Dynamical Modes of Deformed Red Blood Cells and Lipid Vesicles in Flows(Frontiers in Nonequilibrium Physics-Fundamental Theory, Glassy & Granular Materials, and Computational Physics-)

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概要

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• Red blood cells and lipid vesicles exhibit rich behaivor in flows. Their dynamics were studied using a particle-based hydrodynamic simulation method, multi-particle collision dynamics. Rupture of lipid vesicles in simple shear flow was simulated by meshless membrane model. Several shape transitions of lipid vesicles and red blood cells are induced by flows. Transition of a lipid vesicle from budded to prolate shapes with increasing shear rate and ordered alignments of deformed elastic vesicles in high density are presented.

• 2010-07-27

著者

• NOGUCHI Hiroshi

  Institute for Solid State Physics, The University of Tokyo

• Noguchi Hiroshi

  Institute For Solid State Physics The University Of Tokyo

関連論文

• Dynamical Modes of Deformed Red Blood Cells and Lipid Vesicles in Flows(Frontiers in Nonequilibrium Physics-Fundamental Theory, Glassy & Granular Materials, and Computational Physics-)
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