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A&A 475, 333-340 (2007)
DOI: 10.1051/0004-6361:20077894
The relative timing of supra-arcade downflows in solar flares
J. I. Khan, H. M. Bain, and L. FletcherDepartment of Physics and Astronomy, University of Glasgow, Glasgow G12 8QQ, Scotland, UK
e-mail: jkhan@spd.aas.org
(Received 14 May 2007 / Accepted 11 August 2007)
Abstract
Context.
Supra-arcade downflows (generally dark, sunward-propagating
features
located above the bright arcade of loops in some solar flares) have
been reported mostly during the decay phase, although some have also
been reported during the rise phase of solar flares.
Aims.
We investigate, from a statistical point of view, the timing of
supra-arcade downflows during the solar flare process, and thus
determine the possible
relation of supra-arcade downflows to the primary or secondary energy release in a flare.
Methods.
Yohkoh Soft X-ray Telescope (SXT) imaging data are examined to
produce a list of supra-arcade downflow candidates.
In many of our events supra-arcade downflows are not directly observed.
However, the events do show laterally moving (or "waving") bright rays in the
supra-arcade fan of coronal rays which we interpret as due to dark
supra-arcade downflows.
The events are analysed in detail to determine whether the supra-arcade
downflows (or the proxy waving coronal rays) occur during
a) the rise and/or decay phases of the soft X-ray flare
and
b) the flare hard X-ray bursts.
It is also investigated whether the supra-arcade downflows events
show prior eruptive signatures as seen in SXT,
other space-based coronal data, or reported in ground-based H
images.
Results.
A substantial majority of supra-arcade downflow events show downflows which start
during the soft X-ray flare rise phase (73%), occur during hard X-ray
bursts (90%), and have prior eruptive signatures associated with them (73%).
However, we find a single event (2% of the total) which clearly and
unambiguously showed supra-arcade downflows starting during the soft
X-ray flare decay phase.
Conclusions.
Since the majority of supra-arcade downflows occur during the rise phase
of the soft X-ray flare and the time of hard X-ray bursts, and have prior
eruptive signatures this suggests that they are related to the
main flare energy release process.
Furthermore, the suggested association of supra-arcade downflows with recently
reconnected magnetic field lines means they may indeed be considered as
evidence for a magnetic reconnection process.
The single supra-arcade downflow event which unambiguously started during
the decay phase of the flare occurred during hard X-ray bursts
and thus appears to be related to late energy release.
Key words: Sun: corona -- Sun: coronal mass ejections (CMEs) -- Sun: flares -- Sun: magnetic fields -- Sun: X-rays, gamma rays -- magnetohydrodynamics (MHD)
© ESO 2007
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