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Nonextensive statistical mechanics for rotating quasi-two-dimensional turbulence

โœ Scribed by Sunghwan Jung; Brian D. Storey; Julien Aubert; Harry L. Swinney

Publisher
Elsevier Science
Year
2004
Tongue
English
Weight
199 KB
Volume
193
Category
Article
ISSN
0167-2789

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โœฆ Synopsis

We have conducted experiments on an asymmetrically forced quasi-two-dimensional turbulent flow in a rapidly rotating annulus. Assuming conservation of potential enstrophy and energy, we maximize a nonextensive entropy function to obtain the azimuthally averaged vorticity as a function of radial position. The predicted vorticity profile is in good accord with the observations. A nonextensive formalism is appropriate because long-range correlations between small-scale vortices give rise to large coherent structures in the turbulence. We also derive probability distribution functions for the vorticity from both extensive and nonextensive entropies, and we find that the prediction from nonextensive theory is in better accord with experiment, especially in the tails of the distribution function. The nonextensive parameter q has the value 1.9 ยฑ 0.2.

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Nonextensivity in turbulence in rotating
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โœ Charles N Baroud; Harry L Swinney ๐Ÿ“‚ Article ๐Ÿ“… 2003 ๐Ÿ› Elsevier Science ๐ŸŒ English โš– 332 KB

Our experiments on turbulent flow in a rotating annulus yield probability distribution functions (PDFs) for velocity increments ฮดv( ), where is the separation between points. We fit these PDFs to a form derived for turbulent flows by Beck, who used the Tsallis nonextensive statistical mechanics form