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HST PanCET program: a complete near-UV to infrared transmission spectrum for the hot jupiter WASP-79b

HST PanCET program: a complete near-UV to infrared transmission spectrum for the hot jupiter WASP-79b
HST PanCET program: a complete near-UV to infrared transmission spectrum for the hot jupiter WASP-79b
We present a new optical transmission spectrum of the hot Jupiter WASP-79b. We observed three transits with the STIS instrument mounted on the Hubble Space Telescope (HST), spanning 0.3–1.0 μm. Combining these transits with previous observations, we construct a complete 0.3–5.0 μm transmission spectrum of WASP-79b. Both HST and ground-based observations show decreasing transit depths toward blue wavelengths, contrary to expectations from Rayleigh scattering or hazes. We infer atmospheric and stellar properties from the full near-UV to infrared transmission spectrum of WASP-79b using three independent retrieval codes, all of which yield consistent results. Our retrievals confirm previous detections of H2O (at 4.0σ confidence) while providing moderate evidence of H bound–free opacity (3.3σ) and strong evidence of stellar contamination from unocculted faculae (4.7σ). The retrieved H2O abundance (∼1%) suggests a superstellar atmospheric metallicity, though stellar or substellar abundances remain consistent with present observations (O/H = 0.3–34× stellar). All three retrieval codes obtain a precise H abundance constraint: log (XH-) ≈ −8.0 ± 0.7. The potential presence of H suggests that James Webb Space Telescope observations may be sensitive to ionic chemistry in the atmosphere of WASP-79b. The inferred faculae are ∼500 K hotter than the stellar photosphere, covering ∼15% of the stellar surface. Our analysis underscores the importance of observing UV–optical transmission spectra in order to disentangle the influence of unocculted stellar heterogeneities from planetary transmission spectra.
1538-3881
Rathcke, Alexander D.
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MacDonald, Ryan J.
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Barstow, Joanna K.
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Goyal, Jayesh M.
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Lopez-Morales, Mercedes
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Mendonça, João M.
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Sanz-Forcada, Jorge
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Henry, Gregory W.
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Sing, David K.
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Alam, Munazza K.
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Lewis, Nikole K.
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Chubb, Katy L.
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Taylor, Jake
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Nikolov, Nikolay
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Buchhave, Lars A.
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Rathcke, Alexander D.
4f2c25a8-9c69-48fb-b6b9-46f3738ed40c
MacDonald, Ryan J.
23191045-10dd-4584-a034-f11d40e23252
Barstow, Joanna K.
c121aaae-8e62-4cbc-bd05-9c3195b65b46
Goyal, Jayesh M.
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Lopez-Morales, Mercedes
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Mendonça, João M.
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Sanz-Forcada, Jorge
ad1239b8-b31b-418b-a96c-23b44922cfc4
Henry, Gregory W.
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Sing, David K.
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Alam, Munazza K.
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Lewis, Nikole K.
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Chubb, Katy L.
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Taylor, Jake
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Nikolov, Nikolay
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Buchhave, Lars A.
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Rathcke, Alexander D., MacDonald, Ryan J., Barstow, Joanna K., Goyal, Jayesh M., Lopez-Morales, Mercedes, Mendonça, João M., Sanz-Forcada, Jorge, Henry, Gregory W., Sing, David K., Alam, Munazza K., Lewis, Nikole K., Chubb, Katy L., Taylor, Jake, Nikolov, Nikolay and Buchhave, Lars A. (2021) HST PanCET program: a complete near-UV to infrared transmission spectrum for the hot jupiter WASP-79b. The Astronomical Journal, 162 (4), [138]. (doi:10.3847/1538-3881/ac0e99).

Record type: Article

Abstract

We present a new optical transmission spectrum of the hot Jupiter WASP-79b. We observed three transits with the STIS instrument mounted on the Hubble Space Telescope (HST), spanning 0.3–1.0 μm. Combining these transits with previous observations, we construct a complete 0.3–5.0 μm transmission spectrum of WASP-79b. Both HST and ground-based observations show decreasing transit depths toward blue wavelengths, contrary to expectations from Rayleigh scattering or hazes. We infer atmospheric and stellar properties from the full near-UV to infrared transmission spectrum of WASP-79b using three independent retrieval codes, all of which yield consistent results. Our retrievals confirm previous detections of H2O (at 4.0σ confidence) while providing moderate evidence of H bound–free opacity (3.3σ) and strong evidence of stellar contamination from unocculted faculae (4.7σ). The retrieved H2O abundance (∼1%) suggests a superstellar atmospheric metallicity, though stellar or substellar abundances remain consistent with present observations (O/H = 0.3–34× stellar). All three retrieval codes obtain a precise H abundance constraint: log (XH-) ≈ −8.0 ± 0.7. The potential presence of H suggests that James Webb Space Telescope observations may be sensitive to ionic chemistry in the atmosphere of WASP-79b. The inferred faculae are ∼500 K hotter than the stellar photosphere, covering ∼15% of the stellar surface. Our analysis underscores the importance of observing UV–optical transmission spectra in order to disentangle the influence of unocculted stellar heterogeneities from planetary transmission spectra.

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Rathcke_2021_AJ_162_138 - Version of Record
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Accepted/In Press date: 21 May 2021
Published date: 10 September 2021

Identifiers

Local EPrints ID: 497448
URI: http://eprints.soton.ac.uk/id/eprint/497448
DOI: doi:10.3847/1538-3881/ac0e99
ISSN: 1538-3881
PURE UUID: cd577284-2c40-4d23-9012-d2042570703b
ORCID for João M. Mendonça: ORCID iD orcid.org/0000-0002-6907-4476

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Date deposited: 23 Jan 2025 17:30
Last modified: 22 Aug 2025 02:46

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Contributors

Author: Alexander D. Rathcke
Author: Ryan J. MacDonald
Author: Joanna K. Barstow
Author: Jayesh M. Goyal
Author: Mercedes Lopez-Morales
Author: João M. Mendonça ORCID iD
Author: Jorge Sanz-Forcada
Author: Gregory W. Henry
Author: David K. Sing
Author: Munazza K. Alam
Author: Nikole K. Lewis
Author: Katy L. Chubb
Author: Jake Taylor
Author: Nikolay Nikolov
Author: Lars A. Buchhave

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