An ensemble model of turbulence is proposed. The ensemble consists of flow fields in which the flux of an inviscid conserved quantity, such as energy (or enstrophy in two-dimensional flow fields), across the wavenumber $k$ is a constant independent of $k$ in an appropriate range. Two-dimensional flow fields of constant enstrophy flux are sampled randomly by a Monte Carlo method. The energy spectra $E_k$ of the flow fields are consistent with the scaling $E_k \propto k^{-3}(\ln(k/k_\mathrm{b}))^{-1/3}$ where $k_\mathrm{b}$ is the bottom wavenumber of the constant-flux range.Comment: 7 pages, 5 figure
Practical results gained from statistical theories of turbulence usually appear in the form of an in...
Experiment 1 studies finite system size effects on temporal energy flux fluctuations in three-dimens...
Abstract A review of existing basic turbulence modeling approaches reveals the need for the developm...
This paper gives a self contained review of some recent progress of the statistical theory of fully ...
Abstract:- A scale-invariant model of statistical mechanics is applied to present a modified statist...
We construct different equivalent non-equilibrium statistical ensembles in a simple yet instructive ...
Computing Ensembles occurs frequently in the simulation of complex flows to increase forecasting ski...
Describes \u27current\u27 state of model developed by Taylor (1935), which is applicable to continuo...
summary:Some rigorous results connected with the conventional statistical theory of turbulence in bo...
We develop a quantitative microscopic theory of decaying Turbulence by studying the dimensional redu...
41 pages, submitted to Journal of Statistical PhysicsInternational audienceUsing explicit analytical...
Processes leading to anomalous fluctuations in turbulent flows, referred to as intermittency, are st...
Abstract: We construct different equivalent non-equilibrium statistical ensembles in a simple yet in...
In his seminal work on turbulence, Kolmogorov made use of the stationary hypothesis to determine the...
We present an extension to Kolmogorov's refined similarity hypothesis for universal fully developed ...
Practical results gained from statistical theories of turbulence usually appear in the form of an in...
Experiment 1 studies finite system size effects on temporal energy flux fluctuations in three-dimens...
Abstract A review of existing basic turbulence modeling approaches reveals the need for the developm...
This paper gives a self contained review of some recent progress of the statistical theory of fully ...
Abstract:- A scale-invariant model of statistical mechanics is applied to present a modified statist...
We construct different equivalent non-equilibrium statistical ensembles in a simple yet instructive ...
Computing Ensembles occurs frequently in the simulation of complex flows to increase forecasting ski...
Describes \u27current\u27 state of model developed by Taylor (1935), which is applicable to continuo...
summary:Some rigorous results connected with the conventional statistical theory of turbulence in bo...
We develop a quantitative microscopic theory of decaying Turbulence by studying the dimensional redu...
41 pages, submitted to Journal of Statistical PhysicsInternational audienceUsing explicit analytical...
Processes leading to anomalous fluctuations in turbulent flows, referred to as intermittency, are st...
Abstract: We construct different equivalent non-equilibrium statistical ensembles in a simple yet in...
In his seminal work on turbulence, Kolmogorov made use of the stationary hypothesis to determine the...
We present an extension to Kolmogorov's refined similarity hypothesis for universal fully developed ...
Practical results gained from statistical theories of turbulence usually appear in the form of an in...
Experiment 1 studies finite system size effects on temporal energy flux fluctuations in three-dimens...
Abstract A review of existing basic turbulence modeling approaches reveals the need for the developm...