Mesoskopische Hydrodynamik II

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<setdata> date=t.b.a. topic=Mesoskopische Hydrodynamik II: Soft Particle Methods speaker= tutor=Fatemeh Tabatabaei </setdata>

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Literatur

1."Mesoscopic simulations of electrohydrodynamic phenomena", Jens Smiatek, "PhD thesis", Universität Bielefeld (March 2009)

2. "Lattice Boltzmann Simulations of Soft Matter Systems" , B. Dünweg and A. J. C. Ladd, Advanced Computer Simulation Approaches for Soft Matter Sciences III, Series: Adv Polym Sci. Holm, Christian; Kremer, Kurt (Eds.) Vol. 221, (2009)

3."Multi-Particle Collision Dynamics: A Particle-Based Mesoscale Simulation Approach to the Hydrodynamics of Complex Fluids", G. Gompper, T. Ihle, D.M. Kroll, and R.G.Winkler, Advanced Computer Simulation Approaches for Soft Matter Sciences III, Adv Polym Sci. Holm, Christian; Kremer, Kurt (Eds.) Vol. 221, (2009)


To read and know more:

4. "Particle-based mesoscale hydrodynamic techniques" H. Noguchi, , N. Kikuchi and G. Gompper, EPL 78 10005 (5pp), (2007)


5. "Dissipative particle dynamics: Bridging the gap between atomistic and mesoscopic simulation", R. D. Groot and P. B. Warren, J. Chem. Phys. 107, 4423 (1997)


6. "Simulation studies of soft matter: generic statistical properties and chemical details", K. Kremer, Eur. Phys. J. B 64, 525–529 (2008).

Gliederungsvorschlag

1. Introduction
Brownian Dynamics simulation, Mescopic simulation methods, coarse graining, Mostly used mesocopic simulation methods
2. Dissipative Particles Dynamics (DPD)
Basics of the method, Integration algorithm schemes, Hydrodynamic Interactions implemented
3. Multi-particle collision Dynamics (MPC)
Basics of the methods, Integration schemes, comparing of the two methods DPD and MPC
4. Applications
Describing one -two systems that is investigated using these two methods, advantages and disadvantages

Voraussetzungen

Statistical Mechanics

To be familiar with: Brownian Dynamics, Molecular Dynamics