Insight into the problem of two-dimensional turbulence can be obtained by an analogy with a heat conduction network. It allows the identification of an entropy function associated with the enstrophy dissipation and that fluctuates around a positive (mean) value. While the corresponding enstrophy network is highly nonlocal, the direction of the enstrophy current follows from the Second Law of Thermodynamics. An essential parameter is the ratio T(k)equivalent to gamma(k)/(nu k(2)) of the intensity of driving gamma(k)>0 as a function of wave number k, to the dissipation strength nu k(2), where nu is the viscosity. The enstrophy current flows from higher to lower values of T(k), similar to a heat current from higher to lower temperature. Our pr...
We report on a numerical experiment performed to analyze fluctuations of the entropy production in t...
The author uses a generalised Von Karman-Heisenberg-von-Weizsacker-type model for the inertial trans...
Experiments and numerical simulations reveal that in the forward cascade regime, the energy spectrum...
Insight into the problem of two-dimensional turbulence can be obtained by an analogy with a heat con...
Freely decaying two-dimensional Navier-Stokes turbulence is studied. The conservation of vorticity b...
Enstrophy, half the integral of the square of vorticity, plays a role in 2D turbulence theory analog...
The extended thermodynamics of Tsallis is reviewed in detail and applied to turbulence. It is based ...
The extended thermodynamics of Tsallis is reviewed in detail and applied to turbulence. It is based ...
Enstrophy in a fluid relates to the dissipation tendency in a fluid that has use in studying turbule...
We study shell models that conserve the analogs of energy and enstrophy and hence are designed to mi...
In two-dimensional turbulence, irreversible forward transfer of enstrophy requires anticorrelation o...
We consider the enstrophy cascade in forced two-dimensional turbulence with a linear drag force. In ...
The extended thermodynamics of Tsallis is reviewed in detail and applied to turbulence. It is based ...
Abstract. Enstrophy, half the integral of the square of vorticity, plays a role in 2D turbulence the...
We study the time irreversibility of the direct cascade in two-dimensional turbulence by looking at ...
We report on a numerical experiment performed to analyze fluctuations of the entropy production in t...
The author uses a generalised Von Karman-Heisenberg-von-Weizsacker-type model for the inertial trans...
Experiments and numerical simulations reveal that in the forward cascade regime, the energy spectrum...
Insight into the problem of two-dimensional turbulence can be obtained by an analogy with a heat con...
Freely decaying two-dimensional Navier-Stokes turbulence is studied. The conservation of vorticity b...
Enstrophy, half the integral of the square of vorticity, plays a role in 2D turbulence theory analog...
The extended thermodynamics of Tsallis is reviewed in detail and applied to turbulence. It is based ...
The extended thermodynamics of Tsallis is reviewed in detail and applied to turbulence. It is based ...
Enstrophy in a fluid relates to the dissipation tendency in a fluid that has use in studying turbule...
We study shell models that conserve the analogs of energy and enstrophy and hence are designed to mi...
In two-dimensional turbulence, irreversible forward transfer of enstrophy requires anticorrelation o...
We consider the enstrophy cascade in forced two-dimensional turbulence with a linear drag force. In ...
The extended thermodynamics of Tsallis is reviewed in detail and applied to turbulence. It is based ...
Abstract. Enstrophy, half the integral of the square of vorticity, plays a role in 2D turbulence the...
We study the time irreversibility of the direct cascade in two-dimensional turbulence by looking at ...
We report on a numerical experiment performed to analyze fluctuations of the entropy production in t...
The author uses a generalised Von Karman-Heisenberg-von-Weizsacker-type model for the inertial trans...
Experiments and numerical simulations reveal that in the forward cascade regime, the energy spectrum...