Improved ansatz for the direct correlation function in dilute nematic colloids

Abstract

We present an improved analytical ansatz for the colloid-nematic direct correlation function. This ansatz is more accurate than our earlier version, and yields numerical results that are very close to the true mean spherical approximation for dilute nematic colloids. Furthermore, the improved ansatz is valid for external fields of any strength. We examine the zero-field behavior of the colloid-colloid potential of mean force in light of the improved ansatz, and show that at zero field and large separations this function decays as R-5 and grows as Σ6, where Σ is the colloidal diameter. These dependencies are consistent with our earlier conclusions based on a less accurate version of the ansatz. As with the original ansatz, the improved version remains analytical and can be readily applied to a broad range of physically interesting systems. These include patterned and nonspherical colloids, colloids trapped at interfaces, and nematic fluids in confined geometries, e.g. in droplets.

Related Papers

• → Gradient Correlation Functions in Digital Image Correlation(2019)15 cited
• → Lagrangian-space Gaussian ansatz for the matter redshift-space power spectrum and correlation function(2020)1 cited
• → Correlation-function display and peak detection(1972)7 cited
• Analysis of Correlation Relationship in Dynamic Data from TT&C Ship-borne Trajectory Measurement Equipments(2008)
• → The nonlinear field equation of the three-point correlation function of galaxies(2022)