Using a novel device that enables the real-time measurement of high-order structure functions in turbulence with superior statistical accuracy, we study the shape of the structure function at scales where it is influenced by viscosity. The experiments on a variety of laboratory turbulent flows demonstrate that this shape is universal. We argue that it reflects a fundamental property of multifractals: multiscaling. We present accurate experimental scaling functions ¿(p) and, finally, comment on the nature of the skewness of the distribution function of velocity increments by comparing transverse and longitudinal distribution functions
A recent paper [R. Benzi et al., Phys. Rev. E 48, R29 (1993)] concluded that the scaling of turbulen...
Both multifractal and monofractal scaling of structure function exponents are observed in the turbul...
International audienceThe multifractal (MF) framework relates the scaling properties of turbulence t...
Using a novel device that enables the real-time measurement of high-order structure functions in tur...
The scaling behaviour of high-order structure functions Gp(r) =[left angle bracket](u(x+r)-u(x))p[ri...
International audienceAll previous experiments in open turbulent flows (e.g. downstream of grids, je...
The objective of this research has been to develop a consistent theory of the scaling behaviour of t...
International audienceThis paper investigates the universality of the Eulerian velocity structure fu...
Various difficulties can be eXpected in trying to eXtract from eXperimental data the distribution of...
We present a systematic comparison of conditional structure functions in nine turbulent flows. The f...
The probabilistic reformulation of the multifractal model [1] is obtained directly from the structur...
We address the implications of scale symmetries in out-of-equilibrium systems within the paradigm of...
In this letter we report experimental evidence about the possibility to derive the $n$-order structu...
The advective terms in the Navier-Stokes and Burgers equations are similar. It is proposed that the ...
A new conceptual framework for understanding multiscaling in classical field theories in general, an...
A recent paper [R. Benzi et al., Phys. Rev. E 48, R29 (1993)] concluded that the scaling of turbulen...
Both multifractal and monofractal scaling of structure function exponents are observed in the turbul...
International audienceThe multifractal (MF) framework relates the scaling properties of turbulence t...
Using a novel device that enables the real-time measurement of high-order structure functions in tur...
The scaling behaviour of high-order structure functions Gp(r) =[left angle bracket](u(x+r)-u(x))p[ri...
International audienceAll previous experiments in open turbulent flows (e.g. downstream of grids, je...
The objective of this research has been to develop a consistent theory of the scaling behaviour of t...
International audienceThis paper investigates the universality of the Eulerian velocity structure fu...
Various difficulties can be eXpected in trying to eXtract from eXperimental data the distribution of...
We present a systematic comparison of conditional structure functions in nine turbulent flows. The f...
The probabilistic reformulation of the multifractal model [1] is obtained directly from the structur...
We address the implications of scale symmetries in out-of-equilibrium systems within the paradigm of...
In this letter we report experimental evidence about the possibility to derive the $n$-order structu...
The advective terms in the Navier-Stokes and Burgers equations are similar. It is proposed that the ...
A new conceptual framework for understanding multiscaling in classical field theories in general, an...
A recent paper [R. Benzi et al., Phys. Rev. E 48, R29 (1993)] concluded that the scaling of turbulen...
Both multifractal and monofractal scaling of structure function exponents are observed in the turbul...
International audienceThe multifractal (MF) framework relates the scaling properties of turbulence t...