Process of Energetic Carbon Atom Deposition on Si (001) Substrate by Molecular Dynamics Simulation

Chin. Phys. Lett.

2002, Vol. 19

Issue (4): 492-494 DOI:

Original Articles

Process of Energetic Carbon Atom Deposition on Si (001) Substrate by Molecular Dynamics Simulation

YU Wei;TENG Xiao-Yun;LI Xiao-Wei;FU Guang-Sheng

College of Physics Science and Technology, Hebei University, Baoding 071002

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YU Wei, TENG Xiao-Yun, LI Xiao-Wei et al 2002 Chin. Phys. Lett. 19 492-494

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Abstract The process of energetic C atom deposition on Si (001)-(2x1) is studied by the molecular dynamics method using the semi-empirical many-bond Tersoff potential. It is found that the incident energy of the carbon atom has an important effect on the collision process and its diffusion process on the substrate. Most of the incident energy of the carbon atom is transferred to the substrate atoms within the initial two vibration periods of substrate atoms and its value increases with the incident energy. The spreading distance and penetration depth of incident atom increasing with the incident energy are identified as well. The simulated results imply that an important effect of energy of incident carbon on the film growth at low substrate temperature provides activation energy for silicon carbide formation through the vibration enhancement of local substrate atoms, in addition, suppressing carbon atoms inhomogeneous collection and dispensing with the silicon diffusion process may be effectively promoted by the spreading and penetration of the energetic carbon atom in the silicon substrate.

Keywords: 31.15.Qg 79.20.Rf 81.15.Hi

Published: 01 April 2002

PACS:	31.15.Qg
	79.20.Rf	(Atomic, molecular, and ion beam impact and interactions with surfaces)
	81.15.Hi	(Molecular, atomic, ion, and chemical beam epitaxy)

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https://cpl.iphy.ac.cn/ OR https://cpl.iphy.ac.cn/Y2002/V19/I4/0492

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	TENG Xiao-Yun
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	FU Guang-Sheng

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