Anharmonic vs. relaxational sound damping in glasses: I. Brillouin scattering from densified silica

(2) High Energy Accelerator Research Organization; E. Courtens (1) ((1)University of Montpellier II; E. Rat (1); France; G. Massiera (1); Japan); M. Arai (2); M. Foret (1); R. Vacher (1); R. Vialla (1)

arxiv: cond-mat/0505558 · v3 · submitted 2005-05-23 · ❄️ cond-mat.dis-nn · cond-mat.mtrl-sci

Anharmonic vs. relaxational sound damping in glasses: I. Brillouin scattering from densified silica

E. Rat (1) , M. Foret (1) , G. Massiera (1) , R. Vialla (1) , M. Arai (2) , R. Vacher (1) , E. Courtens (1) ((1)University of Montpellier II , France

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(2) High Energy Accelerator Research Organization Tsukuba Japan)

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classification ❄️ cond-mat.dis-nn cond-mat.mtrl-sci

keywords dampingsoundanharmonicdensifieddispersionglassesrelaxationsilica

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This series discusses the origin of sound damping and dispersion in glasses. In particular, we address the relative importance of anharmonicity versus thermally activated relaxation. In this first article, Brillouin-scattering measurements of permanently densified silica glass are presented. It is found that in this case the results are compatible with a model in which damping and dispersion are only produced by the anharmonic coupling of the sound waves with thermally excited modes. The thermal relaxation time and the unrelaxed velocity are estimated.

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Anharmonic vs. relaxational sound damping in glasses: I. Brillouin scattering from densified silica

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