In systems governing two-dimensional turbulence, surface quasi-geostrophic turbulence, (more generally alpha-turbulence), two-layer quasi-geostrophic turbulence, etc., there often exist two conservative quadratic quantities, one energy -like and one enstrophy -like. In a finite inertial range there are in general two spectral fluxes, one associated with each conserved quantity. We derive here an inequality comparing the relative magnitudes of the energy and enstrophy fluxes for finite or infinitesimal dissipations, and for hyper or hypo viscosities. When this inequality is satisfied, as is the case of 2D turbulence,where the energy flux contribution to the energy spectrum is small, the subdominant part will be effectively hidden. In s...
Experiments and numerical simulations reveal that in the forward cascade regime, the energy spectrum...
Abstract. Flows in natural uid layers are often forced simultaneously at scales smaller and much la...
Flows in natural fluid layers are often forced simultaneously at scales smaller and much larger than...
In systems governing two-dimensional turbulence, surface quasi-geostrophic turbulence, (more general...
In systems governing two-dimensional turbulence, surface quasi-geostrophic turbulence, (more general...
A general proof that more energy flows upscale than downscale in two-dimensional turbulence and baro...
A general proof that more energy flows upscale than downscale in two-dimensional turbulence and baro...
International audienceThe statistical properties of turbulent fluids depend on how local the energy ...
We consider generalized von Karman-Heisenberg-von Weizsacker type model for the inertial transfer to...
We study the degree to which Kraichnan-Leith-Batchelor (KLB) phenomenology describes two-dimensional...
The classical theory of 2d and quasi-geostrophic turbulence deals withhighly idealized systems and p...
The author uses a generalised Von Karman-Heisenberg-von-Weizsacker-type model for the inertial trans...
Lindborg et al. (2010) claim that the apparent spectrum power law <i>E(k)</i> ≈ k<sup...
We study two-dimensional (2D) turbulence in a doubly periodic domain driven by a monoscale-like forc...
Analysis of spectral kinetic energy fluxes in satellite altimetry data has demonstrated that an inve...
Experiments and numerical simulations reveal that in the forward cascade regime, the energy spectrum...
Abstract. Flows in natural uid layers are often forced simultaneously at scales smaller and much la...
Flows in natural fluid layers are often forced simultaneously at scales smaller and much larger than...
In systems governing two-dimensional turbulence, surface quasi-geostrophic turbulence, (more general...
In systems governing two-dimensional turbulence, surface quasi-geostrophic turbulence, (more general...
A general proof that more energy flows upscale than downscale in two-dimensional turbulence and baro...
A general proof that more energy flows upscale than downscale in two-dimensional turbulence and baro...
International audienceThe statistical properties of turbulent fluids depend on how local the energy ...
We consider generalized von Karman-Heisenberg-von Weizsacker type model for the inertial transfer to...
We study the degree to which Kraichnan-Leith-Batchelor (KLB) phenomenology describes two-dimensional...
The classical theory of 2d and quasi-geostrophic turbulence deals withhighly idealized systems and p...
The author uses a generalised Von Karman-Heisenberg-von-Weizsacker-type model for the inertial trans...
Lindborg et al. (2010) claim that the apparent spectrum power law <i>E(k)</i> ≈ k<sup...
We study two-dimensional (2D) turbulence in a doubly periodic domain driven by a monoscale-like forc...
Analysis of spectral kinetic energy fluxes in satellite altimetry data has demonstrated that an inve...
Experiments and numerical simulations reveal that in the forward cascade regime, the energy spectrum...
Abstract. Flows in natural uid layers are often forced simultaneously at scales smaller and much la...
Flows in natural fluid layers are often forced simultaneously at scales smaller and much larger than...