English

Phonon gap and localization lengths in floppy materials

Statistical Mechanics 2014-03-21 v2 Soft Condensed Matter

Abstract

Gels of semi-flexible polymers, network glasses made of low valence elements, softly compressed ellipses and dense suspensions under flow are examples of floppy materials. These systems present collective motions with almost no restoring force. We study theoretically and numerically the frequency-dependence of the response of these materials, and the length scales that characterize their elasticity. We show that isotropic floppy elastic networks present a phonon gap for frequencies smaller than a frequency ω\omega^* governed by coordination, and that the elastic response is localized on a length scale lc1/ωl_c\sim 1/\sqrt{\omega^*} that diverges as the phonon gap vanishes (with a logarithmic correction in the two dimensional case). lcl_c also characterizes velocity correlations under shear, whereas another length scale l1/ωl^*\sim 1/\omega^* characterizes the effect of pinning boundaries on elasticity. We discuss the implications of our findings for suspensions flows, and the correspondence between floppy materials and amorphous solids near unjamming, where lcl_c and ll^* have also been identified but where their roles are not fully understood.

Keywords

Cite

@article{arxiv.1204.3542,
  title  = {Phonon gap and localization lengths in floppy materials},
  author = {Gustavo Düring and Edan Lerner and Matthieu Wyart},
  journal= {arXiv preprint arXiv:1204.3542},
  year   = {2014}
}
R2 v1 2026-06-21T20:50:12.454Z