Scaling relation of domain competition on（2＋1）-dimensional ballistic deposition model with surface diffusion

During heteroepitaxial overlayer growth multiple crystal domains nucleated on a substrate surface compete with each other in such a manner that a domain covered by neighboring ones stops growing.The number density of active domains ρ decreases as the height h increases.A simple scaling argument lead...

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Veröffentlicht in:	半导体学报：英文版 2016, Vol.37 (9), p.12-17
1. Verfasser:	Kenyu Osada Hiroyasu Katsuno Toshiharu Irisawa Yukio Saito
Format:	Artikel
Sprache:	eng
Schlagworte:	动力学仿真模型区域竞争外延层生长尺度关系弹道沉积模型表面扩散（2＋1）维
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creator	Kenyu Osada Hiroyasu Katsuno Toshiharu Irisawa Yukio Saito
description	During heteroepitaxial overlayer growth multiple crystal domains nucleated on a substrate surface compete with each other in such a manner that a domain covered by neighboring ones stops growing.The number density of active domains ρ decreases as the height h increases.A simple scaling argument leads to a scaling law of ρ~ h~（-γ） with a coarsening exponent γ=d/z,where d is the dimension of the substrate surface and z the dynamic exponent of a growth front.This scaling relation is confirmed by performing kinetic Monte Carlo simulations of the ballistic deposition model on a two-dimensional（d=2） surface,even when an isolated deposited particle diffuses on a crystal surface.
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issn	1674-4926
language	eng
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source	IOP Publishing Journals; Alma/SFX Local Collection
subjects	动力学仿真模型区域竞争外延层生长尺度关系弹道沉积模型表面扩散（2＋1）维
title	Scaling relation of domain competition on（2＋1）-dimensional ballistic deposition model with surface diffusion
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