The Astronomical Journal (Jan 2023)

On the Application of Bayesian Leave-one-out Cross-validation to Exoplanet Atmospheric Analysis

  • Luis Welbanks,
  • Peter McGill,
  • Michael Line,
  • Nikku Madhusudhan

DOI
https://doi.org/10.3847/1538-3881/acab67
Journal volume & issue
Vol. 165, no. 3
p. 112

Abstract

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Over the last decade exoplanetary transmission spectra have yielded an unprecedented understanding about the physical and chemical nature of planets outside our solar system. Physical and chemical knowledge is mainly extracted via fitting competing models to spectroscopic data, based on some goodness-of-fit metric. However, current employed metrics shed little light on how exactly a given model is failing at the individual data point level and where it could be improved. As the quality of our data and complexity of our models increases, there is a need to better understand which observations are driving our model interpretations. Here we present the application of Bayesian leave-one-out cross-validation to assess the performance of exoplanet atmospheric models and compute the expected log pointwise predictive density (elpd _LOO ). elpd _LOO estimates the out-of-sample predictive accuracy of an atmospheric model at data-point resolution, providing interpretable model criticism. We introduce and demonstrate this method on synthetic Hubble Space Telescope transmission spectra of a hot Jupiter. We apply elpd _LOO to interpret current observations of HAT-P-41 b and assess the reliability of recent inferences of H ^− in its atmosphere. We find that previous detections of H ^− are dependent solely on a single data point. This new metric for exoplanetary retrievals complements and expands our repertoire of tools to better understand the limits of our models and data. elpd _LOO provides the means to interrogate models at the single-data-point level, which will help in robustly interpreting the imminent wealth of spectroscopic information coming from JWST.

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