Spectral shape of relaxations in silica glass

Precise low-frequency light scattering experiments on silica glass are pres ented, covering a broad temperature and frequency range (9 GHz < v < 2 THz) . The spectra show a power-law low-frequency wing of the relaxational part of the spectrum with an exponent alpha proportional to temperature in the r ange 30 < T < 200 K. A comparison of our results with those from acoustic a ttenuation experiments performed at different frequencies shows that this p ower-law behavior rather well describes relaxations in silica over 9 orders of magnitude in frequency. These findings can be explained by a model of t hermally activated transitions in double well potentials.