English

Solvation force for long ranged wall-fluid potentials

Statistical Mechanics 2007-05-23 v1

Abstract

The solvation force of a simple fluid confined between identical planar walls is studied in two model systems with short ranged fluid-fluid interactions and long ranged wall-fluid potentials decaying as Azp,z-Az^{-p}, z\to \infty, for various values of pp. Results for the Ising spins system are obtained in two dimensions at vanishing bulk magnetic field h=0h=0 by means of the density-matrix renormalization-group method; results for the truncated Lennard-Jones (LJ) fluid are obtained within the nonlocal density functional theory. At low temperatures the solvation force fsolvf_{solv} for the Ising film is repulsive and decays for large wall separations LL in the same fashion as the boundary field fsolvLpf_{solv}\sim L^{-p}, whereas for temperatures larger than the bulk critical temperature fsolvf_{solv} is attractive and the asymptotic decay is fsolvL(p+1)f_{solv}\sim L^{-(p+1)}. For the LJ fluid system fsolvf_{solv} is always repulsive away from the critical region and decays for large LL with the the same power law as the wall-fluid potential. We discuss the influence of the critical Casimir effect and of capillary condensation on the behaviour of the solvation force.

Cite

@article{arxiv.cond-mat/0310143,
  title  = {Solvation force for long ranged wall-fluid potentials},
  author = {A. Maciolek and A. Drzewinski and P. Bryk},
  journal= {arXiv preprint arXiv:cond-mat/0310143},
  year   = {2007}
}

Comments

48 pages, 12 figures