English

Universal hydrodynamic mechanisms for crystallization in active colloidal suspensions

Soft Condensed Matter 2016-11-24 v2

Abstract

The lack of detailed balance in active colloidal suspensions allows dissipation to determine stationary states. Here we show that slow viscous flow produced by polar or apolar active colloids near plane walls mediates attractive hydrodynamic forces that drive crystallization. Hydrodynamically mediated torques tend to destabilize the crystal but stability can be regained through critical amounts of bottom-heaviness or chiral activity. Numerical simulations show that crystallization is not nucleational, as in equilibrium, but is preceded by a spinodal-like instability. Harmonic excitations of the active crystal relax diffusively but the normal modes are distinct from an equilibrium colloidal crystal. The hydrodynamic mechanisms presented here are universal and rationalize recent experiments on the crystallization of active colloids.

Keywords

Cite

@article{arxiv.1610.06528,
  title  = {Universal hydrodynamic mechanisms for crystallization in active colloidal suspensions},
  author = {Rajesh Singh and R. Adhikari},
  journal= {arXiv preprint arXiv:1610.06528},
  year   = {2016}
}

Comments

added the published version; supplemental movies at https://goo.gl/QpBaHC

R2 v1 2026-06-22T16:27:00.089Z