Impulse distributions in dense granular flows: Signatures of large-scale spatial structures

A Ferguson; B Fisher; B Chakraborty

doi:10.1209/epl/i2003-10190-3

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Impulse distributions in dense granular flows: Signatures of large-scale spatial structures

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Impulse distributions in dense granular flows: Signatures of large-scale spatial structures

A Ferguson, B Fisher and B Chakraborty

Europhysics letters, Vol.66(2), pp.277-283

04/2004

DOI: https://doi.org/10.1209/epl/i2003-10190-3

Abstract

45.70.-n

81.05.Rm

83.10.Pp

We study the impulse distribution in a model of gravity-driven granular flow and show that changes in the distribution are correlated with the appearance of clusters of “frequently-colliding” particles. Our simulations show increasingly large linear clusters as the flow velocity decreases. The dissipative nature of the collisions leads to an increase of small-impulse events as the size of these clusters grow and can explain the observed changes in the impulse distribution as the flow rate decreases.

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Title: Impulse distributions in dense granular flows: Signatures of large-scale spatial structures
Creators: A Ferguson - Brandeis University
B Fisher - Brandeis University
B Chakraborty - Brandeis University
Publication Details: Europhysics letters, Vol.66(2), pp.277-283
Publisher: EDP Sciences
Number of pages: 7
Identifiers: 9924086279701921
Academic Unit: Martin A. Fisher School of Physics
Language: English
Resource Type: Journal article

Impulse distributions in dense granular flows: Signatures of large-scale spatial structures

Abstract

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