Bibcode
Andries, J.; Arregui, I.; Goossens, M.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 497, Issue 1, 2009, pp.265-272
Fecha de publicación:
4
2009
Revista
Número de citas
16
Número de citas referidas
16
Descripción
Context: As coronal loops are spatially at least partially resolved in
the longitudinal direction, attempts have been made to use the
longitudinal profiles of the oscillation amplitudes as a seismological
tool. Aims: We aim to derive simple formulae to assess which
oscillation modes and which quantities of the oscillation (displacement
or compression) are most prone to modifications induced by
stratification of the equilibrium density along the loop. We furthermore
clarify and quantify that the potential of such a method could be
enhanced if observational profiles of the compression in the
oscillations could be determined. Methods: By means of a linear
expansion in the longitudinal stratification along with the “thin
tube” approximation, the modifications to the eigenfunctions are
calculated analytically. The results are validated by direct numerical
computations. Results: Higher axial overtones are found to be
more affected by equilibrium stratification and hence would provide a
much better tool if observed. For the k-1th overtone the compression is
found to be around (k + 2)^2/k2 times more sensitive to
longitudinal density variation than the displacement. While the linear
formulae do give a good indication of the strength of the effects of
longitudinal density stratification, the numerical computations indicate
that the corrections to the approximate analytical results are
significant and cannot be neglected under the expected coronal
conditions.