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A simple effective rule to estimate the jamming packing fraction of polydisperse hard spheres (1402.3443v2)

Published 14 Feb 2014 in cond-mat.stat-mech, cond-mat.mtrl-sci, cond-mat.soft, and physics.chem-ph

Abstract: A recent proposal in which the equation of state of a polydisperse hard-sphere mixture is mapped onto that of the one-component fluid is extrapolated beyond the freezing point to estimate the jamming packing fraction $\phi_\text{J}$ of the polydisperse system as a simple function of $M_1M_3/M_22$, where $M_k$ is the $k$th moment of the size distribution. An analysis of experimental and simulation data of $\phi_\text{J}$ for a large number of different mixtures shows a remarkable general agreement with the theoretical estimate. To give extra support to the procedure, simulation data for seventeen mixtures in the high-density region are used to infer the equation of state of the pure hard-sphere system in the metastable region. An excellent collapse of the inferred curves up to the glass transition and a significant narrowing of the different out-of-equilibrium glass branches all the way to jamming are observed. Thus, the present approach provides an extremely simple criterion to unify in a common framework and to give coherence to data coming from very different polydisperse hard-sphere mixtures.

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