Statistical Topology of Cellular Networks in Two and Three Dimensions
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Abstract
Cellular networks may be found in a variety of natural contexts, from soap foams to biological tissues to grain boundaries in a polycrystal, and the characterization of these structures is therefore a subject of interest to a range of disciplines. An approach to describe the topology of a cellular network in two and three dimensions is presented. This allows for the quantification of a variety of features of the cellular network, including a quantification of topological disorder and a robust measure of the statistical similarity or difference of a set of structures. The results of this analysis are presented for numerous simulated systems including the Poisson-Voronoi and the steady-state grain growth structures in two and three dimensions.
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Mason, J. K., Lazar, E. A., MacPherson, R. D., & Srolovitz, D. J. (2012). Statistical topology of cellular networks in two and three dimensions. Physical Review E, 86(5), 051128. doi: http://dx.doi.org/10.1103/PhysRevE.86.051128 ©2012 American Physical Society