Production of complex organic molecules: H-atom addition versus UV irradiation
K.-J. Chuang, G. Fedoseev, D. Qasim, S. Ioppolo, E.F. van Dishoeck and, H. Linnartz

TL;DR
This study compares the formation of complex organic molecules in icy grains under hydrogenation and UV irradiation, revealing how different processes influence molecular abundances and compositions relevant to star-forming regions.
Contribution
It provides the first quantitative comparison of non-energetic and energetic processing effects on COM formation in CO:CH3OH ices, including combined effects.
Findings
COMs form via hydrogenation and UV irradiation with distinct abundance patterns.
Combined processing reduces overall COM abundance but maintains similar ratios.
COM ratios serve as diagnostics for ice processing history.
Abstract
Complex organic molecules (COMs) have been identified in different environments in star- forming regions. Laboratory studies show that COMs form in the solid state, on icy grains, typically following a non-energetic (atom-addition) or energetic (UV-photon absorption) trigger. So far, such studies have been largely performed for single processes. Here, we present the first work that quantitatively investigates both the relative importance and the cumulative effect of (non-)energetic processing. We focus on astronomically relevant CO:CH3OH = 4:1 ice analogues exposed to doses relevant for the collapse stage of dense clouds. Hydrogenation experiments result in the formation of methyl formate (MF HC(O)OCH3), glycolaldehyde (GA HC(O)CH2OH) and ethylene glycol (EG H2C(OH)CH2OH) at 14 K. The absolute abundances and the abundance fractions are found to be dependent on the H-atom/CO-CH3OH…
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