Add to ORKGThe well-known translation between the power law of energy spectrum and that of the correlation function or the second order structure function has been widely used in analyzing random data. Here, we show that the translation is valid only in proper scaling regimes. The regimes of valid translation are di#erent for the correlation function and the structure function. Indeed, they do not overlap. Furthermore, in practice, the power laws exist only for a finite range of scales. We show that this finite range makes the translation inexact even in the proper scaling regime. The error depends on the scaling exponent. The current findings are applicable to data analysis in fluid turbulence and other stochastic systems
A definition of scaling law for suitable families of measures is given and investigated. First, a nu...
International audienceCritical states are sometimes identified experimentally through power-law stat...
Multiscale correlation functions in high Reynolds number experimental turbulence, numerical simulati...
The well-known translation between the power law of the energy spectrum and that of the correlation ...
We relate the second-order structure function of a time series with the power spectrum of the origin...
The two-point correlation function of the energy dissipation, obtained from a one-point time record ...
AbstractWe consider the steady state statistics of turbulence in general classes of dissipative hydr...
In turbulence, ideas of energy cascade and energy flux, substantiated by the exact Kolmogorov relati...
It has been noted that the scale-by-scale distribution of kinetic energy in a turbulent flow is more...
As the finite correlation time of a force driving turbulence is taken into account, a new, dimensi...
We numerically investigate a two-time Lagrangian velocity correlation function (TTLVCF) for particle...
Second order structure functions are widely used to characterize turbulence in the inertial range be...
In this letter we report experimental evidence about the possibility to derive the $n$-order structu...
We show that the classical Kolmogorov and Richardson scaling laws in fully developed turbulence are ...
In this paper, we analyze the scaling of velocity structure functions of turbulent thermal convectio...
A definition of scaling law for suitable families of measures is given and investigated. First, a nu...
International audienceCritical states are sometimes identified experimentally through power-law stat...
Multiscale correlation functions in high Reynolds number experimental turbulence, numerical simulati...
The well-known translation between the power law of the energy spectrum and that of the correlation ...
We relate the second-order structure function of a time series with the power spectrum of the origin...
The two-point correlation function of the energy dissipation, obtained from a one-point time record ...
AbstractWe consider the steady state statistics of turbulence in general classes of dissipative hydr...
In turbulence, ideas of energy cascade and energy flux, substantiated by the exact Kolmogorov relati...
It has been noted that the scale-by-scale distribution of kinetic energy in a turbulent flow is more...
As the finite correlation time of a force driving turbulence is taken into account, a new, dimensi...
We numerically investigate a two-time Lagrangian velocity correlation function (TTLVCF) for particle...
Second order structure functions are widely used to characterize turbulence in the inertial range be...
In this letter we report experimental evidence about the possibility to derive the $n$-order structu...
We show that the classical Kolmogorov and Richardson scaling laws in fully developed turbulence are ...
In this paper, we analyze the scaling of velocity structure functions of turbulent thermal convectio...
A definition of scaling law for suitable families of measures is given and investigated. First, a nu...
International audienceCritical states are sometimes identified experimentally through power-law stat...
Multiscale correlation functions in high Reynolds number experimental turbulence, numerical simulati...