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Science 28 January 2000:
Vol. 287. no. 5453, pp. 627 - 631
DOI: 10.1126/science.287.5453.627
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Reports
Three-Dimensional Direct Imaging of Structural Relaxation Near the Colloidal Glass Transition
Eric R. Weeks,
1*
J. C. Crocker,
2
Andrew C. Levitt,
2
Andrew Schofield,
3
D. A. Weitz
1
Confocal microscopy was used to directly observe
three-dimensional dynamics of particles in colloidal supercooled fluids
and colloidal glasses. The fastest particles moved cooperatively; connected clusters of these mobile particles could be identified; and
the cluster size distribution, structure, and dynamics were investigated. The characteristic cluster size grew markedly in the
supercooled fluid as the glass transition was approached, in agreement
with computer simulations; at the glass transition, however, there was
a sudden drop in their size. The clusters of fast-moving particles were
largest near the  -relaxation time scale for supercooled colloidal
fluids, but were also present, albeit with a markedly different nature,
at shorter  -relaxation time scales, in both supercooled fluid and
glass colloidal phases.
1 Department of Physics and Division of
Engineering and Applied Sciences, Harvard University, Cambridge, MA
02138, USA.
2 Department of Physics and Astronomy,
University of Pennsylvania, Philadelphia, PA 19104, USA.
3 Department of Physics and Astronomy, University of
Edinburgh, Edinburgh, Scotland EH9 3JZ, UK.
*
To whom correspondence should be addressed. E-mail:
weeks{at}deas.harvard.edu
Read the Full Text
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