Saved in:
Bibliographic Details
Main Authors: Jordan, Sean, Tsai, Shang-Min, Rimmer, Paul B., Shorttle, Oliver
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.18923
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913109149483008
author Jordan, Sean
Tsai, Shang-Min
Rimmer, Paul B.
Shorttle, Oliver
author_facet Jordan, Sean
Tsai, Shang-Min
Rimmer, Paul B.
Shorttle, Oliver
contents The organosulfur biosignature gases dimethylsulfide (DMS) and dimethlydisulfide (DMDS) have recently been claimed to be present in the atmosphere of sub-Neptune exoplanet K2-18b, leading to the suggestion of possible extraterrestrial life. Abiotic formation pathways for DMS and DMDS in reducing atmospheres have also been proposed, raising concern over the use of DMS and DMDS as biosignature gases more generally. In this paper we independently test and contrast the proposed abiotic formation pathways for DMS and DMDS using K2-18b as a case study, and explore the wider implications for the atmospheric carbon and sulfur chemistry of hydrogen-rich sub-Neptunes. We demonstrate that one proposed formation pathway is capable of producing observable abundances of abiotic DMS and DMDS, however it depends sensitively on the energy barrier of the limiting step, which remains unmeasured experimentally. The formation of hydrocarbons including C2H6, however, occurs abundantly and offers a plausible alternative explanation to the reported suggestions of organosulfur compounds on K2-18b, having previously been shown to share similar spectral features with DMS and DMDS at near-IR wavelengths. Finally, we demonstrate that sulfur hazes form via the photochemistry of H2S and condense in the atmosphere of K2-18b even at trace abundances. We propose that variation in atmospheric sulfur abundance can explain the diversity of haziness observed across the sub-Neptune population so far with JWST.
format Preprint
id arxiv_https___arxiv_org_abs_2603_18923
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Organosulfur Chemistry on sub-Neptunes: Implications for hazes and biosignatures
Jordan, Sean
Tsai, Shang-Min
Rimmer, Paul B.
Shorttle, Oliver
Earth and Planetary Astrophysics
The organosulfur biosignature gases dimethylsulfide (DMS) and dimethlydisulfide (DMDS) have recently been claimed to be present in the atmosphere of sub-Neptune exoplanet K2-18b, leading to the suggestion of possible extraterrestrial life. Abiotic formation pathways for DMS and DMDS in reducing atmospheres have also been proposed, raising concern over the use of DMS and DMDS as biosignature gases more generally. In this paper we independently test and contrast the proposed abiotic formation pathways for DMS and DMDS using K2-18b as a case study, and explore the wider implications for the atmospheric carbon and sulfur chemistry of hydrogen-rich sub-Neptunes. We demonstrate that one proposed formation pathway is capable of producing observable abundances of abiotic DMS and DMDS, however it depends sensitively on the energy barrier of the limiting step, which remains unmeasured experimentally. The formation of hydrocarbons including C2H6, however, occurs abundantly and offers a plausible alternative explanation to the reported suggestions of organosulfur compounds on K2-18b, having previously been shown to share similar spectral features with DMS and DMDS at near-IR wavelengths. Finally, we demonstrate that sulfur hazes form via the photochemistry of H2S and condense in the atmosphere of K2-18b even at trace abundances. We propose that variation in atmospheric sulfur abundance can explain the diversity of haziness observed across the sub-Neptune population so far with JWST.
title Organosulfur Chemistry on sub-Neptunes: Implications for hazes and biosignatures
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2603.18923