Abstract
Variants of the Voronoi construction, commonly applied to divide space, are analysed for quasi-two-dimensional hard sphere systems. Configurations are constructed from a polydisperse lognormal distribution of sphere radii, mimicking recent experimental investigations. In addition, experimental conditions are replicated where spheres lie on a surface such that their respective centres do not occupy a single plane. Significantly, we demonstrate that using an unweighted (no dependence on sphere size) two-dimensional Voronoi construction (in which the sphere centres are simply projected onto a single plane) is topologically equivalent to taking the lowest horizontal section through a three-dimensional construction in which the division of space is weighted in terms of sphere size. The problem is then generalised by considering the tessellations formed from horizontal sections through the three-dimensional construction at arbitrary cut height above the basal plane. This further suggests a definition of the commonly-applied packing fraction which avoids the counter-intuitive possibility of it becoming greater than unity. Key network and Voronoi cell properties (the fraction of six-membered rings, assortativity and cell height) and are analysed as a function of separation from the basal plane and the limits discussed. Finally, practical conclusions are drawn of direct relevance to on-going experimental investigations.
Highlights
Variants of the Voronoi construction, commonly applied to divide space, are analysed for quasi-two-dimensional hard sphere systems
We demonstrate that using an unweighted two-dimensional Voronoi construction is topologically equivalent to taking the lowest horizontal section through a threedimensional construction in which the division of space is weighted in terms of sphere size
In this work we have explored the relationships between various tessellations in quasi2D hard sphere systems of direct significance to on-going experimental investigations
Summary
In this work we consider a system of polydisperse hard spheres sedimented onto a surface, such that all spheres share a common basal tangent plane. We will further assume that the radii, Ri, of the spheres follow a lognormal distribution:. 2σ2 where as usual μ and σ are respectively the mean and standard deviation of the logarithm of the radii. This distribution is chosen to ensure the radii of randomly generated spheres are always positive. While this does not affect the fundamental conclusions of the Voronoi analysis, it will help quantify properties of the system such as the packing fraction
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