Saved in:
Bibliographic Details
Main Authors: Cabot, Samuel H. C., Madhusudhan, Nikku, Constantinou, Savvas, Valencia, Diana, Vos, Johanna M., Masseron, Thomas, Cheverall, Connor J.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.18891
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910388118880256
author Cabot, Samuel H. C.
Madhusudhan, Nikku
Constantinou, Savvas
Valencia, Diana
Vos, Johanna M.
Masseron, Thomas
Cheverall, Connor J.
author_facet Cabot, Samuel H. C.
Madhusudhan, Nikku
Constantinou, Savvas
Valencia, Diana
Vos, Johanna M.
Masseron, Thomas
Cheverall, Connor J.
contents The study of temperate sub-Neptunes is the new frontier in exoplanetary science. A major development in the past year has been the first detection of carbon-bearing molecules in the atmosphere of a temperate sub-Neptune, K2-18 b, a possible Hycean world, with the James Webb Space Telescope (JWST). The JWST is poised to characterise the atmospheres of several other such planets with important implications for planetary processes in the temperate regime. Meanwhile, ground-based high-resolution spectroscopy has been highly successful in detecting chemical signatures of giant exoplanets, though low-mass planets have remained elusive. In the present work, we report the atmospheric reconnaissance of a temperate sub-Neptune using ground-based high-resolution transmission spectroscopy. The long orbital period and the low systemic velocity results in a low planetary radial velocity during transit, making this system a valuable testbed for high-resolution spectroscopy of temperate sub-Neptunes. We observe high-resolution time-series spectroscopy in the H- and K-bands during the planetary transit with the IGRINS instrument (R$\sim$45,000) on Gemini-South. Using observations from a single transit we find marginal evidence (2.2$σ$) for the presence of methane (CH$_4$) in the atmosphere and no evidence for ammonia (NH$_3$) despite its strong detectability for a cloud-free H$_2$-rich atmosphere. We assess our findings using injection tests with different atmospheric scenarios, and find them to be consistent with a high CH$_4$/NH$_3$ ratio and/or the presence of high-altitude clouds. Our results demonstrate the capability of Gemini-S/IGRINS for atmospheric characterization of temperate sub-Neptunes, and the complementarity between space- and ground-based facilities in this planetary regime.
format Preprint
id arxiv_https___arxiv_org_abs_2403_18891
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle High-resolution Spectroscopic Reconnaissance of a Temperate Sub-Neptune
Cabot, Samuel H. C.
Madhusudhan, Nikku
Constantinou, Savvas
Valencia, Diana
Vos, Johanna M.
Masseron, Thomas
Cheverall, Connor J.
Earth and Planetary Astrophysics
The study of temperate sub-Neptunes is the new frontier in exoplanetary science. A major development in the past year has been the first detection of carbon-bearing molecules in the atmosphere of a temperate sub-Neptune, K2-18 b, a possible Hycean world, with the James Webb Space Telescope (JWST). The JWST is poised to characterise the atmospheres of several other such planets with important implications for planetary processes in the temperate regime. Meanwhile, ground-based high-resolution spectroscopy has been highly successful in detecting chemical signatures of giant exoplanets, though low-mass planets have remained elusive. In the present work, we report the atmospheric reconnaissance of a temperate sub-Neptune using ground-based high-resolution transmission spectroscopy. The long orbital period and the low systemic velocity results in a low planetary radial velocity during transit, making this system a valuable testbed for high-resolution spectroscopy of temperate sub-Neptunes. We observe high-resolution time-series spectroscopy in the H- and K-bands during the planetary transit with the IGRINS instrument (R$\sim$45,000) on Gemini-South. Using observations from a single transit we find marginal evidence (2.2$σ$) for the presence of methane (CH$_4$) in the atmosphere and no evidence for ammonia (NH$_3$) despite its strong detectability for a cloud-free H$_2$-rich atmosphere. We assess our findings using injection tests with different atmospheric scenarios, and find them to be consistent with a high CH$_4$/NH$_3$ ratio and/or the presence of high-altitude clouds. Our results demonstrate the capability of Gemini-S/IGRINS for atmospheric characterization of temperate sub-Neptunes, and the complementarity between space- and ground-based facilities in this planetary regime.
title High-resolution Spectroscopic Reconnaissance of a Temperate Sub-Neptune
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2403.18891