English

Solid--on--Solid Model for Adsorption on Self--Affine Substrate: A Transfer Matrix Approach

Condensed Matter 2009-10-22 v1

Abstract

We study a d=2d=2 discrete solid--on--solid model of complete wetting of a rough substrate with random self--affine boundary, having roughness exponent ζs\zeta_s. A suitable transfer matrix approach allows to discuss adsorption isotherms, as well as geometrical and thermal fluctuations of the interface. For ζs1/2\zeta_s\leq 1/2 the same wetting exponent ψ=1/3\psi=1/3 as for flat substrate is obtained for the dependence of the coverage, θ\theta, on the chemical potential, hh (θhψ\theta\sim h^{-\psi} for h0h\to 0). The expected existence of a zero temperature fixed point, leading to ψ=ζs/(2ζs)\psi=\zeta_s /(2-\zeta_s) for ζs>1/2\zeta_s>1/2, is verified numerically in spite of an unexpected, very slow convergence to asymptotics.

Keywords

Cite

@article{arxiv.cond-mat/9407063,
  title  = {Solid--on--Solid Model for Adsorption on Self--Affine Substrate: A Transfer Matrix Approach},
  author = {G. Giugliarelli and A. L. Stella},
  journal= {arXiv preprint arXiv:cond-mat/9407063},
  year   = {2009}
}

Comments

Standard TeX, 13 pages. 5 PostScript figures available on request. Preprint UDPHIR 94/04/GG