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A&A 372, L17-L20 (2001)
DOI: 10.1051/0004-6361:20010544
Damping of helioseismic modes in steady state
B. Pintér1, R. Erdélyi2 and R. New11 School of Science and Mathematics, Hallam University, Howard Street, Sheffield S1 1WB, UK
e-mail: r.new@shu.ac.uk
2 Space & Atmosphere Research Center, Dept. of Applied Mathematics, University of Sheffield, Hicks Building, Hounsfield Road, Sheffield S3 7RH, UK
e-mail: Robertus@sheffield.ac.uk
(Received 26 March 2001 / Accepted 12 April 2001 )
Abstract
The effects of an equilibrium flow in the internal regions of the Sun are
studied on the damping of helioseismic f- and p-modes. The Sun is modeled as a
multi-layered plasma, where the upper parts, representing the chromosphere and corona,
are embedded in a horizontally unidirectional though vertically inhomogeneous magnetic
field, while the lower part, representing the sub-photospheric polytropic region,
is in a steady equilibrium state.
The steady state sub-surface region can be considered as a first approximation of dynamic
motions (e.g., differential rotation, sub-surface flows, meridional flows, convective motion,
etc.).
The frequencies and the line-widths of eigenmodes are affected by sub-surface flow and
atmospheric magnetic fields. A key contribution to the effects comes from the universal
mechanism of resonant absorption.
When both atmospheric magnetic field and sub-surface flows are present, a
complex picture of competition between these two effects is found.
The theoretically predicted frequency shifts in a steady state show promise of explaining the
observed effects.
Changes in damping of f- and p-modes caused by changes (e.g. cyclic, if any) of
steady state flows are predicted.
Key words: Sun: helioseismology -- Sun: oscillations -- Sun: interior -- Sun: atmosphere -- Sun: magnetic fields -- Sun: rotation
Offprint request: B. Pintér, b.pinter@shu.ac.uk
© ESO 2001
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