Bibcode
Díaz, A. J.; Donnelly, G. R.; Roberts, B.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 476, Issue 1, December II 2007, pp.359-368
Fecha de publicación:
12
2007
Revista
Número de citas
18
Número de citas referidas
16
Descripción
Aims:The role of longitudinal structuring of the surrounding corona on
the modes of oscillation of a coronal magnetic flux tube was studied in
Donnelly et al. (2006) for a piecewise uniform profile. Here we
investigate whether a more realistic continuous exponential profile
changes the conclusions drawn from that paper. Methods: A partial
differential equation is derived for the total pressure perturbation of
the fast modes, which is then decomposed by separation of variables. The
longitudinal part is solved numerically, obtaining a dispersion
relation. These results are supported by an analytical investigation in
terms of Bessel functions of purely imaginary order. Results:
Structure in the interior of the loop shifts the frequencies of the
modes (and may trap higher harmonics), an effect which can be understood
by taking an averaged profile with a suitable weight. Structure in the
environment modifies only slightly the frequencies, but displaces the
cutoff frequency. The shift due to the structure in the fundamental
period is small, but the ratio between the periods of the fundamental
mode and its harmonics can be used to probe the structure. Conclusions: The results support our previous study in a more
realistic, continuously varying profile and provide limits to the
conclusions drawn in coronal seismology if an unstructured loop is used.
Also, the ratio between the period of the fundamental kink (even) mode
and its first (odd) harmonic is proven as an extra seismological tool
for coronal loops.