Inhomogeneous hard-sphere mixtures: Manifestations of structural crossover

TL;DR

This paper investigates structural crossover phenomena in binary hard-sphere mixtures, demonstrating how correlation decay behaviors change with composition and showing evidence through theory and simulations that these effects persist in higher dimensions and polydisperse systems.

Contribution

The study reveals the manifestation of structural crossover in various properties of hard-sphere mixtures using density functional theory and simulations, extending understanding to polydisperse and higher-dimensional systems.

Findings

Crossover line in phase diagram determines oscillatory decay of correlation functions.

Structural crossover affects density profiles, depletion potentials, and solvation forces.

Evidence of crossover in 2D mixtures and implications for colloidal systems.

Abstract

We study various manifestations of structural crossover in the properties of a binary mixture of hard-spheres. For homogeneous mixtures that are sufficiently asymmetric, there is a crossover line in the phase diagram such that for thermodynamic states that lie on one side, the decay of the three bulk pair correlation functions is oscillatory with a common wavelength approximately equal to the diameter of the smaller spheres, and for states on the other side, the common wavelength is approximately the diameter of the bigger spheres. Using density functional theory we show that structural crossover manifests itself in the intermediate range decay of i) the one-body density profiles of a hard-sphere mixture adsorbed at planar walls, ii) the effective (depletion) potential between two big hard-spheres immersed in the same binary mixture and iii) the solvation force, or excess pressure, of the same mixture confined between two planar hard-walls. We determine exactly the structural crossover line for a one-dimensional binary mixture of hard-rods and present evidence, based on density functional theory calculations and Monte-Carlo simulations, for structural crossover in homogeneous binary mixtures of hard-disks in two dimensions. By considering a multicomponent mixture of hard-spheres, with an appropriate bimodal distribution of diameters, we argue that structural crossover should still occur in the presence of polydispersity and that our results could be relevant to colloidal mixtures where correlation functions can be measured using real-space techniques.