Astronomy and Astrophysics – Astronomy
Scientific paper
Nov 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007apj...669.1359s&link_type=abstract
The Astrophysical Journal, Volume 669, Issue 2, pp. 1359-1371.
Astronomy and Astrophysics
Astronomy
21
Sun: Coronal Mass Ejections (Cmes), Sun: Filaments, Sun: Flares, Sun: Uv Radiation, Sun: X-Rays, Gamma Rays
Scientific paper
We observe the eruption of a large-scale (~300,000 km) quiet-region solar filament leading to an Earth-directed ``halo'' coronal mass ejection (CME), using data from EIT, CDS, MDI, and LASCO on SOHO and from SXT on Yohkoh. Initially the filament shows a slow (~1 km s-1 projected against the solar disk) and approximately constant velocity rise for about 6 hr, before erupting rapidly, reaching a velocity of ~8 km s-1 over the next ~25 minutes. CDS Doppler data show Earth-directed filament velocities ranging from <20 km s-1 (the noise limit) during the slow-rise phase, to ~100 km s-1 early in the eruption. Beginning within 10 hr prior to the start of the slow rise, localized new magnetic flux emerged near one end of the filament. Near the start of and during the slow-rise phase, soft X-ray (SXR) microflaring occurred repeatedly at the flux-emergence site, and the magnetic arcade over the filament progressively brightened in a fan of illumination in SXRs. These observations are consistent with ``tether-weakening'' reconnection occurring between the newly emerging flux and the overlying arcade field containing the filament, and apparently this reconnection is the cause of the filament's slow rise. We cannot, however, discern whether the transition from slow rise to fast eruption was caused by a final episode of tether-weakening reconnection, or by one or some combination of other possible mechanisms allowed by the observations. Intensity ``dimmings'' and ``brightenings'' occurring both near to and relatively far from the location of the filament are possible signatures of the expansion (``opening'') of the erupting field and its reconnection with overarching field during the eruption.
Harra Louise K.
Moore Ronald L.
Sterling Alphonse C.
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