Limits on the atmospheric metallicity and aerosols of the sub-Neptune GJ 3090 b from high-resolution CRIRES+ spectroscopy
Limits on the atmospheric metallicity and aerosols of the sub-Neptune GJ 3090 b from high-resolution CRIRES+ spectroscopy
The sub-Neptune planets have no solar system analogues, and their low bulk densities suggest thick atmospheres containing degenerate quantities of volatiles and H/He, surrounding cores of unknown sizes. Measurements of their atmospheric composition can help break these degeneracies, but many previous studies at low spectral resolution have largely been hindered by clouds or hazes, returning muted spectra. Here, we present the first comprehensive study of a short-period sub-Neptune using ground-based, high-resolution spectroscopy, which is sensitive to the cores of spectral lines that can extend above potential high altitude aerosol layers. We observe four CRIRES+ $\textit{K}$-band transits of the warm sub-Neptune GJ 3090 b (T$_{\text{eq}}$ = 693$\pm$18 K) which orbits an M2V host star. Despite the high quality data and sensitivity to CH$_4$, H$_2$O, NH$_3$, and H$_2$S, we detect no molecular species. Injection-recovery tests are consistent with two degenerate scenarios. First, GJ 3090 b may host a highly metal-enriched atmosphere with $>\,$150 Z$_{\odot}$ and mean molecular weight $>\,$7.1 g mol$^{-1}$, representing a volatile dominated envelope with a H/He mass fraction $x_{\text{H/He}} < 33\%$, and an unconstrained aerosol layer. Second, the data are consistent with a high altitude cloud or haze layer at pressures $
astro-ph.EP
3263–3283
Parker, Luke T.
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Mendonça, João M.
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Diamond-Lowe, Hannah
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Birkby, Jayne L.
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Meech, Annabella
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Vaughan, Sophia R.
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Brogi, Matteo
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Fisher, Chloe
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Buchhave, Lars A.
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Bello-Arufe, Aaron
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Kreidberg, Laura
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Dittmann, Jason
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4 April 2025
Parker, Luke T.
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Mendonça, João M.
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Diamond-Lowe, Hannah
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Birkby, Jayne L.
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Meech, Annabella
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Vaughan, Sophia R.
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Brogi, Matteo
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Fisher, Chloe
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Buchhave, Lars A.
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Bello-Arufe, Aaron
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Kreidberg, Laura
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Dittmann, Jason
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Parker, Luke T., Mendonça, João M., Diamond-Lowe, Hannah, Birkby, Jayne L., Meech, Annabella, Vaughan, Sophia R., Brogi, Matteo, Fisher, Chloe, Buchhave, Lars A., Bello-Arufe, Aaron, Kreidberg, Laura and Dittmann, Jason
(2025)
Limits on the atmospheric metallicity and aerosols of the sub-Neptune GJ 3090 b from high-resolution CRIRES+ spectroscopy.
Monthly Notices of the Royal Astronomical Society: Letters, 538 (4), .
(doi:10.1093/mnras/staf469).
Abstract
The sub-Neptune planets have no solar system analogues, and their low bulk densities suggest thick atmospheres containing degenerate quantities of volatiles and H/He, surrounding cores of unknown sizes. Measurements of their atmospheric composition can help break these degeneracies, but many previous studies at low spectral resolution have largely been hindered by clouds or hazes, returning muted spectra. Here, we present the first comprehensive study of a short-period sub-Neptune using ground-based, high-resolution spectroscopy, which is sensitive to the cores of spectral lines that can extend above potential high altitude aerosol layers. We observe four CRIRES+ $\textit{K}$-band transits of the warm sub-Neptune GJ 3090 b (T$_{\text{eq}}$ = 693$\pm$18 K) which orbits an M2V host star. Despite the high quality data and sensitivity to CH$_4$, H$_2$O, NH$_3$, and H$_2$S, we detect no molecular species. Injection-recovery tests are consistent with two degenerate scenarios. First, GJ 3090 b may host a highly metal-enriched atmosphere with $>\,$150 Z$_{\odot}$ and mean molecular weight $>\,$7.1 g mol$^{-1}$, representing a volatile dominated envelope with a H/He mass fraction $x_{\text{H/He}} < 33\%$, and an unconstrained aerosol layer. Second, the data are consistent with a high altitude cloud or haze layer at pressures $
Text
2503.16608v1
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staf469
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Accepted/In Press date: 19 March 2025
e-pub ahead of print date: 21 March 2025
Published date: 4 April 2025
Keywords:
astro-ph.EP
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Local EPrints ID: 501669
URI: http://eprints.soton.ac.uk/id/eprint/501669
ISSN: 1745-3925
PURE UUID: c4a4f9ff-5e80-463c-b912-9a9c6fa18977
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Date deposited: 05 Jun 2025 16:42
Last modified: 03 Sep 2025 02:14
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Contributors
Author:
Luke T. Parker
Author:
João M. Mendonça
Author:
Hannah Diamond-Lowe
Author:
Jayne L. Birkby
Author:
Annabella Meech
Author:
Sophia R. Vaughan
Author:
Matteo Brogi
Author:
Chloe Fisher
Author:
Lars A. Buchhave
Author:
Aaron Bello-Arufe
Author:
Laura Kreidberg
Author:
Jason Dittmann
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