Surface properties of liquid mercury: a comparison of density-dependent and density-independent force fields
- Resource Type
- Working Paper
- Authors
- Iakovlev, A.; Bedrov, D.; Müller, M.
- Source
- Subject
- Condensed Matter - Soft Condensed Matter
- Language
Motivated by an experimental interest we investigate by the means of atomistic Molecular Dynamics simulation the ability of density-independent, empiric density-dependent, and recently proposed embedded-atom force fields for liquid mercury to predict the surface tension of the free surface of liquid mercury at the temperature of 293~K. The effect of the density dependence of the studied models on the liquid-vapor coexistence and surface tension is discussed in detail. In view of computational efficiency of the density-independent model we optimize its functional form to obtain higher surface tension values in order to improve agreement with experiment. The results are also corroborated by Monte Carlo simulations and semi-analytic estimations of the liquid-vapor coexistence density.