Classical theories of turbulence do not describe accurately inertial range scaling laws in turbulent convection and notably fail to model the shape of the turbulent spectrum of solar photospheric convection. To understand these discrepancies, a detailed study of scale-by-scale budgets in turbulent Rayleigh-B\'enard convection is presented, with particular emphasis placed on anisotropy and inhomogeneity. A generalized Kolmogorov equation applying to convection is derived and its various terms are computed using numerical simulations of turbulent Boussinesq convection. The analysis of the isotropic part of the equation shows that the third-order velocity structure function is significantly affected by buoyancy forcing and large-scale inhomoge...
Context. The surface of the Sun provides us with a unique and very detailed view of turbulent stel...
A three dimensional study of convection in a self gravitating sphere of Boussinesq fluid with a Rayl...
The existence of a buoyancy-dominated scaling range in convective turbulence is a longstanding open ...
We examine the role of stratification in determining the length scales of turbulent anelastic convec...
International audienceThe Sun provides us with the only spatially well-resolved astrophysical exampl...
The development of 2D and 3D simulations of solar convection has lead to a picture of convection qui...
The Sun provides us with the only spatially well-resolved astrophysical example of turbulent thermal...
Convection in the solar interior is thought to comprise structures on a spectrum of scales. This con...
We present the results of a very large aspect ratio (42.6) numerical simulation of fully compressibl...
J.-C. Vial Président M. R. E. Proctor Examinateur J. Sommeria Examinateur J.-P. Zahn Rapporteur T. P...
We present the results of a very large aspect ratio ($A=42.6$) numerical simulation of fully compr...
Turbulent properties of the quiet Sun represent the basic state of surface conditions and a backgrou...
We review the properties of solar convection that are directly observable at the solar surface, and ...
We review the properties of solar convection that are directly observable at the solar surface, and ...
Context. The surface of the Sun provides us with a unique and very detailed view of turbulent stel...
A three dimensional study of convection in a self gravitating sphere of Boussinesq fluid with a Rayl...
The existence of a buoyancy-dominated scaling range in convective turbulence is a longstanding open ...
We examine the role of stratification in determining the length scales of turbulent anelastic convec...
International audienceThe Sun provides us with the only spatially well-resolved astrophysical exampl...
The development of 2D and 3D simulations of solar convection has lead to a picture of convection qui...
The Sun provides us with the only spatially well-resolved astrophysical example of turbulent thermal...
Convection in the solar interior is thought to comprise structures on a spectrum of scales. This con...
We present the results of a very large aspect ratio (42.6) numerical simulation of fully compressibl...
J.-C. Vial Président M. R. E. Proctor Examinateur J. Sommeria Examinateur J.-P. Zahn Rapporteur T. P...
We present the results of a very large aspect ratio ($A=42.6$) numerical simulation of fully compr...
Turbulent properties of the quiet Sun represent the basic state of surface conditions and a backgrou...
We review the properties of solar convection that are directly observable at the solar surface, and ...
We review the properties of solar convection that are directly observable at the solar surface, and ...
Context. The surface of the Sun provides us with a unique and very detailed view of turbulent stel...
A three dimensional study of convection in a self gravitating sphere of Boussinesq fluid with a Rayl...
The existence of a buoyancy-dominated scaling range in convective turbulence is a longstanding open ...
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