The Astrophysical Journal (Jan 2023)

Rocky Planet or Water World? Observability of Low-density Lava World Atmospheres

  • Anjali A. A. Piette,
  • Peter Gao,
  • Kara Brugman,
  • Anat Shahar,
  • Tim Lichtenberg,
  • Francesca Miozzi,
  • Peter Driscoll

DOI
https://doi.org/10.3847/1538-4357/acdef2
Journal volume & issue
Vol. 954, no. 1
p. 29

Abstract

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Super-Earths span a wide range of bulk densities, indicating a diversity in interior conditions beyond that seen in the solar system. In particular, an emerging population of low-density super-Earths may be explained by volatile-rich interiors. Among these, low-density lava worlds have dayside temperatures that are high enough to evaporate their surfaces, providing a unique opportunity to probe their interior compositions and test for the presence of volatiles. In this work, we investigate the atmospheric observability of low-density lava worlds. We use a radiative-convective model to explore the atmospheric structures and emission spectra of these planets, focusing on three case studies with high observability metrics and substellar temperatures spanning ∼1900–2800 K: HD 86226 c, HD 3167 b, and 55 Cnc e. Given the possibility of mixed volatile and silicate interior compositions for these planets, we consider a range of mixed volatile and rock-vapor atmospheric compositions. This includes a range of volatile fractions and three volatile compositions: water-rich (100% H _2 O), water with CO _2 (80% H _2 O+20% CO _2 ), and a desiccated O-rich scenario (67% O _2 +33% CO _2 ). We find that spectral features due to H _2 O, CO _2 , SiO, and SiO _2 are present in the infrared emission spectra as either emission or absorption features, depending on dayside temperature, volatile fraction, and volatile composition. We further simulate JWST secondary-eclipse observations for each of the three case studies, finding that H _2 O and/or CO _2 could be detected with as few as ∼five eclipses. Detecting volatiles in these atmospheres would provide crucial independent evidence that volatile-rich interiors exist among the super-Earth population.

Keywords