In this work we prove a global well-posedness result for a
tridimensional rescaled Boussinesq system, with positive full viscosity
and diffusivity parameters, in the framework of critical Fourier-Besov
spaces, which allow homogeneous functions with negative degree. The
rescaled approach implies to rescale both the velocity, dividing by a
positive parameter, and the temperature, dividing by the square of the
same parameter, and study the obtained system. This rescaled approach
permits to deal with the right hand linear term for the Boussinesq
system, in order to apply a fixed point lemma, and to know a qualitative
behaviour of the system, according to relations between both the
parameters and the initial velocity and temperature; for instance, it is
possible to consider, for small enough viscosity and large diffusivity,
a large enough critical Fourier-Besov norm for the initial temperature
and it is also possible to consider, for small enough diffusivity and
large viscosity, a large enough critical Fourier-Besov norm for both the
velocity and the temperature.
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