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Decay of the coronal magnetic field can release sufficient energy to power a solar flare

Gregory D. Fleishman, Dale E. Gary, Bin Chen, Natsuha Kuroda, Sijie Yu, Gelu M. Nita

2020Science165 citationsDOIOpen Access PDF

Abstract

Magnetic energy release in a solar flare Solar flares are bright flashes and associated eruptions of plasma from the Sun that are thought to be powered by violent rearrangement of the magnetic fields near sunspots. Fleishman et al. observed a bright solar flare with a microwave interferometer, allowing them to map the magnetic field in the solar corona and monitor how it changed during the flare. They found a large drop in the local field strength over 2 minutes, releasing enough magnetic energy to power the entire solar flare. Determining the origin of this energy will help to predict how strong future solar flares may be and their potential space weather impacts on Earth. Science , this issue p. 278

Topics & Concepts

Solar flarePhysicsNanoflaresCoronal mass ejectionFlareCorona (planetary geology)Magnetic fieldAstrophysicsMagnetic energyCoronal loopParticle accelerationPlasmaComputational physicsMagnetic reconnectionSolar energetic particlesMagnetic cloudAstronomySolar windMagnetizationNuclear physicsAstrobiologyQuantum mechanicsVenusSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsAstro and Planetary Science
Decay of the coronal magnetic field can release sufficient energy to power a solar flare | Litcius