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Early Release Science of the exoplanet WASP-39b with JWST NIRSpec PRISM

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Title: Early Release Science of the exoplanet WASP-39b with JWST NIRSpec PRISM
Authors: Rustamkulov, Z
Sing, DK
Mukherjee, S
May, EM
Kirk, J
Schlawin, E
Line, MR
Piaulet, C
Carter, AL
Batalha, NE
Goyal, JM
Lopez-Morales, M
Lothringer, JD
MacDonald, RJ
Moran, SE
Stevenson, KB
Wakeford, HR
Espinoza, N
Bean, JL
Batalha, NM
Benneke, B
Berta-Thompson, ZK
Crossfield, IJM
Gao, P
Kreidberg, L
Powell, DK
Cubillos, PE
Gibson, NP
Leconte, J
Molaverdikhani, K
Nikolov, NK
Parmentier, V
Roy, P
Taylor, J
Turner, JD
Wheatley, PJ
Aggarwal, K
Ahrer, E
Alam, MK
Alderson, L
Allen, NH
Banerjee, A
Barat, S
Barrado, D
Barstow, JK
Bell, TJ
Blecic, J
Brande, J
Casewell, S
Changeat, Q
Chubb, KL
Crouzet, N
Daylan, T
Decin, L
Desert, J
Mikal-Evans, T
Feinstein, AD
Flagg, L
Fortney, JJ
Harrington, J
Heng, K
Hong, Y
Hu, R
Iro, N
Kataria, T
Kempton, EM-R
Krick, J
Lendl, M
Lillo-Box, J
Louca, A
Lustig-Yaeger, J
Mancini, L
Mansfield, M
Mayne, NJ
Miguel, Y
Morello, G
Ohno, K
Palle, E
Petit Dit de la Roche, DJM
Rackham, BV
Radica, M
Ramos-Rosado, L
Redfield, S
Rogers, LK
Shkolnik, EL
Southworth, J
Teske, J
Tremblin, P
Tucker, GS
Venot, O
Waalkes, WC
Welbanks, L
Zhang, X
Zieba, S
Item Type: Journal Article
Abstract: Transmission spectroscopy1,2,3 of exoplanets has revealed signatures of water vapour, aerosols and alkali metals in a few dozen exoplanet atmospheres4,5. However, these previous inferences with the Hubble and Spitzer Space Telescopes were hindered by the observations’ relatively narrow wavelength range and spectral resolving power, which precluded the unambiguous identification of other chemical species—in particular the primary carbon-bearing molecules6,7. Here we report a broad-wavelength 0.5–5.5 µm atmospheric transmission spectrum of WASP-39b8, a 1,200 K, roughly Saturn-mass, Jupiter-radius exoplanet, measured with the JWST NIRSpec’s PRISM mode9 as part of the JWST Transiting Exoplanet Community Early Release Science Team Program10,11,12. We robustly detect several chemical species at high significance, including Na (19σ), H2O (33σ), CO2 (28σ) and CO (7σ). The non-detection of CH4, combined with a strong CO2 feature, favours atmospheric models with a super-solar atmospheric metallicity. An unanticipated absorption feature at 4 µm is best explained by SO2 (2.7σ), which could be a tracer of atmospheric photochemistry. These observations demonstrate JWST’s sensitivity to a rich diversity of exoplanet compositions and chemical processes.
Issue Date: 23-Feb-2023
Date of Acceptance: 21-Dec-2022
URI: http://hdl.handle.net/10044/1/106658
DOI: 10.1038/s41586-022-05677-y
ISSN: 0028-0836
Publisher: Nature Research
Start Page: 659
End Page: 663
Journal / Book Title: Nature
Volume: 614
Issue: 7949
Copyright Statement: Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. © The Author(s) 2023
Publication Status: Published
Online Publication Date: 2023-01-09
Appears in Collections:Physics
Astrophysics



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