Litcius/Paper detail

Multiwavelength Observation of a Failed Eruption from a Helical Kink-unstable Prominence

Haiqing Xu, Jiangtao Su, Jie Chen, Guiping Ruan, Arun Kumar Awasthi, Hongqi Zhang, Mei Zhang, Kaifan Ji, Yuzong Zhang, Jiajia Liu

2020The Astrophysical Journal13 citationsDOIOpen Access PDF

Abstract

Abstract Multiwavelength observations of a prominence eruption provide an opportunity to uncover the physical mechanism of the triggering and the evolution process of the eruption. In this paper, we investigate a prominence that erupted on 2012 October 14, recorded in H α , EUV, and X-ray wavelengths. The process of the eruption gives evidence for the existence of a helical magnetic structure showing the twist converting to writhe. The estimated twist is (three turns), exceeding the threshold of the kink instability. The rising plasma reached a high speed of 228 km s −1 , followed by a sudden rapid acceleration of 2715 m s −2 , and was synchronous with a solar flare. Co-spatial cusp-shaped structures were observed in both 131 and 94 Å images from the Atmospheric Imaging Assembly, signifying the location of the magnetic reconnection. The erupted flux rope finally underwent a deceleration with a maximum value of 391 m s −2 , which is larger than the freefall acceleration on the Sun (273 m s −2 ), suggesting that the eruption finally failed, possibly due to an inward magnetic tension force.

Topics & Concepts

PhysicsSolar prominenceCoronal mass ejectionAstrophysicsAccelerationSolar flareTwistMagnetic fluxRopeKink instabilityFlux (metallurgy)FlareMagnetic fieldSolar physicsAstronomyPlasmaPlasma accelerationMagnetic reconnectionLine (geometry)Tension (geology)MagnetohydrodynamicsParticle accelerationSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsLightning and Electromagnetic Phenomena