The Astronomical Journal (Jan 2024)

The First Evidence of a Host Star Metallicity Cutoff in the Formation of Super-Earth Planets

  • Kiersten M. Boley,
  • Jessie L. Christiansen,
  • Jon Zink,
  • Kevin Hardegree-Ullman,
  • Eve J. Lee,
  • Philip F. Hopkins,
  • Ji Wang,
  • Rachel B. Fernandes,
  • Galen J. Bergsten,
  • Sakhee Bhure

DOI
https://doi.org/10.3847/1538-3881/ad6570
Journal volume & issue
Vol. 168, no. 3
p. 128

Abstract

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Planet formation is expected to be severely limited in disks of low metallicity, owing to both the small solid mass reservoir and the low-opacity accelerating the disk gas dissipation. While previous studies have found a weak correlation between the occurrence rates of small planets (≲4 R _⊕ ) and stellar metallicity, so far no studies have probed below the metallicity limit beyond which planet formation is predicted to be suppressed. Here, we constructed a large catalog of ∼110,000 metal-poor stars observed by the TESS mission with spectroscopically derived metallicities, and systematically probed planet formation within the metal-poor regime ([Fe/H] ≤−0.5) for the first time. Extrapolating known higher-metallicity trends for small, short-period planets predicts the discovery of ∼68 super-Earths around these stars (∼85,000 stars) after accounting for survey completeness; however, we detect none. As a result, we have placed the most stringent upper limit on super-Earth occurrence rates around metal-poor stars (−0.75 < [Fe/H] ≤ −0.5) to date, ≤ 1.67%, a statistically significant ( p -value = 0.000685) deviation from the prediction of metallicity trends derived with Kepler and K2. We find a clear host star metallicity cliff for super-Earths that could indicate the threshold below which planets are unable to grow beyond an Earth-mass at short orbital periods. This finding provides a crucial input to planet-formation theories, and has implications for the small planet inventory of the Galaxy and the galactic epoch at which the formation of small planets started.

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