Elastic anomalous behavior of silica glass under high-pressure: In-situ Raman study

Authors :: Bernard Champagnon
Dominique de Ligny
Thierry Deschamps
C. Martinet
Source :: Journal of Non-Crystalline Solids. 355:1095-1098
Publication Year :: 2009
Publisher :: Elsevier BV, 2009.
Abstract: We study the changes in the Raman optical vibrations of pure silica glass under high-pressure up to 4.3 GPa and room temperature, namely in the elastic domain. Several mechanical anomalies, as the decrease of bulk modulus between 0 and 2 GPa, have been revealed many years ago (P.W. Bridgmann, Am. J. Sci 10 (1925) 359), but no physical experiments have explained what happens at the atomic scale. Our experiments show that gradual structural reversible rearrangement from 0 to 2 GPa leads to a more flexible material, in good agreement with molecular dynamics (MD) simulations (L. Huang, J. Kieffer, Phys. Rev. B 69 (2004) 224203). Above 2 GPa, a fast homogenization occurs.

Subjects :: Bulk modulus
Chemistry
business.industry
Thermodynamics
Condensed Matter Physics
Atomic units
Electronic, Optical and Magnetic Materials
Molecular dynamics
symbols.namesake
Molecular geometry
Optics
Molecular vibration
Materials Chemistry
Ceramics and Composites
symbols
Raman spectroscopy
Spectroscopy
business
Raman scattering

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