The onset of convection in the form of inertial waves in a rotating fluid sphere is studied through a perturbation analysis in an extension of earlier work by Zhang (1994). Explicit expressions for the dependence of the Rayleigh number on the azimuthal wavenumber are derived and new results for the case of a nearly thermally insulating boundary are obtained
Accurate numerical computations of the onset of thermal convection in wide rotating spherical shells...
A numerical study of the nonlinear torsional solutions of convection in rotating, internally heated,...
We report a nonlinear phenomenon discovered in the classical problem of thermal convection in rapidl...
The onset of convection in the form of inertial waves in a rotating fluid sphere is studied through ...
The onset of convection in the form of magneto-inertial waves in a rotating fluid sphere permeated b...
The following article appeared in Physics of Fluids, 2015, Volume 27, and may be found at http://sci...
Summary Thermal convection in rapidly rotating, self-gravitating Boussinesq fluid spherical systems ...
Bottom-heated convection in rotating spherical shells provides a simple analogue for many astrophysi...
An important way of breaking the rotational constraint in rotating convection is to invoke fast osci...
Direct numerical simulations are employed to reveal three distinctly different flow regions in rotat...
Direct numerical simulations are employed to reveal three distinctly different flow regions in rotat...
Abstract Convection in rotating spherical layers of fluid is ubiquitous in spherical astrophysical o...
Direct numerical simulations are employed to reveal three distinctly different flow regions in rotat...
Torsional flows are preferred at the onset of thermal convection in fluid spheres with stress-free a...
Accurate numerical computations of the onset of thermal convection in wide rotating spherical shells...
Accurate numerical computations of the onset of thermal convection in wide rotating spherical shells...
A numerical study of the nonlinear torsional solutions of convection in rotating, internally heated,...
We report a nonlinear phenomenon discovered in the classical problem of thermal convection in rapidl...
The onset of convection in the form of inertial waves in a rotating fluid sphere is studied through ...
The onset of convection in the form of magneto-inertial waves in a rotating fluid sphere permeated b...
The following article appeared in Physics of Fluids, 2015, Volume 27, and may be found at http://sci...
Summary Thermal convection in rapidly rotating, self-gravitating Boussinesq fluid spherical systems ...
Bottom-heated convection in rotating spherical shells provides a simple analogue for many astrophysi...
An important way of breaking the rotational constraint in rotating convection is to invoke fast osci...
Direct numerical simulations are employed to reveal three distinctly different flow regions in rotat...
Direct numerical simulations are employed to reveal three distinctly different flow regions in rotat...
Abstract Convection in rotating spherical layers of fluid is ubiquitous in spherical astrophysical o...
Direct numerical simulations are employed to reveal three distinctly different flow regions in rotat...
Torsional flows are preferred at the onset of thermal convection in fluid spheres with stress-free a...
Accurate numerical computations of the onset of thermal convection in wide rotating spherical shells...
Accurate numerical computations of the onset of thermal convection in wide rotating spherical shells...
A numerical study of the nonlinear torsional solutions of convection in rotating, internally heated,...
We report a nonlinear phenomenon discovered in the classical problem of thermal convection in rapidl...
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