Structural Change of SiO<suB>2</suB> Glass Under High Pressure -- a Molecular Dynamics Study

Chin. Phys. Lett.

1993, Vol. 10

Issue (11): 669-672 DOI:

Original Articles

Structural Change of SiO₂ Glass Under High Pressure -- a Molecular Dynamics Study

SHAO Jun

Department of Chemistry, Shanghai University of Science and Technology, Shanghai 201800

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SHAO Jun 1993 Chin. Phys. Lett. 10 669-672

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Abstract Pressure-induced structural transition in SiO₂ glass at 300K. has been investigated by molecular dynamics simulation., The compression of SiO₂ glass appears to be accommodated by three processes occuring in our calculation. Below 10GPa, the Si-O, O-O and Si-Si bond distances decrease with compression. Also in this pressure region the O-Si-O angle is always peaked at about 109°. Above 10 GPa, the Si-0 bond distance increase quickly with compression and the O-Si-O angle deviates from 109°. At about 46 GPa, the structural information shows that the coordination number of Si becomes six. Then, the structural behavior of SiO₂ glass becomes normal with further compression.

Keywords: 61.42.+h

Published: 01 November 1993

PACS:

61.42.+h

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https://cpl.iphy.ac.cn/ OR https://cpl.iphy.ac.cn/Y1993/V10/I11/0669

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