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Hauptverfasser: Tusay, Nick, Wright, Jason T., Beatty, Thomas G., Desch, Steve, Colón, Knicole, Mittal, Tushar, Osborn, Hugh P., Estrada, Beatriz Campos, Owen, James E., Libby-Roberts, Jessica, Gupta, Arvind F., Foley, Brad, Valdés, Erik Meier, Stevens, Daniel J., Herbst, Ashley
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2501.08301
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author Tusay, Nick
Wright, Jason T.
Beatty, Thomas G.
Desch, Steve
Colón, Knicole
Mittal, Tushar
Osborn, Hugh P.
Estrada, Beatriz Campos
Owen, James E.
Libby-Roberts, Jessica
Gupta, Arvind F.
Foley, Brad
Valdés, Erik Meier
Stevens, Daniel J.
Herbst, Ashley
author_facet Tusay, Nick
Wright, Jason T.
Beatty, Thomas G.
Desch, Steve
Colón, Knicole
Mittal, Tushar
Osborn, Hugh P.
Estrada, Beatriz Campos
Owen, James E.
Libby-Roberts, Jessica
Gupta, Arvind F.
Foley, Brad
Valdés, Erik Meier
Stevens, Daniel J.
Herbst, Ashley
contents The disintegrating ultra-short period rocky exoplanet K2-22b periodically emits dusty clouds in a dynamically chaotic process resulting in a variable transit depth from 0-1.3%. The effluents that sublimate off the surface and condense out in space are probably representative of the formerly interior layers convectively transported to the molten surface. Transmission spectroscopy of these transiting clouds reveal spectral fingerprints of the interior composition of this rocky world. We used JWST's Mid-Infrared Instrument (MIRI) as a low-resolution slitless spectrograph to observe four predicted transit windows for K2-22b. For each observation, we extracted a transmission spectrum over the spectral range of 4.4-11.8 $μ$m. Over the spectral range of 4.4-8 $μ$m, where the spectral precision is highest, we detect one transit at high significance and two at low significance. While the S/N of the spectrum limits our ability to draw firm conclusions, we find that the data: 1) disfavor featureless, iron-dominated core material, 2) are consistent with some form of magnesium silicate minerals, likely from mantle material, and 3) show a distinct and unexpected feature at $\sim$5 $μ$m. The unexpected feature, also seen weakly in the low-significance transits, is consistent with an unknown gaseous absorber, possibly NO and/or CO$_2$. These findings warrant further study to improve the constraints on the composition of this disintegrating rocky world.
format Preprint
id arxiv_https___arxiv_org_abs_2501_08301
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Disintegrating Rocky World Shrouded in Dust and Gas: Mid-IR Observations of K2-22b using JWST
Tusay, Nick
Wright, Jason T.
Beatty, Thomas G.
Desch, Steve
Colón, Knicole
Mittal, Tushar
Osborn, Hugh P.
Estrada, Beatriz Campos
Owen, James E.
Libby-Roberts, Jessica
Gupta, Arvind F.
Foley, Brad
Valdés, Erik Meier
Stevens, Daniel J.
Herbst, Ashley
Earth and Planetary Astrophysics
The disintegrating ultra-short period rocky exoplanet K2-22b periodically emits dusty clouds in a dynamically chaotic process resulting in a variable transit depth from 0-1.3%. The effluents that sublimate off the surface and condense out in space are probably representative of the formerly interior layers convectively transported to the molten surface. Transmission spectroscopy of these transiting clouds reveal spectral fingerprints of the interior composition of this rocky world. We used JWST's Mid-Infrared Instrument (MIRI) as a low-resolution slitless spectrograph to observe four predicted transit windows for K2-22b. For each observation, we extracted a transmission spectrum over the spectral range of 4.4-11.8 $μ$m. Over the spectral range of 4.4-8 $μ$m, where the spectral precision is highest, we detect one transit at high significance and two at low significance. While the S/N of the spectrum limits our ability to draw firm conclusions, we find that the data: 1) disfavor featureless, iron-dominated core material, 2) are consistent with some form of magnesium silicate minerals, likely from mantle material, and 3) show a distinct and unexpected feature at $\sim$5 $μ$m. The unexpected feature, also seen weakly in the low-significance transits, is consistent with an unknown gaseous absorber, possibly NO and/or CO$_2$. These findings warrant further study to improve the constraints on the composition of this disintegrating rocky world.
title A Disintegrating Rocky World Shrouded in Dust and Gas: Mid-IR Observations of K2-22b using JWST
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2501.08301