Doppler images and the underlying dynamo. The case of AF Leporis
Abstract
Context. The (Zeeman-)Doppler imaging studies of solar-type stars very often reveal large high-latitude spots. This also includes F stars that possess relatively shallow convection zones, indicating that the dynamo operating in these stars differs from the solar dynamo.
Aims: We aim to determine whether mean-field dynamo models of late-F type dwarf stars can reproduce the surface features recovered in Doppler maps. In particular, we wish to test whether the models can reproduce the high-latitude spots observed on some F dwarfs.
Methods: The photometric inversions and the surface temperature maps of AF Lep were obtained using the Occamian-approach inversion technique. Low signal-to-noise spectroscopic data were improved by applying the least-squares deconvolution method. The locations of strong magnetic flux in the stellar tachocline as well as the surface fields obtained from mean-field dynamo solutions were compared with the observed surface temperature maps.
Results: The photometric record of AF Lep reveals both long- and short-term variability. However, the current data set is too short for cycle-length estimates. From the photometry, we have determined the rotation period of the star to be 0.9660 ± 0.0023 days. The surface temperature maps show a dominant, but evolving, high-latitude (around +65°) spot. Detailed study of the photometry reveals that sometimes the spot coverage varies only marginally over a long time, and at other times it varies rapidly. Of a suite of dynamo models, the model with a radiative interior rotating as fast as the convection zone at the equator delivered the highest compatibility with the obtained Doppler images.
- Publication:
-
Astronomy and Astrophysics
- Pub Date:
- February 2015
- DOI:
- 10.1051/0004-6361/201424229
- arXiv:
- arXiv:1412.2892
- Bibcode:
- 2015A&A...574A..25J
- Keywords:
-
- stars: imaging;
- stars: activity;
- starspots;
- stars: individual: AF Leb;
- dynamo;
- Astrophysics - Solar and Stellar Astrophysics
- E-Print:
- accepted for publication in Astronomy &