Physics – Plasma Physics
Scientific paper
Feb 2000
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000jgr...105.2375l&link_type=abstract
Journal of Geophysical Research, Volume 105, Issue A2, p. 2375-2392
Physics
Plasma Physics
207
Solar Physics, Astrophysics, And Astronomy: Coronal Mass Ejections, And Astronomy: Flares, And Astronomy: Prominence Eruptions, Space Plasma Physics: Magnetic Reconnection
Scientific paper
This work investigates how magnetic reconnection affects the acceleration of coronal mass ejections (CMEs) and how the acceleration in turn affects the reconnection process. To model the CME process, we use a two-dimensional flux rope model, which drives the ejection by means of a catastrophic loss of mechanical equilibrium. Our model provides a method for relating the motion of the ejected material to the reconnection rate in the current sheet created by the erupting field. In the complete absence of reconnection the tension force associated with the current sheet is always strong enough to prevent the flux rope from escaping from the Sun. However, our results imply that even a fairly small reconnection rate is sufficient to allow the flux rope to escape. Specifically, for a coronal density model that decreases exponentially with height we find that average Alfvén Mach number MA for the inflow into the reconnection site can be as small as MA=0.005 and still be fast enough to give a plausible eruption. The best fit to observation is obtained by assuming an inflow rate on the order of MA~0.1. With this value the energy output matches the temporal behavior inferred for the long duration events often associated with CMEs. The model also suggests an explanation for the peculiar motion of giant X-ray arches reported by Svestka et al. [1995, 1997]. X-ray arches are the large loops associated with CMEs which are similar in form to ``post''-flare loops, but they have an upward motion that is often different. Instead of continually slowing with time, the arches move upward at a rate that remains nearly constant or may even increase with time. Here we show how the difference can be explained by reversal of the gradient of the coronal Alfvén speed with height.
Forbes Terry G.
Lin Juhn-Jong
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