Issue 1, 2013

Phonon gap and localization lengths in floppy materials

Abstract

Gels of semi-flexible polymers, network glasses made of low valence elements, softly compressed ellipsoid particles and dense suspensions under flow are examples of floppy materials. These systems present collective motions with almost no restoring force. To study theoretically and numerically the frequency-dependence of the response of these materials and the length scales that characterize their elasticity, we use a model of isotropic floppy elastic networks. We show that such networks present a phonon gap for frequencies smaller than a frequency ω* governed by coordination, and that the elastic response is characterized, and in some cases localized, on a length scale Image ID:c2sm25878a-t5.gif that diverges as the phonon gap vanishes (with a logarithmic correction in the two dimensional case). lc also characterizes velocity correlations under shear, whereas another length scale l* ∼ 1/ω* controls the effect of pinning boundaries on elasticity. We discuss the implications of our findings for suspension flows, and the correspondence between floppy materials and amorphous solids near unjamming, where lc and l* have also been identified but where their roles are not fully understood.

Graphical abstract: Phonon gap and localization lengths in floppy materials

Article information

Article type
Paper
Submitted
16 Apr 2012
Accepted
14 Sep 2012
First published
15 Oct 2012

Soft Matter, 2013,9, 146-154

Phonon gap and localization lengths in floppy materials

G. Düring, E. Lerner and M. Wyart, Soft Matter, 2013, 9, 146 DOI: 10.1039/C2SM25878A

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