Universal L−3 finite-size effects in the viscoelasticity of amorphous systems
Entidad
UAM. Departamento de Física TeóricaEditor
American Physical SocietyFecha de edición
2021-03-05Cita
10.1103/PhysRevMaterials.5.035602
Physical Review Materials 5.3 (2021): 035602
ISSN
2475-9953DOI
10.1103/PhysRevMaterials.5.035602Proyecto
Gobierno de España. SEV-2012-0249Versión del editor
https://doi.org/10.1103/PhysRevMaterials.5.035602Materias
Amorphous Systems; Approximate Analysis; Experimental System; Finite Sample Sizes; Finite Size Effect; Granular Packings; Shear Storage Modulus; Spatial Dimension; FísicaDerechos
© 2021 American Physical Society.Resumen
We present a theory of viscoelasticity of amorphous media, which takes into account the effects of confinement along one of three spatial dimensions. The framework is based on the nonaffine extension of lattice dynamics to amorphous systems, or nonaffine response theory. The size effects due to the confinement are taken into account via the nonaffine part of the shear storage modulus G' . The nonaffine contribution is written as a sum over modes in k-space. With a rigorous argument based on the analysis of the k-space integral over modes, it is shown that the confinement size L in one spatial dimension, e.g., the z axis, leads to a infrared cutoff for the modes contributing to the nonaffine (softening) correction to the modulus that scales as L−3. Corrections for finite sample size D in the two perpendicular dimensions scale as ∼ (L/D)4, and are negligible for L << D. For liquids it is predicted that G' ∼ L−3 is in agreement with a previous more approximate analysis, whereas for amorphous materials G' ∼ G' bulk + βL−3. For the case of liquids, four different experimental systems are shown to be very well described by the L−3 law. The theory can also explain previous simulation data of confined jammed granular packings
Lista de ficheros
Google Scholar:Phillips, Anthony E.
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Baggioli, Matteo
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Sirk, Timothy W.
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Trachenko, Kostya
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Zaccone, Alessio
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