Monte Carlo simulations of in-plane stacking disorder in hard-sphere crystals
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Publication date
2008
Authors
Miedema, Piter S.
de Villeneuve, V.W.A.
Petukhov, A.V.
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Abstract
On-lattice Monte Carlo simulations of colloidal random-stacking hard-sphere colloidal crystals are presented. The model yields close-packed crystals with random-stacking hexagonal structure. We find a significant amount of in-plane stacking disorder, which slowly anneals in the course of the simulation. The in-plane stacking disorder leads to lateral broadening of the stacking-disorder-induced Bragg rods. It is found that not only the scattering intensity, but also the width is modulated along the Bragg rods.
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Miedema, P S, de Villeneuve, V W A & Petukhov, A V 2008, 'Monte Carlo simulations of in-plane stacking disorder in hard-sphere crystals', Physical Review. E, Statistical, nonlinear, and soft matter physics, vol. 77, no. 1, pp. 010401-1-010401-4.