Early Release Science of the exoplanet WASP-39b with JWST NIRSpec PRISM.
Zafar RustamkulovDavid K SingS MukherjeeE M MayJ KirkE SchlawinMichael R LineCaroline PiauletA L CarterN E BatalhaJ M GoyalMercedes López-MoralesJoshua D LothringerR J MacDonaldS E MoranKevin B StevensonHannah R WakefordN EspinozaJ L BeanN M BatalhaBjörn BennekeZ K Berta-ThompsonI J M CrossfieldP GaoL KreidbergDiana PowellP E CubillosN P GibsonJ LeconteKaran MolaverdikhaniNikolay K NikolovV ParmentierP RoyJake TaylorJ D TurnerPeter J WheatleyKeshav AggarwalEva-Maria AhrerM K AlamLili AldersonNatalie AllenA BanerjeeS BaratDavid BarradoJoanna K BarstowT J BellJ BlecicJ BrandeS CasewellQ ChangeatK L ChubbNicolas CrouzetTansu DaylanLeen DecinJ DésertThomas M Evans-SomaAdina D FeinsteinL FlaggJ J FortneyJoseph HarringtonK HengY HongRenyu HuN IroT KatariaEliza M-R KemptonJ KrickM LendlJorge Lillo-BoxA LoucaJ Lustig-YaegerLuigi ManciniMegan MansfieldNathan J MayneY MiguelGiuseppe MorelloK OhnoEnric PalleD J M Petit Dit de la RocheB V RackhamM RadicaL Ramos-RosadoSeth RedfieldL K RogersE L ShkolnikJ SouthworthJ TeskePascal TremblinG S TuckerO VenotW C WaalkesL WelbanksXi ZhangS ZiebaPublished in: Nature (2023)
Transmission spectroscopy 1-3 of exoplanets has revealed signatures of water vapour, aerosols and alkali metals in a few dozen exoplanet atmospheres 4,5 . 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 molecules 6,7 . Here we report a broad-wavelength 0.5-5.5 µm atmospheric transmission spectrum of WASP-39b 8 , a 1,200 K, roughly Saturn-mass, Jupiter-radius exoplanet, measured with the JWST NIRSpec's PRISM mode 9 as part of the JWST Transiting Exoplanet Community Early Release Science Team Program 10-12 . We robustly detect several chemical species at high significance, including Na (19σ), H 2 O (33σ), CO 2 (28σ) and CO (7σ). The non-detection of CH 4 , combined with a strong CO 2 feature, favours atmospheric models with a super-solar atmospheric metallicity. An unanticipated absorption feature at 4 µm is best explained by SO 2 (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.
Keyphrases
- particulate matter
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