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Contribution of Slow Clusters to the Bulk Elasticity Near the Colloidal Glass Transition

by: Jacinta C. Conrad, Param P. Dhillon, Eric R. Weeks, David R. Reichman, David A. Weitz
Physical Review Letters, Vol. 97, No. 26. (2006), 265701.

X Abstract

We use confocal microscopy to visualize individual particles near the colloidal glass transition. We identify the most slowly-relaxing particles and show that they form spatially correlated clusters that percolate across the sample. In supercooled fluids, the largest cluster spans the system on short time scales but breaks up on longer time scales. In contrast, in glasses, a percolating cluster exists on all accessible time scales. Using molecular dynamics simulation, we show that these clusters make the dominant contribution to the bulk elasticity of the sample.

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This article has been bookmarked 5 times, initially on 2007-08-15.

2009-02-26 User peteryunker
2008-03-19 User kkims
2007-11-12 User cgguido
2007-09-19 User weeks
2007-08-15 User kedmond , 1 note

they looked at slow-moving particles in eric's data

2007-08-15 17:27:47
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