Spectropolarimetric observations of an arch filament system with the GREGOR solar telescope

Spectropolarimetric observations of an arch filament system with the GREGOR solar telescope

Arch filament systems occur in active sunspot groups, where a fibril structure connects areas of opposite magnetic polarity, in contrast to active region filaments that follow the polarity inversion line. We used the GREGOR Infrared Spectrograph (GRIS) to obtain the full Stokes vector in the spectra...

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Published in:Astronomische Nachrichten Vol. 337; no. 10; pp. 1050 - 1056
Main Authors: Balthasar, H., Gömöry, P., González Manrique, Sj, Kuckein, C., Kavka, J., Kučera, A., Schwartz, P., Vašková, R., Berkefeld, T., Collados Vera, M., Denker, C., Feller, A., Hofmann, A., Lagg, A., Nicklas, H., Orozco Suárez, D., Pastor Yabar, A., Rezaei, R., Schlichenmaier, R., Schmidt, D., Schmidt, W., Sigwarth, M., Sobotka, M., Solanki, S.K., Soltau, D., Staude, J., Strassmeier, K. G., Volkmer, R., von der Lühe, O., Waldmann, T.
Format: Journal Article
Language:English
Published: Berlin WILEY-VCH Verlag 01-11-2016
WILEY‐VCH Verlag
Wiley Subscription Services, Inc
Subjects:
Arches
Calcium
Filaments
Flux
Inversions
Magnetic fields
Photosphere
Polarity
Sun: filaments
Sun: photosphere
techniques: polarimetric
techniques: spectroscopic
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Summary:Arch filament systems occur in active sunspot groups, where a fibril structure connects areas of opposite magnetic polarity, in contrast to active region filaments that follow the polarity inversion line. We used the GREGOR Infrared Spectrograph (GRIS) to obtain the full Stokes vector in the spectral lines Si I λ 1082.7 nm, He I λ 1083.0 nm, and Ca I λ 1083.9 nm. We focus on the near‐infrared calcium line to investigate the photospheric magnetic field and velocities, and use the line core intensities and velocities of the helium line to study the chromospheric plasma. The individual fibrils of the arch filament system connect the sunspot with patches of magnetic polarity opposite to that of the spot. These patches do not necessarily coincide with pores, where the magnetic field is strongest. Instead, areas are preferred not far from the polarity inversion line. These areas exhibit photospheric downflows of moderate velocity, but significantly higher downflows of up to 30 km s–1 in the chromospheric helium line. Our findings can be explained with new emerging flux where the matter flows downward along the field lines of rising flux tubes, in agreement with earlier results. (© 2016 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)
Bibliography:Leibniz Graduate School for Quantitative Spectroscopy in Astrophysics
ArticleID:ASNA201612432
ark:/67375/WNG-T7HVMPN6-H
European Commission's FP7 Capacities Program under grant agreement No. 312495
istex:5C636273A918171040BD39A2966B40E5E0F7F718
program of the Deutscher Akademischer Austauschdienst (DAAD) and the Slovak Academy of Sciences for project related personnel exchange (project No. 57065721)
project VEGA 2/0004/16
joint project of AIP and the Institute of Physics and Astronomy of the University of Potsdam
SOLARNET Transnational Access and Service (TAS) program
Joint Science Operations Center - Science Data Processing
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0004-6337
1521-3994
DOI:10.1002/asna.201612432