Thomas P. Greene, Michael R. Line, Cezar Montero, Jonathan J. Fortney, Jacob Lustig-Yaeger, Kyle Luther

Research output: Contribution to journalArticlepeer-review

317 Scopus citations


We explore how well spectra from the James Webb Space Telescope (JWST) will likely constrain bulk atmospheric properties of transiting exoplanets. We start by modeling the atmospheres of archetypal hot Jupiter, warm Neptune, warm sub-Neptune, and cool super-Earth planets with atmospheres that are clear, cloudy, or of high mean molecular weight (HMMW). Next we simulate the λ = 1-11 μm transmission and emission spectra of these systems for several JWST instrument modes for single-transit or single-eclipse events. We then perform retrievals to determine how well temperatures and molecular mixing ratios (CH4, CO, CO2, H2O, NH3) can be constrained. We find that λ = 1-2.5 μm transmission spectra will often constrain the major molecular constituents of clear solar-composition atmospheres well. Cloudy or HMMW atmospheres will often require full 1-11 μm spectra for good constraints, and emission data may be more useful in cases of sufficiently high Fp and high Fp/F. Strong temperature inversions in the solar-composition hot-Jupiter atmosphere should be detectable with 1-2.5+ μm emission spectra, and 1-5+ μm emission spectra will constrain the temperature-pressure profiles of warm planets. Transmission spectra over 1-5+ μm will constrain [Fe/H] values to better than 0.5 dex for the clear atmospheres of the hot and warm planets studied. Carbon-to-oxygen ratios can be constrained to better than a factor of 2 in some systems. We expect that these results will provide useful predictions of the scientific value of single-event JWST spectra until its on-orbit performance is known.

Original languageEnglish (US)
Article number17
JournalAstrophysical Journal
Issue number1
StatePublished - Jan 20 2016
Externally publishedYes


  • methods: statistical
  • planets and satellites: atmospheres
  • planets and satellites: composition
  • techniques: spectroscopic

ASJC Scopus subject areas

  • Astronomy and Astrophysics
  • Space and Planetary Science


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