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Literature DB >> 27176397

Purely hydrodynamic origin for swarming of swimming particles.

Norihiro Oyama¹, John Jairo Molina¹, Ryoichi Yamamoto¹.

Abstract

Three-dimensional simulations with fully resolved hydrodynamics are performed to study the collective motion of model swimmers in bulk and confinement. Calculating the dynamic structure factor, we clarified that the swarming in bulk systems can be understood as a pseudoacoustic mode. Under confinement between flat parallel walls, this pseudoacoustic mode leads to a traveling wavelike motion. This swarming behavior is due purely to the hydrodynamic interactions between the swimmers and depends strongly on the type and strength of swimming (i.e., pusher or puller).

Year: 2016 PMID： 27176397 DOI： 10.1103/PhysRevE.93.043114

Source DB: PubMed Journal: Phys Rev E ISSN： 2470-0045 Impact factor: 2.529

Keyword Cloud
Cited

7 in total

Purely hydrodynamic origin for swarming of swimming particles.

1. Do hydrodynamically assisted binary collisions lead to orientational ordering of microswimmers?

2. Simulating squirmers with multiparticle collision dynamics.

3. Collective Dynamics of Model Pili-Based Twitcher-Mode Bacilliforms.

4. Pair Interaction of Catalytical Sphere Dimers in Chemically Active Media.

5. Prediction and classification in equation-free collective motion dynamics.

6. Simple dynamics underlying the survival behaviors of ciliates.

7. Hydrodynamic Clustering of Human Sperm in Viscoelastic Fluids.