Please use this identifier to cite or link to this item: http://hdl.handle.net/2248/8034
Title: Nature of helicity injection in non-erupting solar active regions
Authors: Vemareddy, P
Keywords: Sun: coronal mass ejections (CMEs)
Sun: flares
Sun: fundamental parameters
Sun: evolution
Sun: magnetic fields
Sun: photosphere
Issue Date: Oct-2022
Publisher: Oxford University Press on behalf of Royal Astronomical Society
Citation: Monthly Notice of Royal Astronomical Society, Vol. 516, No. 1, pp. 158–166
Abstract: Using time-sequence vector magnetic field and coronal observations from Solar Dynamics Observatory, we report the observations of the magnetic field evolution and coronal activity in four emerging active regions (ARs). The ARs emerge with leading polarity being the same as for the majority of ARs in a hemisphere of solar cycle 24. After emergence, the magnetic polarities separate each other without building a sheared polarity inversion line. In all four ARs, the magnetic fields are driven by foot point motions such that the sign of the helicity injection (dH/dt) in the first half of the evolution is changed to the opposite sign in the later part of the observation time. This successive injection of opposite helicity is also consistent with the sign of mean force–free twist parameter (αav). Further, the EUV light curves off the ARs in 94 Å and GOES X-ray flux reveal flaring activity below C-class magnitude. Importantly, the white-light coronagraph images in conjunction with the AR images in Atmospheric Imaging Assembly (AIA) 94 Å delineate the absence of associated Coronal Mass ejections (CMEs) with the studied ARs. These observations imply that the ARs with successive injection of opposite sign magnetic helicity are not favourable to twisted flux rope formation with excess coronal helicity, and therefore are unable to launch CMEs, according to recent reports. This study provides the characteristics of helicity flux evolution in the ARs referring to the conservative property of magnetic helicity and more such studies would help to quantify the eruptive capability of a given AR.
Description: Restricted Access
URI: http://hdl.handle.net/2248/8034
ISSN: 1365-2966
Appears in Collections:IIAP Publications

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