Issue 22, 2015

Statistics of non-affine defect precursors: tailoring defect densities in colloidal crystals using external fields

Abstract

Coarse-graining atomic displacements in a solid produces both local affine strains and “non-affine” fluctuations. Here we study the equilibrium dynamics of these coarse grained quantities to obtain space-time dependent correlation functions. We show how a subset of these thermally excited, non-affine fluctuations act as precursors for the nucleation of lattice defects and suggest how defect probabilities may be altered by an experimentally realisable “external” field conjugate to the global non-affinity parameter. Our results are amenable to verification in experiments on colloidal crystals using commonly available holographic laser tweezer and video microscopy techniques, and may lead to simple ways of controlling the defect density of a colloidal solid.

Graphical abstract: Statistics of non-affine defect precursors: tailoring defect densities in colloidal crystals using external fields

Associated articles

Article information

Article type
Paper
Submitted
05 Feb 2015
Accepted
30 Apr 2015
First published
01 May 2015

Soft Matter, 2015,11, 4517-4526

Author version available

Statistics of non-affine defect precursors: tailoring defect densities in colloidal crystals using external fields

S. Ganguly, S. Sengupta and P. Sollich, Soft Matter, 2015, 11, 4517 DOI: 10.1039/C5SM00301F

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