On measuring colloidal volume fractions
Abstract
Hard-sphere colloids are popular as models for testing fundamental theories in condensed matter and statistical physics, from crystal nucleation to the glass transition. A single parameter, the volume fraction (phi), characterizes an ideal, monodisperse hard-sphere suspension. In comparing experiments with theories and simulation, researchers to date have paid little attention to likely uncertainties in experimentally-quoted phi values. We critically review the experimental measurement of phi in hard-sphere colloids, and show that while statistical uncertainties in comparing relative values of phi can be as low as 0.0001, systematic errors of 3-6% are probably unavoidable. The consequences of this are illustrated by way of a case study comparing literature data sets on hard-sphere viscosity and diffusion.
Keywords
Cite
@article{arxiv.1106.2566,
title = {On measuring colloidal volume fractions},
author = {Wilson C. K. Poon and Eric R. Weeks and C. Patrick Royall},
journal= {arXiv preprint arXiv:1106.2566},
year = {2017}
}
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11 pages