Hydrodynamics and Mesoscopic Liquid Dynamics
ORAL
Abstract
A recently proposed two-dimensional analysis approach is applied to investigate mesoscopic liquid dynamics. Using molecular dynamics simulations, the pressure and collective density correlations of several model glass-forming liquids are spatiotemporally mapped on a dense grid of correlation times and wavenumbers. It is shown that many features of these correlation functions in the mesoscopic regime can be qualitatively described by the classical hydrodynamic theories. Signatures of nonhydrodynamic behavior are also identified.
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Presenters
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Zhiqiang Shen
Oak Ridge National Lab
Authors
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Yangyang Wang
Oak Ridge National Lab, Oak Ridge National Laboratory
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Zhiqiang Shen
Oak Ridge National Lab
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Jan-Michael Y Carrillo
Oak Ridge National Lab, Nanomaterials Theory Institute, Center for Nanophase Materials Sciences, Oak Ridge National Laboratory, Oak Ridge, Tennessee, United States
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Bobby G Sumpter
Oak Ridge National Lab, Oak Ridge National Laboratory