English

Self-diffusion in a monatomic glassforming liquid embedded in the hyperbolic plane

Statistical Mechanics 2008-12-19 v2
Authors: Francois Sausset , Gilles Tarjus
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Abstract

We study by Molecular Dynamics simulation the slowing down of particle motion in a two-dimensional monatomic model: a Lennard-Jones liquid on the hyperbolic plane. The negative curvature of the embedding space frustrates the long-range extension of the local hexagonal order. As a result, the liquid avoids crystallization and forms a glass. We show that, as temperature decreases, the single particle motion displays the canonical features seen in real glassforming liquids: the emergence of a "plateau" at intermediate times in the mean square displacement and a decoupling between the local relaxation time and the (hyperbolic) diffusion constant.

Keywords

glass transition confined fluids in porous media liquid water

Cite

@article{arxiv.0805.2819,
  title  = {Self-diffusion in a monatomic glassforming liquid embedded in the hyperbolic plane},
  author = {Francois Sausset and Gilles Tarjus},
  journal= {arXiv preprint arXiv:0805.2819},
  year   = {2008}
}

Comments

Article for the "11th International Workshop on Complex Systems"

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