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The Photospheric Footpoints of Solar Coronal Hole Jets

K. Muglach

2021The Astrophysical Journal25 citationsDOIOpen Access PDF

Abstract

Abstract We study the photospheric footpoints of a set of 35 coronal jets in a coronal hole as observed by Hinode/EIS. We use SDO/AIA data to coalign the spectroscopic EIS data with SDO/HMI line-of-sight magnetograms and calculate the plane-of-sky flow field using local correlation tracking (LCT) on SDO/HMI white light images. The jets are put into categories according to the changes observed in the photospheric magnetic flux at the footpoints of the coronal bright point where the jets originate: flux cancellation, complex flux changes (flux appearance/emergence and cancellation), and no flux changes. We also present three jets in detail. Observed magnetic flux evolution, LCT flow field structure and location of the jet footpoints at supergranular boundaries do not support the flux emergence scenario used in most jet simulations and are also not consistent with a rotational photospheric driver. Detailed numerical jet simulations using our observed photospheric features, in particular converging flows and flux cancellation do not currently exist, although such models would provide a realistic eruptive event scenario.

Topics & Concepts

PhysicsAstrophysicsFlux (metallurgy)Jet (fluid)Magnetic fluxMagnetic fieldFlux tubeMagnetogramAstronomyMechanicsMaterials scienceQuantum mechanicsMetallurgySolar and Space Plasma DynamicsStellar, planetary, and galactic studiesIonosphere and magnetosphere dynamics
The Photospheric Footpoints of Solar Coronal Hole Jets | Litcius