Description
Carbon dioxide (CO2) is a key chemical species that is found in a wide range of
planetary atmospheres. In the context of exoplanets, CO2 is an indicator of the metal
enrichment (that is, elements heavier than helium, also called ‘metallicity’)1–3
, and
thus the formation processes of the primary atmospheres of hot gas giants4–6
. It is
also one of the most promising species to detect in the secondary atmospheres of
terrestrial exoplanets7–9
. Previous photometric measurements of transiting planets
with the Spitzer Space Telescope have given hints of the presence of CO2, but have
not yielded defnitive detections owing to the lack of unambiguous spectroscopic
identifcation10–12. Here we present the detection of CO2 in the atmosphere of the gas
giant exoplanet WASP-39b from transmission spectroscopy observations obtained
with JWST as part of the Early Release Science programme13,14. The data used in this
study span 3.0–5.5 micrometres in wavelength and show a prominent CO2 absorption
feature at 4.3 micrometres (26-sigma signifcance). The overall spectrum is well
matched by one-dimensional, ten-times solar metallicity models that assume
radiative–convective–thermochemical equilibrium and have moderate cloud
opacity. These models predict that the atmosphere should have water, carbon
monoxide and hydrogen sulfde in addition to CO2, but little methane. Furthermore,
we also tentatively detect a small absorption feature near 4.0 micrometres that is
not reproduced by these models.
Related projects
Exoplanets and Astrobiology
The search for life in the universe has been driven by recent discoveries of planets around other stars (known as exoplanets), becoming one of the most active fields in modern astrophysics. The growing number of new exoplanets discovered in recent years and the recent advance on the study of their atmospheres are not only providing new valuable
Enric
Pallé Bago