Coherent crystallography of shear-aligned crystals of hard-sphere colloids

Citation:

Liu, J. ; Weitz, D. A. ; Ackerson, B. J. Coherent crystallography of shear-aligned crystals of hard-sphere colloids. Physical Review E 1993, 48, 1106-1114. Copy at http://www.tinyurl.com/yyphlao7
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Abstract:

The structure of colloidal crystals formed from suspensions of hard-sphere colloids is studied. The samples are contained in a thin cell. By rocking the samples, we are able to form shear-aligned colloidal crystals with extended, long-range order. The aligned crystals persist after the shear ceases, enabling us to use laser-light crystallography to determine their structure. We observe an unusual ordering, wherein the structure is a nearly perfect single twin of a face-centered cubic crystal, with crystals of different twins formed on each side of the cell. We exploit the coherence of the laser source to observe a speckle-like fluctuation of the intensity in the Bragg peaks. However, this fluctuation occurs only in one scattering direction, and therefore reflects a remnant disorder in the stacking of the hcp planes. We introduce a simple model which accounts for both the nature of the disorder in the stacking as well as the specklelike fluctuations. Our observation of this speckle also confirms recent predictions.

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Last updated on 06/14/2021