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A warm Neptune's methane reveals core mass and vigorous atmospheric mixing.

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Peer-reviewed

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Authors

Thorngren, Daniel P 

Abstract

Observations of transiting gas giant exoplanets have revealed a pervasive depletion of methane1-4, which has only recently been identified atmospherically5,6. The depletion is thought to be maintained by disequilibrium processes such as photochemistry or mixing from a hotter interior7-9. However, the interiors are largely unconstrained along with the vertical mixing strength and only upper limits on the CH4 depletion have been available. The warm Neptune WASP-107b stands out among exoplanets with an unusually low density, reported low core mass10, and temperatures amenable to CH4, though previous observations have yet to find the molecule2,4. Here we present a JWST-NIRSpec transmission spectrum of WASP-107b that shows features from both SO2 and CH4 along with H2O, CO2, and CO. We detect methane with 4.2σ significance at an abundance of 1.0 ± 0.5 ppm, which is depleted by 3 orders of magnitude relative to equilibrium expectations. Our results are highly constraining for the atmosphere and interior, which indicate the envelope has a super-solar metallicity of 43 ± 8 × solar, a hot interior with an intrinsic temperature of Tint = 460 ± 40 K, and vigorous vertical mixing which depletes CH4 with a diffusion coefficient of Kzz = 1011.6±0.1 cm2 s-1. Photochemistry has a negligible effect on the CH4 abundance but is needed to account for the SO2. We infer a core mass of 11.5 - 3.6 + 3.0 M ⊕ , which is much higher than previous upper limits10, releasing a tension with core-accretion models11.

Description

Acknowledgements: This work is based on the observations made with the NASA/ESA/CSA JWST. The data were obtained from the Mikulski Archive for Space Telescopes at the Space Telescope Science Institute, operated by the Association of Universities for Research in Astronomy, under NASA contract NAS 5-03127 for JWST. E.K.H. Lee is supported by the SNSF Ambizione Fellowship grant (#193448). J.K.B. is supported by UK Research and Innovation via an STFC Ernest Rutherford Fellowship (ST/T004479/1).

Keywords

5109 Space Sciences, 51 Physical Sciences

Journal Title

Nature

Conference Name

Journal ISSN

0028-0836
1476-4687

Volume Title

630

Publisher

Springer Science and Business Media LLC