Inelastic x-ray scattering data have been collected for liquid sodium at T = 390 K, i.e., slightly above the melting point. Owing to the very high instrumental resolution, pushed up to 1.5 meV, it has been possible to determine accurately the dynamic structure factor S(Q,) in a wide wave- vector range, 1.515 nm1, and to investigate on the dynamical processes underlying the collective dynamics. A detailed analysis of the line shape of S(Q,), similarly to other liquid metals, reveals the coexistence of two different relaxation processes with slow and fast characteristic time scales. The present data lead to the conclusion that (i) the picture of the relaxation mechanism based on a simple viscoelastic model fails and (ii) although the comparison with other liquid metals reveals similar behavior, the data do not exhibit an exact scaling law as the principle of the corresponding state would predict.
Inelastic X-ray Scattering Study of the Collective Dynamics in Liquid Sodium
2002
Abstract
Inelastic x-ray scattering data have been collected for liquid sodium at T = 390 K, i.e., slightly above the melting point. Owing to the very high instrumental resolution, pushed up to 1.5 meV, it has been possible to determine accurately the dynamic structure factor S(Q,) in a wide wave- vector range, 1.515 nm1, and to investigate on the dynamical processes underlying the collective dynamics. A detailed analysis of the line shape of S(Q,), similarly to other liquid metals, reveals the coexistence of two different relaxation processes with slow and fast characteristic time scales. The present data lead to the conclusion that (i) the picture of the relaxation mechanism based on a simple viscoelastic model fails and (ii) although the comparison with other liquid metals reveals similar behavior, the data do not exhibit an exact scaling law as the principle of the corresponding state would predict.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
