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Early Release Science of the Exoplanet WASP-39b with JWST NIRSpec G395H

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arxiv 2211.10488 v1 pith:Z6GTP7RP submitted 2022-11-18 astro-ph.EP astro-ph.IMastro-ph.SR

Early Release Science of the Exoplanet WASP-39b with JWST NIRSpec G395H

Lili Alderson , Hannah R. Wakeford , Munazza K. Alam , Natasha E. Batalha , Joshua D. Lothringer , Jea Adams Redai , Saugata Barat , Jonathan Brande
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classification astro-ph.EP astro-ph.IMastro-ph.SR
keywords exoplanetabsorptiong395hnirspecobservationssigmaatmospheresjwst
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Measuring the abundances of carbon and oxygen in exoplanet atmospheres is considered a crucial avenue for unlocking the formation and evolution of exoplanetary systems. Access to an exoplanet's chemical inventory requires high-precision observations, often inferred from individual molecular detections with low-resolution space-based and high-resolution ground-based facilities. Here we report the medium-resolution (R$\sim$600) transmission spectrum of an exoplanet atmosphere between 3-5 $\mu$m covering multiple absorption features for the Saturn-mass exoplanet WASP-39b, obtained with JWST NIRSpec G395H. Our observations achieve 1.46x photon precision, providing an average transit depth uncertainty of 221 ppm per spectroscopic bin, and present minimal impacts from systematic effects. We detect significant absorption from CO$_2$ (28.5$\sigma$) and H$_2$O (21.5$\sigma$), and identify SO$_2$ as the source of absorption at 4.1 $\mu$m (4.8$\sigma$). Best-fit atmospheric models range between 3 and 10x solar metallicity, with sub-solar to solar C/O ratios. These results, including the detection of SO$_2$, underscore the importance of characterising the chemistry in exoplanet atmospheres, and showcase NIRSpec G395H as an excellent mode for time series observations over this critical wavelength range.

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