Revealing the Structure of a Granular Medium through Ballistic Sound Propagation | Zendy

Sébastien Lherminier | Zendy; Ramon Planet | Zendy; G. W. Simon | Zendy; Loïc Vanel | Zendy; O. Ramos | Zendy

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Revealing the Structure of a Granular Medium through Ballistic Sound Propagation

Author(s) -

Sébastien Lherminier,

Ramon Planet,

G. W. Simon,

Loïc Vanel,

O. Ramos

Publication year - 2014

Publication title -

physical review letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.688

H-Index - 673

eISSN - 1079-7114

pISSN - 0031-9007

DOI - 10.1103/physrevlett.113.098001

Subject(s) - contact force , acoustic wave , acoustics , excitation , deformation (meteorology) , physics , signal (programming language) , granular material , acoustic emission , materials science , mechanics , classical mechanics , computer science , quantum mechanics , programming language , meteorology

We study the propagation of sound through a bidimensional granular medium consisting of photoelastic disks, which are packed into different crystalline and disordered structures. Acoustic sensors placed at the boundaries of the system capture the acoustic signal produced by a local and well-controlled mechanical excitation. By compressing the system, we find that the speed of the ballistic part of the acoustic wave behaves as a power law of the applied force with both exponent and prefactor sensitive to the internal geometry of the contact network. This information, which we are able to link to the force-deformation relation of single grains under different contact geometries, provides enough information to reveal the structure of the granular medium.

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