Estimating magnetic filling factors from Zeeman–Doppler magnetograms
Article
Article Title | Estimating magnetic filling factors from Zeeman–Doppler magnetograms |
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ERA Journal ID | 1057 |
Article Category | Article |
Authors | See, Victor (Author), Matt, Sean P. (Author), Folsom, Colin P. (Author), Boro Saikia, Sudeshna (Author), Donati, Jean-Francois (Author), Fares, Rim (Author), Finley, Adam J. (Author), Hebrard, Elodie M. (Author), Jardine, Moira M. (Author), Jeffers, Sandra J. (Author), Lehmann, Lisa T. (Author), Marsden, Stephen C. (Author), Mengel, Matthew W. (Author), Morin, Julian (Author), Petit, Pascal (Author), Vidotto, Aline A. (Author) and Waite, Ian A. (Author) |
Journal Title | The Astrophysical Journal: an international review of astronomy and astronomical physics |
Journal Citation | 876 (2), pp. 118-127 |
Article Number | 118 |
Number of Pages | 10 |
Year | 2019 |
Publisher | IOP Publishing |
Place of Publication | United States |
ISSN | 0004-637X |
1538-4357 | |
Digital Object Identifier (DOI) | https://doi.org/10.3847/1538-4357/ab1096 |
Web Address (URL) | https://iopscience.iop.org/article/10.3847/1538-4357/ab1096 |
Abstract | Low-mass stars are known to have magnetic fields that are believed to be of dynamo origin. Two complementary techniques are principally used to characterize them. Zeeman─Doppler imaging (ZDI) can determine the geometry of the large-scale magnetic field while Zeeman broadening can assess the total unsigned flux including that associated with small-scale structures such as spots. In this work, we study a sample of stars that have been previously mapped with ZDI. We show that the average unsigned magnetic flux follows an activity-rotation relation separating into saturated and unsaturated regimes. We also compare the average photospheric magnetic flux recovered by ZDI, < {B}V> , with that recovered by Zeeman broadening studies, < {B}I> . In line with previous studies, < {B}V> ranges from a few % to ∼20% of < {B}I> . We show that a power-law relationship between < {B}V> and < {B}I> exists and that ZDI recovers a larger fraction of the magnetic flux in more active stars. Using this relation, we improve on previous attempts to estimate filling factors, i.e., the fraction of the stellar surface covered with magnetic field, for stars mapped only with ZDI. Our estimated filling factors follow the well-known activity-rotation relation, which is in agreement with filling factors obtained directly from Zeeman broadening studies. We discuss the possible implications of these results for flux tube expansion above the stellar surface and stellar wind models. |
Keywords | stars; low-mass; magnetic field; rotation; astrophysics; solar and stellar astrophysics |
ANZSRC Field of Research 2020 | 510109. Stellar astronomy and planetary systems |
Institution of Origin | University of Southern Queensland |
Byline Affiliations | University of Exeter, United Kingdom |
University of Toulouse, France | |
University of Vienna, Austria | |
Centre for Astrophysics | |
No affiliation | |
University of St Andrews, United Kingdom | |
University of Gottingen, Germany | |
University of Montpellier, France | |
University of Dublin, Ireland |
https://research.usq.edu.au/item/q54z7/estimating-magnetic-filling-factors-from-zeeman-doppler-magnetograms
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