The Astronomical Journal (Jan 2023)

Bayesian Analysis for Remote Biosignature Identification on exoEarths (BARBIE). II. Using Grid-based Nested Sampling in Coronagraphy Observation Simulations for O2 and O3

  • Natasha Latouf,
  • Avi M. Mandell,
  • Geronimo L. Villanueva,
  • Michael D. Himes,
  • Michael Dane Moore,
  • Nicholas Susemiehl,
  • Jaime Crouse,
  • Shawn Domagal-Goldman,
  • Giada Arney,
  • Vincent Kofman,
  • Amber V. Young

DOI
https://doi.org/10.3847/1538-3881/ad0fde
Journal volume & issue
Vol. 167, no. 1
p. 27

Abstract

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We present the results for the detectability of the O _2 and O _3 molecular species in the atmosphere of an Earth-like planet using reflected light at visible wavelengths. By quantifying the detectability as a function of the signal-to-noise ratio (S/N), we can constrain the best methods to detect these biosignatures with next-generation telescopes designed for high-contrast coronagraphy. Using 25 bandpasses between 0.515 and 1 μ m and a preconstructed grid of geometric albedo spectra, we examined the spectral sensitivity needed to detect these species for a range of molecular abundances. We first replicate a modern-Earth twin atmosphere to study the detectability of current O _2 and O _3 levels, and then expand to a wider range of literature-driven abundances for each molecule. We constrain the optimal 20%, 30%, and 40% bandpasses based on the effective S/N of the data, and define the requirements for the possibility of simultaneous molecular detection. We present our findings of O _2 and O _3 detectability as functions of the S/N, wavelength, and abundance, and discuss how to use these results for optimizing future instrument designs. We find that O _2 is detectable between 0.64 and 0.83 μ m with moderate-S/N data for abundances near that of modern Earth and greater, but undetectable for lower abundances consistent with a Proterozoic Earth. O _3 is detectable only at very high S/N data in the case of modern-Earth abundances; however, it is detectable at low-S/N data for higher O _3 abundances that can occur from efficient abiotic O _3 production mechanisms.

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