Dynamics of Colloidal Particles in Soft Matters
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概要
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We developed numerical methods for studying the dynamics of colloidal particles suspended in complex fluids. It is essential to employ a coarse-grained model for studying slow dynamics of these systems. Our methods are based on the “fluid particle dynamics (FPD)" method, which we have developed to deal with hydrodynamic interactions in colloidal systems in an efficient manner. We regard a solid particle as an undeformable fluid one. It has a viscosity much higher than the solvent, which smoothly changes to the solvent viscosity at the interface. This methods allows us to avoid troublesome boundary conditions to be satisfied on the surfaces of mobile particles. Since we express the spatial distribution of colloids as a continuum field, we can easily introduce the order parameter describing a complex solvent, e.g., ion distribution for charged colloids, director field for nematic liquid crystal, and concentration for phase-separating binary fluid. Then we solve coupled dynamic equations of three relevant parameters, i.e., particle positions, flow field, and the order parameter. We demonstrate a few examples of such simulations.
- 理論物理学刊行会の論文
- 2008-12-05
著者
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Tanaka Hajime
Institute of Industrial Science, University of Tokyo
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Araki Takeaki
Institute Of Industrial Science University Of Tokyo:(present Office)department Of Physics Kyoto Univ
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Araki Takeaki
Institute Of Industrail Science University Of Tokyo
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Tanaka Hajime
Institute Of Industrail Science University Of Tokyo
関連論文
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- 9. Study of the early stage of phase separation in polymer solutions(poster presentation,Soft Matter as Structured Materials)
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- 27pZD-7 Spontaneous hydrodynamic pairing of Brownian particles
- Effects of hydrodynamic interactions on a coil-globule transition of a single polymer(Poster session 2, New Frontiers in Colloidal Physics : A Bridge between Micro- and Macroscopic Concepts in Soft Matter)
- Relationship between dynamic heterogeneity and medium-range crystalline order
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