Possible Carbon Dioxide above the Thick Aerosols of GJ 1214 b

Sub-Neptune planets with radii smaller than Neptune (3.9 R ⊕ ) are the most common type of planet known to exist in the Milky Way, even though they are absent in the solar system. These planets can potentially have a large diversity of compositions as a result of different mixtures of rocky material...

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Veröffentlicht in:	Astrophysical journal. Letters 2024-10, Vol.974 (2), p.L33
Hauptverfasser:	Schlawin, Everett, Ohno, Kazumasa, Bell, Taylor J., Murphy, Matthew M., Welbanks, Luis, Beatty, Thomas G., Greene, Thomas P., Fortney, Jonathan J., Parmentier, Vivien, Edelman, Isaac R., Gill, Samuel, Anderson, David R., Wheatley, Peter J., Henry, Gregory W., Mehta, Nishil, Kreidberg, Laura, Rieke, Marcia J.
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Sprache:	eng
Schlagworte:	Aerosols Atmosphere Bulk density Carbon dioxide Data analysis Exoplanet atmospheres Exoplanet atmospheric composition Gas pipelines Infrared analysis Infrared signatures James Webb Space Telescope Metallicity Methane Milky Way Mini Neptunes Near infrared radiation Neptune Planet formation Planetary composition Planetary interiors Planets Protoplanetary disks Solar system Spectroscopy Spectrum analysis Transmission spectroscopy Wavelengths
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creator	Schlawin, Everett Ohno, Kazumasa Bell, Taylor J. Murphy, Matthew M. Welbanks, Luis Beatty, Thomas G. Greene, Thomas P. Fortney, Jonathan J. Parmentier, Vivien Edelman, Isaac R. Gill, Samuel Anderson, David R. Wheatley, Peter J. Henry, Gregory W. Mehta, Nishil Kreidberg, Laura Rieke, Marcia J.
description	Sub-Neptune planets with radii smaller than Neptune (3.9 R ⊕ ) are the most common type of planet known to exist in the Milky Way, even though they are absent in the solar system. These planets can potentially have a large diversity of compositions as a result of different mixtures of rocky material, icy material, and gas accreted from a protoplanetary disk. However, the bulk density of a sub-Neptune, informed by its mass and radius alone, cannot uniquely constrain its composition; atmospheric spectroscopy is necessary. GJ 1214 b, which hosts an atmosphere that is potentially the most favorable for spectroscopic detection of any sub-Neptune, is instead enshrouded in aerosols (thus showing no spectroscopic features), hiding its composition from view at previously observed wavelengths in its terminator. Here, we present a JWST NIRSpec transmission spectrum from 2.8 to 5.1 μ m that shows signatures of CO 2 and CH 4 , expected at high metallicity. A model containing both these molecules is preferred by 3.3 σ and 3.6 σ as compared to a featureless spectrum for two different data analysis pipelines, respectively. Given the low signal-to-noise of the features compared to the continuum, however, more observations are needed to confirm the CO 2 and CH 4 signatures and better constrain other diagnostic features in the near-infrared. Further modeling of the planet’s atmosphere, interior structure and origins will provide valuable insights about how sub-Neptunes like GJ 1214 b form and evolve.
doi_str_mv	10.3847/2041-8213/ad7fef
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Lett</addtitle><date>2024-10-01</date><risdate>2024</risdate><volume>974</volume><issue>2</issue><spage>L33</spage><pages>L33-</pages><issn>2041-8205</issn><eissn>2041-8213</eissn><abstract>Sub-Neptune planets with radii smaller than Neptune (3.9 R ⊕ ) are the most common type of planet known to exist in the Milky Way, even though they are absent in the solar system. These planets can potentially have a large diversity of compositions as a result of different mixtures of rocky material, icy material, and gas accreted from a protoplanetary disk. However, the bulk density of a sub-Neptune, informed by its mass and radius alone, cannot uniquely constrain its composition; atmospheric spectroscopy is necessary. 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subjects	Aerosols Atmosphere Bulk density Carbon dioxide Data analysis Exoplanet atmospheres Exoplanet atmospheric composition Gas pipelines Infrared analysis Infrared signatures James Webb Space Telescope Metallicity Methane Milky Way Mini Neptunes Near infrared radiation Neptune Planet formation Planetary composition Planetary interiors Planets Protoplanetary disks Solar system Spectroscopy Spectrum analysis Transmission spectroscopy Wavelengths
title	Possible Carbon Dioxide above the Thick Aerosols of GJ 1214 b
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