Diffusion in Jammed Particle Packs

Using random walk simulations we explore diffusive transport through monodisperse sphere packings over a range of packing fractions Φ in the vicinity of the jamming transition at Φc. Various diffusion properties are computed over several orders of magnitude in both time and packing pressure. Two wel...

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Bibliographic Details
Published in:Physical review letters 2015-08, Vol.115 (8)
Main Authors: Bolintineanu, Dan Stefan, Grest, Gary S., Lechman, Jeremy B., Silbert, Leonardo E.
Format: Article
Language:English
Subjects:
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
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Summary:Using random walk simulations we explore diffusive transport through monodisperse sphere packings over a range of packing fractions Φ in the vicinity of the jamming transition at Φc. Various diffusion properties are computed over several orders of magnitude in both time and packing pressure. Two well-separated regimes of normal “Fickian” diffusion, where the mean squared displacement is linear in time, are observed. The first corresponds to diffusion inside individual spheres, while the latter is the long-time bulk diffusion. The intermediate anomalous diffusion regime and the long-time value of the diffusion coefficient are both shown to be controlled by particle contacts, which in turn depend on proximity to Φc. The time required to recover normal diffusion t* scales as (Φ–Φc)–0.5 and the long-time diffusivity D∞~(Φ–Φc)0.5, or D∞~1/t*. Here, it is shown that the distribution of mean first passage times associated with the escape of random walkers between neighboring particles controls both t* and D∞ in the limit Φ→Φc.
ISSN:0031-9007
1079-7114