Kinetic Monte Carlo study on the evolution of silicon surface roughness under hydrogen thermal treatment
Abstract
The evolution of a two-dimensional silicon surface under hydrogen thermal treatment is studied by kinetic Monte Carlo simulations, focusing on the dependence of the migration behaviors of surface atoms on both the temperature and hydrogen pressure. We adopt different activation energies to analyze the influence of hydrogen pressure on the evolution of surface morphology at high temperatures. The reduction in surface roughness is divided into two stages, both exhibiting exponential dependence on the equilibrium time. Our results indicate that a high hydrogen pressure is conducive to obtaining optimized surfaces, as a strategy in the applications of three-dimensional devices.
- Publication:
-
Applied Surface Science
- Pub Date:
- August 2017
- DOI:
- 10.1016/j.apsusc.2017.04.002
- Bibcode:
- 2017ApSS..414..361W
- Keywords:
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- Surface roughness;
- FinFET;
- Kinetic Monte Carlo simulation;
- Hydrogen thermal treatment