Bibcode
Díaz, A. J.; Oliver, R.; Ballester, J. L.; Soler, R.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 533, id.A95
Fecha de publicación:
9
2011
Revista
Número de citas
10
Número de citas referidas
9
Descripción
Aims: We study the equilibrium and stability of twisted magnetic
flux tubes with mass flows along the field lines. Then, we focus on the
stability and oscillatory modes of magnetic tubes with uniform twist
B0 = B0(r/p eϕ + ez) in
a zero-β plasma, surrounded by a uniform, purely longitudinal
field. Methods: First we investigate the possible equilibriums,
and then consider the linearised MHD equations and obtain a system of
two first-order differential equations. These are solved numerically,
while analytical approximations involving confluent hypergeometric
functions are found in the thin tube limit. Finally, new appropriate
boundary conditions are deduced and the outer solution considered (with
the apparition of cut-off frequencies). We use this to derive a
dispersion relation, from which the frequencies of the normal modes can
be obtained. Results: Regarding the equilibrium, the only value
of the flow that satisfies the equations for this magnetic field
configuration is a super-Alfvénic one. Then, we consider the
normal modes of this configuration. The thin-tube approximation proves
accurate for typical values, and it is used to prove that the
equilibrium is unstable, unless the pitch is large. The stability
criteria for twisted tubes are significantly lowered.
Conclusions: The twisted tube is subject to the kink instability unless
the pitch is very high, since the Lundquist criterion is significantly
lowered. This is caused by the requirement of having a magnetic Mach
number greater than 1, so the magnetic pressure balances the magnetic
tension and fluid inertia. This type of instability might be observed in
some solar atmospheric structures, like surges.
Appendix is available in electronic form at http://www.aanda.org