Excess free energy of supercooled liquids at disordered walls
arXiv:1410.5403 · doi:10.1103/PhysRevE.90.060101
Abstract
Using a novel thermodynamic integration scheme, we compute the excess free energy, $γ$, of a glass-forming, binary Lennard-Jones liquid in contact with a frozen amorphous wall, formed by particles frozen into a similar structure as the liquid. We find that $γ$ is non-zero, becoming negative at low temperature. This indicates that the thermodynamics of the system is perturbed by the effect of the amorphous wall.
4 pages, 4 figures, References corrected