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Small-scale filament eruptions as the driver of X-ray jets in solar coronal holes
Moore, Ronald L.; Sterling, Alphonse C.; Falconer, David A. +1 more
Solar X-ray jets are thought to be made by a burst of reconnection of closed magnetic field at the base of a jet with ambient open field. In the accepted version of the `emerging-flux' model, such a reconnection occurs at a plasma current sheet between the open field and the emerging closed field, and also forms a localized X-ray brightening that …
Characterizing and predicting the magnetic environment leading to solar eruptions
Amari, Tahar; Canou, Aurélien; Aly, Jean-Jacques
The physical mechanism responsible for coronal mass ejections has been uncertain for many years, in large part because of the difficulty of knowing the three-dimensional magnetic field in the low corona. Two possible models have emerged. In the first, a twisted flux rope moves out of equilibrium or becomes unstable, and the subsequent reconnection…
Magneto-thermal convection in solar prominences
Shibata, Kazunari; Testa, Paola; Boerner, Paul +6 more
Coronal cavities are large low-density regions formed by hemispheric-scale magnetic flux ropes suspended in the Sun's outer atmosphere. They evolve over time, eventually erupting as the dark cores of coronal mass ejections. Although coronal mass ejections are common and can significantly affect planetary magnetospheres, the mechanisms by which cav…