Anharmonic versus relaxational sound damping in glasses. II. Vitreous silica

9 December 2005

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 72 (21), 214205
https://doi.org/10.1103/physrevb.72.214205

Abstract

The temperature dependence of the frequency dispersion in the sound velocity and damping of vitreous silica is reanalyzed. Thermally activated relaxation accounts for the sound attenuation observed above 10 K at sonic and ultrasonic frequencies. Its extrapolation to the hypersonic regime reveals that the anharmonic coupling to the thermal bath becomes important in Brillouin-scattering measurements. At 35 GHz and room temperature, the damping due to this anharmonicity is found to be nearly twice that produced by thermally activated relaxation. The analysis also reveals a sizeable velocity increase with temperature which is not related with sound dispersion. A possible explanation is that silica experiences a gradual structural change that already starts well below room temperature.

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This publication has 47 references indexed in Scilit:

Suppression of fast relaxation and the Raman coupling coefficient in densified silica
Journal of Physics: Condensed Matter, 2004
Light scattering spectra of fast relaxation in silica and ${Ca}_{0.4} K_{0.6} ({NO}_{3})_{1.4}$ glasses
Physical Review B, 2001
Spectral Shape of Relaxations in Silica Glass
Physical Review Letters, 2000
Internal friction and hypersonic velocity in vitreous germania under high pressure
Journal of Non-Crystalline Solids, 1998
An asymmetric double-well potential model for structural relaxation processes in amorphous materials
Philosophical Magazine Part B, 1981
Elastic effects of structural relaxation in glasses at low temperatures
Journal of Non-Crystalline Solids, 1976
On the ultrasonic attenuation in glasses at low temperatures
The European Physical Journal A, 1972
Tunneling states in amorphous solids
Journal of Low Temperature Physics, 1972
Anomalous low-temperature thermal properties of glasses and spin glasses
Philosophical Magazine, 1972
Ultrasonic Absorption in Fused Silica at Low Temperatures and High Frequencies
Journal of the American Ceramic Society, 1955

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