On Spectral Laws of 2D--Turbulence in Shell Models

1; 614061; Acad. Korolyov Str.; Perm; Peter Frick (Institute of Continuous Media Mechanics; P.O. Box 6701; RUSSIA) Erik Aurell (Dept. of Mathematics; Russian Academy of Sciences; S--113 85 Stockholm; Sweden)

arxiv: chao-dyn/9307007 · v1 · submitted 1993-07-19 · chao-dyn · nlin.CD

On Spectral Laws of 2D--Turbulence in Shell Models

Peter Frick (Institute of Continuous Media Mechanics , Russian Academy of Sciences , 1 , Acad. Korolyov Str. , 614061 , Perm , RUSSIA) Erik Aurell (Dept. of Mathematics , University of Stockholm

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P.O. Box 6701 S--113 85 Stockholm Sweden)

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classification chao-dyn nlin.CD

keywords modelsshellspectrumenergyenstrophyinertiallyquadraticspectral

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We consider a class of shell models of 2D-turbulence. They conserve inertially the analogues of energy and enstrophy, two quadratic forms in the shell amplitudes. Inertially conserving two quadratic integrals leads to two spectral ranges. We study in detail the one characterized by a forward cascade of enstrophy and spectrum close to Kraichnan's $k^{-3}$--law. In an inertial range over more than 15 octaves, the spectrum falls off as $k^{-3.05\pm 0.01}$, with the same slope in all models. We identify a ``spurious'' intermittency effect, in that the energy spectrum over a rather wide interval adjoing the viscous cut-off, is well approximated by a power-law with fall-off significantly steeper than $k^{-3}$.

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On Spectral Laws of 2D--Turbulence in Shell Models

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