Surface coupling effect on wetting and layering transitions
Abstract
The effect of the surface coupling on the dependency of the layering transition temperature as a function of the thickness , of a spin-1/2 Ising film, is studied using the mean field theory. It is found that for greater than a critical value (), the layering transition temperature decreases when the film thickness increases for any values of the surface magnetic field . While, for , the behaviour of the layering transition temperature , as a function of , depends strongly on the values of . Indeed, we show the existence of three distinct behaviours of , as a function of the film thickness , separated by two critical surface magnetic fields and , namely: for , increases with ; for , increases for small values of , and decreases for large value ones; (iii) while for , decreases with increasing the film thickness. Furthermore, depending on the values of , the wetting temperature when for a given material), can be greater or smaller than the layering transition temperature of a film of thickness of the same material.
Cite
@article{arxiv.cond-mat/0209010,
title = {Surface coupling effect on wetting and layering transitions},
author = {L. Bahmad and A. Benyoussef and H. Ez-Zahraouy},
journal= {arXiv preprint arXiv:cond-mat/0209010},
year = {2009}
}
Comments
9 pages Latex, 6 figures PS