Role of the H bond and cooperative effects in normal and supercooled water studied by anisotropic low frequency light scattering
- 1 May 1986
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 84 (9) , 4731-4738
- https://doi.org/10.1063/1.450007
Abstract
Depolarized Rayleigh and low frequency Raman scattering data in bulk supercooled water are presented. The measurements, performed from the normal region down to −26.95 °C for the first time, allow a quantitative data analysis and reveal the existence of a fine structure of the central contribution. We have identified a ‘‘fast’’ and ‘‘slow’’ contribution whose intensities show an opposite behavior as a function of temperature. Such a behavior is understood as a decay of local order due to the H bond. The spectral density function, as derived from the depolarized Raman data, shows the presence of acoustical and intermolecular optical contributions characteristic of many structured disordered materials. A critical comparison with molecular dynamics (MD) and neutron scattering results is also presented.Keywords
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