English

Resolving long-range spatial correlations in jammed colloidal systems using photon correlation imaging

Soft Condensed Matter 2009-03-02 v3

Abstract

We introduce a new dynamic light scattering method, termed photon correlation imaging, which enables us to resolve the dynamics of soft matter in space and time. We demonstrate photon correlation imaging by investigating the slow dynamics of a quasi two-dimensional coarsening foam made of highly packed, deformable bubbles and a rigid gel network formed by dilute, attractive colloidal particles. We find the dynamics of both systems to be determined by intermittent rearrangement events. For the foam, the rearrangements extend over a few bubbles, but a small dynamical correlation is observed up to macroscopic length scales. For the gel, dynamical correlations extend up to the system size. These results indicate that dynamical correlations can be extremely long-ranged in jammed systems and point to the key role of mechanical properties in determining their nature.

Keywords

Cite

@article{arxiv.0810.2431,
  title  = {Resolving long-range spatial correlations in jammed colloidal systems using photon correlation imaging},
  author = {Agnes Duri and David A. Sessoms and Veronique Trappe and Luca Cipelletti},
  journal= {arXiv preprint arXiv:0810.2431},
  year   = {2009}
}

Comments

Published version (Phys. Rev. Lett. 102, 085702 (2009)) The Dynamical Activity Mapsprovided as Supplementary Online Material are also available on http://w3.lcvn.univ-montp2.fr/~lucacip/dam/movies.htm

R2 v1 2026-06-21T11:30:32.776Z