Bibcode
Yelles Chaouche, L.; Solanki, S.; Schuessler, M.
Referencia bibliográfica
"12th European Solar Physics Meeting, Freiburg, Germany, held September, 8-12, 2008. Online at http://espm.kis.uni-freiburg.de/, p.3.8"
Fecha de publicación:
9
2008
Número de citas
0
Número de citas referidas
0
Descripción
The structure and dynamics of small vertical photospheric magnetic flux
concentrations has been often treated in the framework of an
approximation based upon a low-order truncation of the Taylor expansions
of all quantities in the horizontal direction, together with the
assumption of instantaneous total pressure balance at the boundary to
the non-magnetic external medium. Formally, such an approximation is
justified if the diameter of the structure (a flux tube or a flux sheet)
is small compared to all other relevant length scales (scale height,
radius of curvature, wavelength, etc.). The advent of realistic 3D
radiative MHD simulations opens the possibility to check the consistency
of the approximation with the properties of the flux concentrations that
form in the course of the simulation. We make a comparative analysis
between the thin flux tube/sheet model and flux concentrations existing
in a 3D radiation-MHD simulation. We have found that for flux
concentration well above the equipartition distribution, the MHD
magnetic structures are reasonably well reproduced by the second-order
thin flux tube/sheet approximation. The differences between
approximation and simulation are due to the asymmetry and the dynamics
of the simulated structures.