Coronal voids and their magnetic nature

J.D. N\"olke; S.K. Solanki; J. Hirzberger; H. Peter; L.P. Chitta; F.; Kahil; G. Valori; T. Wiegelmann; D. Orozco Su\'arez; K. Albert; N. Albelo; Jorge; T. Appourchaux; A. Alvarez-Herrero; J. Blanco Rodr\'iguez; A.; Gandorfer; D. Germerott; L. Guerrero; P. Gutierrez-Marques; M. Kolleck; J.C.; del Toro Iniesta; R. Volkmer; J. Woch; B. Fiethe; J.M. G\'omez Cama; I.; P\'erez-Grande; E. Sanchis Kilders; M. Balaguer Jim\'enez; L.R. Bellot Rubio,; D. Calchetti; M. Carmona; W. Deutsch; A. Feller; G. Fernandez-Rico; A.; Fern\'andez-Medina; P. Garc\'ia Parejo; J.L. Gasent Blesa; L. Gizon; B.; Grauf; K. Heerlein; A. Korpi-Lagg; T. Lange; A. L\'opez Jim\'enez; T. Maue,; R. Meller; A. Moreno Vacas; R. M\"uller; E. Nakai; W. Schmidt; J. Schou; U.; Sch\"uhle; J. Sinjan; J. Staub; H. Strecker; I. Torralbo; D. Berghmans; E.; Kraaikamp; L. Rodriguez; C. Verbeeck; A.N. Zhukov; F. Auchere; E. Buchlin; S.; Parenti; M. Janvier; K. Barczynski; L. Harra; C. Schwanitz; R. Aznar; Cuadrado; S. Mandal; L. Teriaca; D. Long; and P. Smith

arXiv:2309.09789·astro-ph.SR·October 25, 2023

Coronal voids and their magnetic nature

J.D. N\"olke, S.K. Solanki, J. Hirzberger, H. Peter, L.P. Chitta, F., Kahil, G. Valori, T. Wiegelmann, D. Orozco Su\'arez, K. Albert, N. Albelo, Jorge, T. Appourchaux, A. Alvarez-Herrero, J. Blanco Rodr\'iguez, A., Gandorfer, D. Germerott, L. Guerrero, P. Gutierrez-Marques

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TL;DR

This study investigates the magnetic properties of coronal voids, revealing they are regions of reduced magnetic flux and heating, distinct from coronal holes, and are caused by local magnetic flux reduction in the photosphere.

Contribution

It provides the first detailed analysis linking coronal voids' reduced EUV emission to lower magnetic flux density and heating, distinguishing them from coronal holes.

Findings

01

Coronal voids have 67% lower EUV intensity than the mean.

02

Magnetic flux density beneath voids is at least 76% lower.

03

Void regions lack typical network magnetic structures.

Abstract

Extreme ultraviolet (EUV) observations of the quiet solar atmosphere reveal extended regions of weak emission compared to the ambient quiescent corona. The magnetic nature of these coronal features is not well understood. We study the magnetic properties of the weakly emitting extended regions, which we name coronal voids. In particular, we aim to understand whether these voids result from a reduced heat input into the corona or if they are associated with mainly unipolar and possibly open magnetic fields, similar to coronal holes. We defined the coronal voids via an intensity threshold of 75% of the mean quiet-Sun (QS) EUV intensity observed by the high-resolution EUV channel (HRIEUV) of the Extreme Ultraviolet Imager on Solar Orbiter. The line-of-sight magnetograms of the same solar region recorded by the High Resolution Telescope of the Polarimetric and Helioseismic Imager allowed us…

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Taxonomy

TopicsSolar and Space Plasma Dynamics · Stellar, planetary, and galactic studies · Astro and Planetary Science