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A&A 409, 325-330 (2003)
DOI: 10.1051/0004-6361:20031071
Short period fast waves in solar coronal loops
F. C. Cooper1, V. M. Nakariakov1 and D. R. Williams21 Physics Department, University of Warwick, Coventry, CV4 7AL, UK
e-mail: cooperf@astro.warwick.ac.uk
2 MSSL, University College London, Dorking, Surrey, RH5 6NT, UK
e-mail: drw@mssl.ucl.ac.uk
(Received 4 June 2003 / Accepted 7 July 2003)
Abstract
Short period fast magnetoacoustic waves propagating along solar coronal
loops, perturbing the loop boundary along the line of sight (LOS),
may be observed by imaging telescopes. The relationship between
the difference in emission intensity, the angle between the LOS
and the direction of propagation and the wave amplitude and
wavelength, is explored for kink and sausage fast waves. It is
shown that the compressibility of the plasma in the loop significantly
affects the observability of the waves. For both wave types
there is an optimal observation angle which is determined by the
ratio of the wave length and the loop radius. The change of the
observational conditions because of the loop curvature predicts a
significant, up to an order of magnitude, change in the observed
wave amplitude. This prediction is confirmed by the analysis of
the evolution of the fast wave train amplitude, observed with the
SECIS instrument. The wave train amplitude experiences a sharp
increase and then a decrease along the loop. The observational
results are in a good agreement with the theory.
Key words: magnetohydrodynamics (MHD) -- waves -- Sun: activity -- Sun: corona -- Sun: oscillations
Offprint request: V. Nakariakov, valery@astro.warwick.ac.uk
© ESO 2003
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