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Polygon construction to investigate melting in two-dimensional strongly coupled dusty plasma
Journal article   Peer reviewed

Polygon construction to investigate melting in two-dimensional strongly coupled dusty plasma

W D Suranga Ruhunusiri, J Goree, Yan Feng and Bin Liu
Physical review. E, Statistical, nonlinear, and soft matter physics, Vol.83(6 Pt 2), pp.066402-066402
06/2011
DOI: 10.1103/PhysRevE.83.066402
PMID: 21797493

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Abstract

The polygon construction method of Glaser and Clark is used to characterize melting and crystallization in a two-dimensional (2D) strongly coupled dusty plasma. Using particle positions measured by video microscopy, bonds are identified by triangulation, and unusually long bonds are deleted. The resulting polygons have three or more sides. Geometrical defects, which are polygons with more than three sides, are found to proliferate during melting. Pentagons are found in liquids, where they tend to cluster with other pentagons. Quadrilaterals are a less severe defect, so that disorder can be characterized by the ratio of quadrilaterals to pentagons. This ratio is found to be less in a liquid than in a solid or a superheated solid. Another measure of disorder is the abundance of different kinds of vertices, according to the type of polygons that adjoin there. Unexpectedly, spikes are observed in the abundance of certain vertex types during rapid temperature changes. Hysteresis, revealed by a plot of a disorder parameter vs temperature, is examined to study sudden heating. The hysteresis diagram also reveals features suggesting a possibility of latent heat in the melting and rapid cooling processes.

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