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. 2019 Jul 1;377(2148):20190152.
doi: 10.1098/rsta.2019.0152.

Introduction to the physics of solar eruptions and their space weather impact

Vasilis Archontis  1 Loukas Vlahos  2
Affiliations

Introduction to the physics of solar eruptions and their space weather impact

Vasilis Archontis et al. Philos Trans A Math Phys Eng Sci. .

Abstract

The physical processes, which drive powerful solar eruptions, play an important role in our understanding of the Sun-Earth connection. In this Special Issue, we firstly discuss how magnetic fields emerge from the solar interior to the solar surface, to build up active regions, which commonly host large-scale coronal disturbances, such as coronal mass ejections (CMEs). Then, we discuss the physical processes associated with the driving and triggering of these eruptions, the propagation of the large-scale magnetic disturbances through interplanetary space and the interaction of CMEs with Earth's magnetic field. The acceleration mechanisms for the solar energetic particles related to explosive phenomena (e.g. flares and/or CMEs) in the solar corona are also discussed. The main aim of this Issue, therefore, is to encapsulate the present state-of-the-art in research related to the genesis of solar eruptions and their space-weather implications. This article is part of the theme issue 'Solar eruptions and their space weather impact'.

Keywords: coronal mass ejections; magnetic fields; sun.

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Conflict of interest statement

We declare we have no competing interests.

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