The Astrophysical Journal (Jan 2024)

A New Asteroseismic Kepler Benchmark Constrains the Onset of Weakened Magnetic Braking in Mature Sun-like Stars

  • Vanshree Bhalotia,
  • Daniel Huber,
  • Jennifer L. van Saders,
  • Travis S. Metcalfe,
  • Keivan G. Stassun,
  • Timothy R. White,
  • Víctor Aguirre Børsen-Koch,
  • Warrick H. Ball,
  • Sarbani Basu,
  • Aldo M. Serenelli,
  • Erica Sawczynec,
  • Joyce A. Guzik,
  • Andrew W. Howard,
  • Howard Isaacson

DOI
https://doi.org/10.3847/1538-4357/ad4eb1
Journal volume & issue
Vol. 970, no. 2
p. 166

Abstract

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Stellar spin down is a critical yet poorly understood component of stellar evolution. In particular, results from the Kepler Mission imply that mature age, solar-type stars have inefficient magnetic braking, resulting in a stalled spin-down rate. However, a large number of precise asteroseismic ages are needed for mature (≥3 Gyr) stars in order to probe the regime where traditional and stalled spin-down models differ. In this paper, we present a new asteroseismic benchmark star for gyrochronology discovered using reprocessed Kepler short cadence data. KIC 11029516 (Papayu) is a bright ( Kp = 9.6 mag) solar-type star with a well-measured rotation period (21.1 ± 0.8 days) from spot modulation using 4 yr of Kepler long-cadence data. We combine asteroseismology and spectroscopy to obtain T _eff = 5888 ± 100 K, [Fe/H] = 0.30 ± 0.06 dex, M = 1.24 ± 0.05 M _⊙ , R = 1.34 ± 0.02 R _⊙ , and age of 4.0 ± 0.4 Gyr, making Papayu one of the most similar stars to the Sun in terms of temperature and radius with an asteroseismic age and a rotation period measured from spot modulation. We find that Papayu sits at the transition of where traditional and weakened spin-down models diverge. A comparison with stars of similar zero-age main-sequence temperatures supports previous findings that weakened spin-down models are required to explain the ages and rotation periods of old solar-type stars.

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