Drying layer near a weakly attractive surface
摘要
Depletion of the liquid density near a solid surface with a weak long-range fluid-surface interaction was studied by computer simulations of the liquid-vapor coexistence of a LJ fluid confined in slitlike pores. In a wide temperature range the liquid density decreases towards the surface without the formation of a {\it vapor} layer between the liquid and the solid surface. This evidences the absence of a drying transition up to the liquid-vapor critical point. Two contributions to the excess desorption {\it } were found. The first one {\it } exists at any temperature and diverges as the bulk correlation length when approaching the liquid-vapor critical temperature {\it {T}}. The second contribution {\it } {\it L} originates from a microscopic {\it drying layer} near the solid boundary. At high temperatures the thickness {\it L} of the drying layer increases in accordance with the power law {\it L - ln (1-T/T)}, indicating a drying transition at {\it {T}}. The {\it drying layer} can be suppressed by strengthening the fluid-surface interaction, by increasing the fluid-surface interaction range or by decreasing the pore size.
引用
@article{arxiv.cond-mat/0506659,
title = {Drying layer near a weakly attractive surface},
author = {A. Oleinikova and I. Brovchenko and A. Geiger},
journal= {arXiv preprint arXiv:cond-mat/0506659},
year = {2015}
}
备注
24 pages, 15 figures