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() ≈ −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.
Original language | English |
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Article number | 138 |
Journal | Astronomical Journal |
Volume | 162 |
Issue number | 4 |
ISSN | 0004-6256 |
DOIs | |
Publication status | Published - 2021 |