期刊
ASTRONOMY & ASTROPHYSICS
卷 648, 期 -, 页码 -出版社
EDP SCIENCES S A
DOI: 10.1051/0004-6361/202040027
关键词
stars: activity; stars: solar-type; stars: magnetic field; stars: rotation
资金
- European Research Council (ERC) under the H2020 research and innovation programme [740651]
- European Research Council (ERC) under the European Union's Horizon 2020 research and innovation programme [817540]
In this study, observations of the active K2 dwarf E Eridani were reported based on SPIRou, NARVAL, and TESS data obtained over two months in late 2018. Fundamental parameters of the star were derived from visible and NIR wavelengths, revealing properties of the large-scale magnetic field and chromospheric emission. The photometric monitoring displayed clear signs of non-rotational evolution.
Aims. We report on observations of the active K2 dwarf E Eridani based on contemporaneous SPIRou, NARVAL and TESS data obtained over two months in late 2018, when the activity of the star was reported to be in a non-cyclic phase.Methods. Near-infrared (NIR) spectropolarimetry was obtained using SPIRou over four nights in late September, while visible spectropolarimetry was collected with NARVAL over 20 nights, spread between 18 September and 07 November. We first recovered the fundamental parameters of the target from both visible and NIR spectral fitting. The large-scale magnetic field was investigated from polarimetric data. From unpolarized spectra, we estimated the total magnetic flux through Zeeman broadening of magnetically sensitive NIR lines and the chromospheric emission using the CaII H&K lines. The photometric monitoring, secured with TESS between 19 October and 15 November, is modelled with pseudo-periodic Gaussian process regression.Results. Fundamental parameters of E Eridani derived from visible and NIR wavelengths provide us with consistent results, which also agree with published values. We report a progressive increase of macroturbulence towards larger NIR wavelengths. Zeeman broadening of individual lines highlights an unsigned surface magnetic field B-mono = 1.90 +/- 0.13 kG, with a filling factor f = 12.5 +/- 1.7% (unsigned magnetic flux Bf = 237 +/- 36 G). The large-scale magnetic field geometry, chromospheric emission and broadband photometry display clear signs of non-rotational evolution over the course of data collection. Characteristic decay times deduced from the light curve and longitudinal field fall in the range 30-40 days, while the characteristic timescale of surface differential rotation, as derived through the evolution of the magnetic geometry, is equal to 57 +/- 5 days. The large-scale magnetic field exhibits a combination of properties not observed previously for E Eridani, with a surface field among the weakest previously reported, but this field is also mostly axisymmetric, and is dominated by a toroidal component.
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