Sulfur Dioxide and Other Molecular Species in the Atmosphere of the Sub-Neptune GJ 3470 b

Thomas G. Beatty; Luis Welbanks; Everett Schlawin; Taylor J. Bell; Michael R. Line; Matthew Murphy; Isaac Edelman; Thomas P. Greene; Jonathan J. Fortney; Gregory W. Henry; Sagnick Mukherjee; Kazumasa Ohno; Vivien Parmentier; Emily Rauscher; Lindsey S. Wiser; Kenneth E. Arnold

doi:10.3847/2041-8213/ad55e9

Sulfur Dioxide and Other Molecular Species in the Atmosphere of the Sub-Neptune GJ 3470 b

Thomas G. Beatty
, Luis Welbanks
, Everett Schlawin
, Taylor J. Bell
, Michael R. Line
, Matthew Murphy
, Isaac Edelman
, Thomas P. Greene
, Jonathan J. Fortney
, Gregory W. Henry
, Sagnick Mukherjee
, Kazumasa Ohno
, Vivien Parmentier
, Emily Rauscher
, Lindsey S. Wiser
, Kenneth E. Arnold

Steward Observatory

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

We report observations of the atmospheric transmission spectrum of the sub-Neptune exoplanet GJ 3470 b taken using the Near-Infrared Camera on JWST. Combined with two archival Hubble Space Telescope/Wide-Field Camera 3 transit observations and 15 archival Spitzer transit observations, we detect water, methane, sulfur dioxide, and carbon dioxide in the atmosphere of GJ 3470 b, each with a significance of >3σ. GJ 3470 b is the lowest-mass—and coldest—exoplanet known to show a substantial sulfur dioxide feature in its spectrum, at M _p = 11.2 M _⊕ and T _eq = 600 K. This indicates that disequilibrium photochemistry drives sulfur dioxide production in exoplanet atmospheres over a wider range of masses and temperatures than has been reported or expected. The water, carbon dioxide, and sulfur dioxide abundances we measure indicate an atmospheric metallicity of approximately 100× solar. We see further evidence for disequilibrium chemistry in our inferred methane abundance, which is significantly lower than expected from equilibrium models consistent with our measured water and carbon dioxide abundances.

Original language	English (US)
Article number	L10
Journal	Astrophysical Journal Letters
Volume	970
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/ad55e9
State	Published - Jul 1 2024

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/2041-8213/ad55e9

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Beatty, T. G., Welbanks, L., Schlawin, E., Bell, T. J., Line, M. R., Murphy, M., Edelman, I., Greene, T. P., Fortney, J. J., Henry, G. W., Mukherjee, S., Ohno, K., Parmentier, V., Rauscher, E., Wiser, L. S., & Arnold, K. E. (2024). Sulfur Dioxide and Other Molecular Species in the Atmosphere of the Sub-Neptune GJ 3470 b. Astrophysical Journal Letters, 970(1), Article L10. https://doi.org/10.3847/2041-8213/ad55e9

Beatty, TG, Welbanks, L, Schlawin, E, Bell, TJ, Line, MR, Murphy, M, Edelman, I, Greene, TP, Fortney, JJ, Henry, GW, Mukherjee, S, Ohno, K, Parmentier, V, Rauscher, E, Wiser, LS & Arnold, KE 2024, 'Sulfur Dioxide and Other Molecular Species in the Atmosphere of the Sub-Neptune GJ 3470 b', Astrophysical Journal Letters, vol. 970, no. 1, L10. https://doi.org/10.3847/2041-8213/ad55e9

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title = "Sulfur Dioxide and Other Molecular Species in the Atmosphere of the Sub-Neptune GJ 3470 b",

abstract = "We report observations of the atmospheric transmission spectrum of the sub-Neptune exoplanet GJ 3470 b taken using the Near-Infrared Camera on JWST. Combined with two archival Hubble Space Telescope/Wide-Field Camera 3 transit observations and 15 archival Spitzer transit observations, we detect water, methane, sulfur dioxide, and carbon dioxide in the atmosphere of GJ 3470 b, each with a significance of >3σ. GJ 3470 b is the lowest-mass—and coldest—exoplanet known to show a substantial sulfur dioxide feature in its spectrum, at M p = 11.2 M ⊕ and T eq = 600 K. This indicates that disequilibrium photochemistry drives sulfur dioxide production in exoplanet atmospheres over a wider range of masses and temperatures than has been reported or expected. The water, carbon dioxide, and sulfur dioxide abundances we measure indicate an atmospheric metallicity of approximately 100× solar. We see further evidence for disequilibrium chemistry in our inferred methane abundance, which is significantly lower than expected from equilibrium models consistent with our measured water and carbon dioxide abundances.",

author = "Beatty, \{Thomas G.\} and Luis Welbanks and Everett Schlawin and Bell, \{Taylor J.\} and Line, \{Michael R.\} and Matthew Murphy and Isaac Edelman and Greene, \{Thomas P.\} and Fortney, \{Jonathan J.\} and Henry, \{Gregory W.\} and Sagnick Mukherjee and Kazumasa Ohno and Vivien Parmentier and Emily Rauscher and Wiser, \{Lindsey S.\} and Arnold, \{Kenneth E.\}",

note = "Publisher Copyright: {\textcopyright} 2024. The Author(s). Published by the American Astronomical Society.",

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T1 - Sulfur Dioxide and Other Molecular Species in the Atmosphere of the Sub-Neptune GJ 3470 b

AU - Beatty, Thomas G.

AU - Welbanks, Luis

AU - Schlawin, Everett

AU - Bell, Taylor J.

AU - Line, Michael R.

AU - Murphy, Matthew

AU - Edelman, Isaac

AU - Greene, Thomas P.

AU - Fortney, Jonathan J.

AU - Henry, Gregory W.

AU - Mukherjee, Sagnick

AU - Ohno, Kazumasa

AU - Parmentier, Vivien

AU - Rauscher, Emily

AU - Wiser, Lindsey S.

AU - Arnold, Kenneth E.

PY - 2024/7/1

Y1 - 2024/7/1

N2 - We report observations of the atmospheric transmission spectrum of the sub-Neptune exoplanet GJ 3470 b taken using the Near-Infrared Camera on JWST. Combined with two archival Hubble Space Telescope/Wide-Field Camera 3 transit observations and 15 archival Spitzer transit observations, we detect water, methane, sulfur dioxide, and carbon dioxide in the atmosphere of GJ 3470 b, each with a significance of >3σ. GJ 3470 b is the lowest-mass—and coldest—exoplanet known to show a substantial sulfur dioxide feature in its spectrum, at M p = 11.2 M ⊕ and T eq = 600 K. This indicates that disequilibrium photochemistry drives sulfur dioxide production in exoplanet atmospheres over a wider range of masses and temperatures than has been reported or expected. The water, carbon dioxide, and sulfur dioxide abundances we measure indicate an atmospheric metallicity of approximately 100× solar. We see further evidence for disequilibrium chemistry in our inferred methane abundance, which is significantly lower than expected from equilibrium models consistent with our measured water and carbon dioxide abundances.

AB - We report observations of the atmospheric transmission spectrum of the sub-Neptune exoplanet GJ 3470 b taken using the Near-Infrared Camera on JWST. Combined with two archival Hubble Space Telescope/Wide-Field Camera 3 transit observations and 15 archival Spitzer transit observations, we detect water, methane, sulfur dioxide, and carbon dioxide in the atmosphere of GJ 3470 b, each with a significance of >3σ. GJ 3470 b is the lowest-mass—and coldest—exoplanet known to show a substantial sulfur dioxide feature in its spectrum, at M p = 11.2 M ⊕ and T eq = 600 K. This indicates that disequilibrium photochemistry drives sulfur dioxide production in exoplanet atmospheres over a wider range of masses and temperatures than has been reported or expected. The water, carbon dioxide, and sulfur dioxide abundances we measure indicate an atmospheric metallicity of approximately 100× solar. We see further evidence for disequilibrium chemistry in our inferred methane abundance, which is significantly lower than expected from equilibrium models consistent with our measured water and carbon dioxide abundances.

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SN - 2041-8205

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Sulfur Dioxide and Other Molecular Species in the Atmosphere of the Sub-Neptune GJ 3470 b

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