Universal Non-Debye Scaling in the Density of States of Amorphous Solids.

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2016-07-22

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Charbonneau, Patrick
Zamponi, Francesco

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Abstract

At the jamming transition, amorphous packings are known to display anomalous vibrational modes with a density of states (DOS) that remains constant at low frequency. The scaling of the DOS at higher packing fractions remains, however, unclear. One might expect to find a simple Debye scaling, but recent results from effective medium theory and the exact solution of mean-field models both predict an anomalous, non-Debye scaling. Being mean-field in nature, however, these solutions are only strictly valid in the limit of infinite spatial dimension, and it is unclear what value they have for finite-dimensional systems. Here, we study packings of soft spheres in dimensions 3 through 7 and find, away from jamming, a universal non-Debye scaling of the DOS that is consistent with the mean-field predictions. We also consider how the soft mode participation ratio evolves as dimension increases.

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Published Version (Please cite this version)

10.1103/PhysRevLett.117.045503

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Charbonneau, Patrick, Eric I Corwin, G Parisi, A Poncet and Francesco Zamponi (2016). Universal Non-Debye Scaling in the Density of States of Amorphous Solids. Phys Rev Lett, 117(4). p. 045503. 10.1103/PhysRevLett.117.045503 Retrieved from https://hdl.handle.net/10161/12623.

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