Journal ArticleDOI
Formation and eruption of solar prominences
TLDR
In this paper, a model for the magnetic field associated with solar prominences is considered, and it is shown that flux cancellation at the neutral line of a sheared magnetic arcade leads to the formation of helical field lines which are capable, in principle, of supporting prominence plasma.Abstract:
A model for the magnetic field associated with solar prominences is considered. It is shown that flux cancellation at the neutral line of a sheared magnetic arcade leads to the formation of helical field lines which are capable, in principle, of supporting prominence plasma. A numerical method for the computation of force-free, canceling magnetic structures is presented. Starting from an initial potential field we prescribe the motions of magnetic footpoints at the photosphere, with reconnection occurring only at the neutral line. As more and more flux cancels, magnetic flux is transferred from the arcade field to the helical field. Results for a particular model of the photospheric motions are presented. The magnetic structure is found to be stable: the arcade field keeps the helical field tied down at the photosphere. The axis of the helical field moves to larger and larger height, suggestive of prominence eruption. These results suggest that prominence eruptions may be trigered by flux cancellation.read more
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Journal ArticleDOI
A review on the genesis of coronal mass ejections
TL;DR: A short review of some of the basic concepts related to the origin of coronal mass ejections (CMEs) can be found in this paper, where various ideas which have been put forward to explain the initiation of CMEs are categorized in terms of whether they are force-free or non-force-free and ideal or nonideal.
Journal ArticleDOI
Coronal Mass Ejections: Models and Their Observational Basis
TL;DR: In this paper, a review on each stage of the CME phenomenon is presented, including their pre-eruption structure, their triggering mechanisms and the precursors indicating the initiation process, their acceleration and propagation.
Journal ArticleDOI
Solar Flares: Magnetohydrodynamic Processes
Kazunari Shibata,Tetsuya Magara +1 more
TL;DR: The current understanding of solar flares, mainly focused on magnetohydrodynamic (MHD) processes responsible for producing a flare, can be found in this article, where the authors present a review of the models proposed to explain the physical mechanism of flares, giving an comprehensive explanation of the key processes.
Journal ArticleDOI
Physics of Solar Prominences: II—Magnetic Structure and Dynamics
TL;DR: In this article, the authors focus on non-eruptive solar prominences, and describe recent progress in four areas of prominence research: (1) magnetic structure deduced from observations and models, (2) the dynamics of prominence plasmas (formation and flows), (3) magneto-hydrodynamic (MHD) waves in prominence and (4) the formation and large-scale patterns of the filament channels in which promine are located.
Journal ArticleDOI
Formation of Torus-Unstable Flux Ropes and Electric Currents in Erupting Sigmoids
TL;DR: In this article, a zero-β magnetohydrodynamic (MHD) simulation of an initially potential, asymmetric bipolar field, which evolves by means of simultaneous slow magnetic field diffusion and sub-Alfvenic, line-tied shearing motions in the photosphere, is used to analyze the physical mechanisms that form a three-dimensional coronal flux rope and later cause its eruption.
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