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Experimental Validation of a Nonextensive Scaling Law in Confined Granular Media.

Physical review letters (2015-12-20)
Gaël Combe, Vincent Richefeu, Marta Stasiak, Allbens P F Atman
ABSTRACT

In this Letter, we address the relationship between the statistical fluctuations of grain displacements for a full quasistatic plane shear experiment, and the corresponding anomalous diffusion exponent α. We experimentally validate a particular case of the Tsallis-Bukman scaling law, α=2/(3-q), where q is obtained by fitting the probability density function (PDF) of the displacement fluctuations with a q-Gaussian distribution, and the diffusion exponent is measured independently during the experiment. Applying an original technique, we are able to evince a transition from an anomalous diffusion regime to a Brownian behavior as a function of the length of the strain window used to calculate the displacements of the grains. The outstanding conformity of fitting curves to a massive amount of experimental data shows a clear broadening of the fluctuation PDFs as the length of the strain window decreases, and an increment in the value of the diffusion exponent-anomalous diffusion. Regardless of the size of the strain window considered in the measurements, we show that the Tsallis-Bukman scaling law remains valid, which is the first experimental verification of this relationship for a classical system at different diffusion regimes. We also note that the spatial correlations show marked similarities to the turbulence in fluids, a promising indication that this type of analysis can be used to explore the origins of the macroscopic friction in confined granular materials.

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Sigma-Aldrich
Diethoxymethane, 99.7%, contains 50-150 ppm BHT as stabilizer
Sigma-Aldrich
Formaldehyde diethyl acetal, absolute, over molecular sieve (H2O ≤0.01%), ≥99.0% (GC)