Nondynamic Origin of the High-Frequency Acoustic Attenuation in Glasses
Résumé
The sound attenuation in the THz region is studied down to T _ 16 K in glassy glycerol by inelastic x-ray scattering. At striking variance with the decrease found below _100 K in the GHz data, the attenuation in the THz range does not show any T dependence. This result (i) indicates the presence of two different attenuation mechanisms, active, respectively, in the high- and low-frequency limits, (ii) demonstrates the nondynamic origin of the attenuation of THz sound waves, and confirms a similar conclusion obtained in SiO2 glass by molecular dynamics, and (iii) supports the low-frequency attenuation mechanism proposed by Fabian and Allen.