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| Main Authors: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Format: | Preprint |
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2025
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| Online Access: | https://arxiv.org/abs/2504.20428 |
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| author | Ahrer, Eva-Maria Radica, Michael Piaulet-Ghorayeb, Caroline Raul, Eshan Wiser, Lindsey S. Welbanks, Luis Acuna, Lorena Allart, Romain Coulombe, Louis-Philippe Louca, Amy J. MacDonald, Ryan J. Saidel, Morgan Evans-Soma, Thomas M. Benneke, Björn Christie, Duncan Beatty, Thomas G. Cadieux, Charles Cloutier, Ryan Doyon, René Fortney, Jonathan J. Gagnebin, Anna Gapp, Cyril Innes, Hamish Knutson, Heather A. Komacek, Thaddeus D. Krissansen-Totton, Joshua E. Miguel, Yamila Pierrehumbert, Raymond T. Roy, Pierre-Alexis Schlichting, Hilke E. |
| author_facet | Ahrer, Eva-Maria Radica, Michael Piaulet-Ghorayeb, Caroline Raul, Eshan Wiser, Lindsey S. Welbanks, Luis Acuna, Lorena Allart, Romain Coulombe, Louis-Philippe Louca, Amy J. MacDonald, Ryan J. Saidel, Morgan Evans-Soma, Thomas M. Benneke, Björn Christie, Duncan Beatty, Thomas G. Cadieux, Charles Cloutier, Ryan Doyon, René Fortney, Jonathan J. Gagnebin, Anna Gapp, Cyril Innes, Hamish Knutson, Heather A. Komacek, Thaddeus D. Krissansen-Totton, Joshua E. Miguel, Yamila Pierrehumbert, Raymond T. Roy, Pierre-Alexis Schlichting, Hilke E. |
| contents | Sub-Neptunes, the most common planet type, remain poorly understood. Their atmospheres are expected to be diverse, but their compositions are challenging to determine, even with JWST. Here, we present the first JWST spectroscopic study of the warm sub-Neptune GJ3090b (2.13R$_\oplus$, Teq~700 K) which orbits an M2V star, making it a favourable target for atmosphere characterization. We observed four transits of GJ3090b; two each using JWST NIRISS/SOSS and NIRSpec/G395H, yielding wavelength coverage from 0.6-5.2 $μ$m. We detect the signature of the 10833 Å metastable Helium triplet at a statistical significance of 5.5$σ$ with an amplitude of 434$\pm$79 ppm, marking the first such detection in a sub-Neptune with JWST. This amplitude is significantly smaller than predicted by solar-metallicity forward models, suggesting a metal-enriched atmosphere which decreases the mass-loss rate and attenuates the Helium feature amplitude. Moreover, we find that stellar contamination, in the form of the transit light source effect, dominates the NIRISS transmission spectra, with unocculted spot and faculae properties varying across the two visits separated in time by approximately six months. Free retrieval analyses on the NIRSpec/G395H spectrum find tentative evidence for highly muted features and a lack of CH4. These findings are best explained by a high metallicity atmosphere (>100x solar at 3$σ$ confidence, for clouds at $\sim μ$bar pressures) using chemically-consistent retrievals and self-consistent model grids. Further observations of GJ3090b are needed for tighter constraints on the atmospheric abundances, and to gain a deeper understanding of the processes that led to its potential metal enrichment. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2504_20428 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Escaping Helium and a Highly Muted Spectrum Suggest a Metal-Enriched Atmosphere on Sub-Neptune GJ3090b from JWST Transit Spectroscopy Ahrer, Eva-Maria Radica, Michael Piaulet-Ghorayeb, Caroline Raul, Eshan Wiser, Lindsey S. Welbanks, Luis Acuna, Lorena Allart, Romain Coulombe, Louis-Philippe Louca, Amy J. MacDonald, Ryan J. Saidel, Morgan Evans-Soma, Thomas M. Benneke, Björn Christie, Duncan Beatty, Thomas G. Cadieux, Charles Cloutier, Ryan Doyon, René Fortney, Jonathan J. Gagnebin, Anna Gapp, Cyril Innes, Hamish Knutson, Heather A. Komacek, Thaddeus D. Krissansen-Totton, Joshua E. Miguel, Yamila Pierrehumbert, Raymond T. Roy, Pierre-Alexis Schlichting, Hilke E. Earth and Planetary Astrophysics Sub-Neptunes, the most common planet type, remain poorly understood. Their atmospheres are expected to be diverse, but their compositions are challenging to determine, even with JWST. Here, we present the first JWST spectroscopic study of the warm sub-Neptune GJ3090b (2.13R$_\oplus$, Teq~700 K) which orbits an M2V star, making it a favourable target for atmosphere characterization. We observed four transits of GJ3090b; two each using JWST NIRISS/SOSS and NIRSpec/G395H, yielding wavelength coverage from 0.6-5.2 $μ$m. We detect the signature of the 10833 Å metastable Helium triplet at a statistical significance of 5.5$σ$ with an amplitude of 434$\pm$79 ppm, marking the first such detection in a sub-Neptune with JWST. This amplitude is significantly smaller than predicted by solar-metallicity forward models, suggesting a metal-enriched atmosphere which decreases the mass-loss rate and attenuates the Helium feature amplitude. Moreover, we find that stellar contamination, in the form of the transit light source effect, dominates the NIRISS transmission spectra, with unocculted spot and faculae properties varying across the two visits separated in time by approximately six months. Free retrieval analyses on the NIRSpec/G395H spectrum find tentative evidence for highly muted features and a lack of CH4. These findings are best explained by a high metallicity atmosphere (>100x solar at 3$σ$ confidence, for clouds at $\sim μ$bar pressures) using chemically-consistent retrievals and self-consistent model grids. Further observations of GJ3090b are needed for tighter constraints on the atmospheric abundances, and to gain a deeper understanding of the processes that led to its potential metal enrichment. |
| title | Escaping Helium and a Highly Muted Spectrum Suggest a Metal-Enriched Atmosphere on Sub-Neptune GJ3090b from JWST Transit Spectroscopy |
| topic | Earth and Planetary Astrophysics |
| url | https://arxiv.org/abs/2504.20428 |