We show that the intermittent dynamics observed in the inertial interval of Sabra shell model of turbulence can be rigorously related to the property of scaling self-similarity. In this connection, the space-time scaling symmetries (like in the K41 theory) are replaced by the new hidden scaling symmetry, which is an exact symmetry of inviscid dynamics represented in special rescaled coordinates and times. We derive the formulas expressing anomalous scaling exponents in terms of Perron-Frobenius eigenvalues of linear operators based on the self-similar statistics. Theoretical conclusions are verified by extensive numerical simulations.Comment: 25 pages, 7 figure
We study a long-recognised but under-appreciated symmetry called dynamical similarity and illustrate...
Journal of Fluid Mechanics, 649, pp. 275-285 (2010)International audienceExtended self-similarity (E...
A recent paper [R. Benzi et al., Phys. Rev. E 48, R29 (1993)] concluded that the scaling of turbulen...
We consider general infinite-dimensional dynamical systems with the Galilean and spatiotemporal scal...
We discuss a stochastic closure for the equation of motion satisfied by multiscale correlation funct...
We discuss a stochastic closure for the equation of motion satisfied by multiscale correlation funct...
We introduce a model for the turbulent energy cascade aimed at studying the effect of dynamical scal...
We discuss on an example a general mechanism of apparition of anomalous scaling in scale invariant s...
A scaling hypothesis leading to generalized extended self-similarity (GESS) for velocity structure f...
We review some recent work on scaling laws in turbulence. The Navier-Stokes equations and the equati...
The inertial subrange of turbulent scales is commonly reflected by a power law signature in ensemble...
PACS. 47.27Gs { Isotropic turbulence; homogeneous turbulence. PACS. 05.40−a { Fluctuation phenomena,...
We study a discrete dissipative dynamical system which presents a transition to turbulence via inter...
We propose a method to analyze a turbulent sequence focusing on the self-similar properties of the d...
We present a theoretical attack on the classical problem of intermittency and anomalous scaling in t...
We study a long-recognised but under-appreciated symmetry called dynamical similarity and illustrate...
Journal of Fluid Mechanics, 649, pp. 275-285 (2010)International audienceExtended self-similarity (E...
A recent paper [R. Benzi et al., Phys. Rev. E 48, R29 (1993)] concluded that the scaling of turbulen...
We consider general infinite-dimensional dynamical systems with the Galilean and spatiotemporal scal...
We discuss a stochastic closure for the equation of motion satisfied by multiscale correlation funct...
We discuss a stochastic closure for the equation of motion satisfied by multiscale correlation funct...
We introduce a model for the turbulent energy cascade aimed at studying the effect of dynamical scal...
We discuss on an example a general mechanism of apparition of anomalous scaling in scale invariant s...
A scaling hypothesis leading to generalized extended self-similarity (GESS) for velocity structure f...
We review some recent work on scaling laws in turbulence. The Navier-Stokes equations and the equati...
The inertial subrange of turbulent scales is commonly reflected by a power law signature in ensemble...
PACS. 47.27Gs { Isotropic turbulence; homogeneous turbulence. PACS. 05.40−a { Fluctuation phenomena,...
We study a discrete dissipative dynamical system which presents a transition to turbulence via inter...
We propose a method to analyze a turbulent sequence focusing on the self-similar properties of the d...
We present a theoretical attack on the classical problem of intermittency and anomalous scaling in t...
We study a long-recognised but under-appreciated symmetry called dynamical similarity and illustrate...
Journal of Fluid Mechanics, 649, pp. 275-285 (2010)International audienceExtended self-similarity (E...
A recent paper [R. Benzi et al., Phys. Rev. E 48, R29 (1993)] concluded that the scaling of turbulen...