation whose typical linear size ...
We show by numerical simulations that discretized versions of commonly studied continuum nonlinear g...
Two types of mechanisms are proposed for mound coarsening during unstable epitaxial growth: stochas...
International audienceCrystal surfaces may undergo thermodynamical as well as kinetic, out-of-equili...
We consider a class of unstable surface growth models, $\partial_t z = -\partial_x {\cal J}$, develo...
In this dissertation, I present a number of theoretical and numerical studies of the dynamic scaling...
A step dynamics model is developed for mound formation during multilayer homoepitaxy. Downward fun...
In this article we study a model from epitaxial thin-film growth. It was originally introduced as a ...
We show that discretized versions of commonly studied nonlinear growth equations have a generic inst...
We study the dynamics of growth at the interface level for two different kinetic models. Both of the...
Step-dynamics models are developed for mound shape evolution during multilayer homoepitaxial growth ...