"Reference hypernetted chain theory for ferrofluid bilayer: Distribution functions compared with Monte Carlo"

E.Polyakov, SPbGU, Physicsl Faculty, Dept. of Molecular Biophysics

Abstract:

"Properties of ferrofluid bilayer (modeled as a system of two planar layers separated by a distance h and each
layer carrying a soft sphere dipolar liquid) are calculated in the framework of inhomogeneous Ornstein-Zernike
equations with reference hypernetted chain closure (RHNC). The bridge functions are taken from a soft sphere
(1/r 12) reference system in the pressure-consistent closure approximation. In order to make the RHNC problem
tractable, the angular dependence of the correlation functions is expanded into special orthogonal polynomialsaccording
to Lado. The resulting equations are solved using the Newton-GRMES algorithm as implemented in the public-domain
solver NITSOL. Orientational densities and pair distribution functions of dipoles are compared with Monte Carlo
simulation results. A numerical algorithm for the Fourier-Hankel transform of any positive integer order on a
uniform grid is presented."