On the rigidity of a hard sphere glass near random close packing

Carolina Brito; Matthieu Wyart

arXiv:cond-mat/0512197·cond-mat.soft·May 23, 2007

On the rigidity of a hard sphere glass near random close packing

Carolina Brito, Matthieu Wyart

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Abstract

We study theoretically and numerically the microscopic cause of the mechanical stability of hard sphere glasses near their maximum packing. We show that, after coarse-graining over time, the hard sphere interaction can be described by an effective potential which is exactly logarithmic at the random close packing $ϕ_{c}$ . This allows to define normal modes, and to apply recent results valid for elastic networks: mechanical stability is a non-local property of the packing geometry, and is characterized by some length scale $l^{*}$ which diverges at $ϕ_{c}$ [1, 2]. We compute the scaling of the bulk and shear moduli near $ϕ_{c}$ , and speculate on the possible implications of these results for the glass transition.

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