The high frequency behavior of the dynamic structure factor, S(Q,omega), of
liquid and supercritical neon is investigated by inelastic x-ray scatterin
g at different temperatures and pressure. The spectral evolution is describ
ed in terms of a single-relaxation-time viscoelastic model. The occurrence
of a positive dispersion in the sound velocity is clearly visible in both i
nvestigated thermodynamic phases. The anomalies in the dispersive behavior
deeply reduce at the higher temperatures, probably, as a consequence of imp
ortant changes in the first shell interactions. More generally, the atomic
dynamics is dominated by a relaxation process whose time scale is in the ra
nge of fast microscopic degrees of freedom (approximate to 10(-13) s), and
whose strength and typical time scale stay constant over all the explored l
iquid and supercritical regions. (C) 2001 American Institute of Physics.