English

Hydrodynamic synchronization of externally driven colloids

Soft Condensed Matter 2018-04-04 v1

Abstract

The collective dynamics of externally driven NpN_{\rm p}-colloidal systems (1Np41\le N_{\rm p}\le 4) in a confined viscous fluid have been investigated using three-dimensional direct numerical simulations with fully resolved hydrodynamics. The dynamical modes of collective particle motion are studied by changing the particle Reynolds number {as determined by the strength of the external driving force} and the confining wall distance. For a system with Np=3N_{\rm p}= 3, we found that at a critical Reynolds number, a dynamical mode transition occurs from the doublet-singlet mode to the triplet mode, which has not been reported experimentally. The dynamical mode transition was analyzed in detail from the following two viewpoints: (1) spectrum analysis of the time evolution of a tagged particle velocity and (2) the relative acceleration of the doublet cluster with respect to the singlet particle. For a system with Np=4N_{\rm p}=4, we found similar dynamical mode transitions from the doublet-singlet-singlet mode to the triplet-singlet mode and further to the quartet mode.

Keywords

Cite

@article{arxiv.1710.07733,
  title  = {Hydrodynamic synchronization of externally driven colloids},
  author = {Norihiro Oyama and Kosuke Teshigawara and John Jairo Molina and Ryoichi Yamamoto and Takashi Taniguchi},
  journal= {arXiv preprint arXiv:1710.07733},
  year   = {2018}
}

Comments

12 pages, 12 figures

R2 v1 2026-06-22T22:21:07.000Z