The Astrophysical Journal (Jan 2024)

Low-amplitude Solar-like Oscillations in the K5 V Star ϵ Indi A

  • Mia S. Lundkvist,
  • Hans Kjeldsen,
  • Timothy R. Bedding,
  • Mark J. McCaughrean,
  • R. Paul Butler,
  • Ditte Slumstrup,
  • Tiago L. Campante,
  • Conny Aerts,
  • Torben Arentoft,
  • Hans Bruntt,
  • Cátia V. Cardoso,
  • Fabien Carrier,
  • Laird M. Close,
  • João Gomes da Silva,
  • Thomas Kallinger,
  • Robert R. King,
  • Yaguang Li,
  • Simon J. Murphy,
  • Jakob L. Rørsted,
  • Dennis Stello

DOI
https://doi.org/10.3847/1538-4357/ad25f2
Journal volume & issue
Vol. 964, no. 2
p. 110

Abstract

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We have detected solar-like oscillations in the mid-K-dwarf ϵ Indi A, making it the coolest dwarf to have measured oscillations. The star is noteworthy for harboring a pair of brown dwarf companions and a Jupiter-type planet. We observed ϵ Indi A during two radial velocity campaigns, using the high-resolution spectrographs HARPS (2011) and UVES (2021). Weighting the time series, we computed the power spectra and established the detection of solar-like oscillations with a power excess located at 5265 ± 110 μ Hz—the highest frequency solar-like oscillations so far measured in any star. The measurement of the center of the power excess allows us to compute a stellar mass of 0.782 ± 0.023 M _⊙ based on scaling relations and a known radius from interferometry. We also determine the amplitude of the peak power and note that there is a slight difference between the two observing campaigns, indicating a varying activity level. Overall, this work confirms that low-amplitude solar-like oscillations can be detected in mid-K-type stars in radial velocity measurements obtained with high-precision spectrographs.

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