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Effects of boundaries on structure formation in low-dimensional colloid model systems near the liquid-solid-transition in equilibrium and in external fields and under shear

Effects of boundaries on structure formation in low-dimensional colloid model systems near the liquid-solid-transition in equilibrium and in external fields and under shear

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DEUTSCHLÄNDER, Sven, Kerstin FRANZRAHE, Birte HEINZE, Peter HENSELER, Peter KEIM, Nadine SCHWIERZ, Ullrich SIEMS, Peter VIRNAU, Dorothea WILMS, Kurt BINDER, Georg MARET, Peter NIELABA, 2013. Effects of boundaries on structure formation in low-dimensional colloid model systems near the liquid-solid-transition in equilibrium and in external fields and under shear. In: The European Physical Journal Special Topics. 222(11), pp. 2973-2993. ISSN 1951-6355. eISSN 1951-6401

@article{Deutschlander2013Effec-25276, title={Effects of boundaries on structure formation in low-dimensional colloid model systems near the liquid-solid-transition in equilibrium and in external fields and under shear}, year={2013}, doi={10.1140/epjst/e2013-02070-3}, number={11}, volume={222}, issn={1951-6355}, journal={The European Physical Journal Special Topics}, pages={2973--2993}, author={Deutschländer, Sven and Franzrahe, Kerstin and Heinze, Birte and Henseler, Peter and Keim, Peter and Schwierz, Nadine and Siems, Ullrich and Virnau, Peter and Wilms, Dorothea and Binder, Kurt and Maret, Georg and Nielaba, Peter} }

Schwierz, Nadine Deutschländer, Sven Siems, Ullrich Henseler, Peter 2013-12-04T10:51:36Z Binder, Kurt Binder, Kurt Heinze, Birte Maret, Georg Virnau, Peter 2013 Effects of boundaries on structure formation in low-dimensional colloid model systems near the liquid-solid-transition in equilibrium and in external fields and under shear Deutschländer, Sven Virnau, Peter Heinze, Birte Schwierz, Nadine Franzrahe, Kerstin Franzrahe, Kerstin eng Keim, Peter 2013-12-04T10:51:36Z Henseler, Peter Nielaba, Peter European Physics Journal Special Topics ; 222 (2013), 11. - S. 2973-2993 Wilms, Dorothea deposit-license Nielaba, Peter Siems, Ullrich Maret, Georg A brief review focusing on low-dimensional colloidal model systems is given describing both simulation studies and complementary experiments, elucidating the interplay between phase behavior, geometric structures, and transport phenomena. These studies address the response of these very soft colloidal systems to perturbations such as uniform or uniaxial compression, laser fields, randomly quenched disorder, and shear deformation caused by moving boundaries.<br />Binary hard-disk mixtures are studied by Monte Carlo simulation, to investigate ordering on surfaces or in monolayers, modeling the effect of a substrate by an external potential. By weak external laser fields the miscibility of the mixture can be controlled, and the underlying mechanism (laser-induced demixing) is clarified. The stability of various space-filling structures is discussed only for the case where no laser fields are present.Hard spheres interacting with repulsive screened Coulomb or dipolar interaction confined in 2D and 3D narrow constrictions are investigated by Brownian Dynamics simulation. With respect to the structural behavior, it is found that layers or planes throughout the microchannel are formed. The arrangement of the particles is disturbed by diffusion, and can also be modified by an external driving force causing a density gradient along the channel. Then the number of layers or planes gets reduced, adjusting to the density gradient, and this self-organized change of order also shows up in the particle velocities.<br />The experimental work that is reviewed here addresses dipolar colloidal particles confined by gravity on a solid substrate on which a set of pinning sites has been randomly distributed. The dynamics of the system is studied by tracking the trajectories of individual particles, and it is found that the mean square displacements of particles that are nearest neighbors of pinned particles are strongly affected by these defects. The influence of the pinning sites on the order and microscopic mechanism of phase transitions in two dimensions is investigated. Wilms, Dorothea Keim, Peter

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