Modeling Sulfur Depletion in Interstellar Clouds
Jacob C. Laas, Paola Caselli

TL;DR
This study develops an advanced astrochemical model that successfully explains sulfur depletion in interstellar clouds, highlighting grain surface chemistry and predicting organo-sulfur species as main sulfur reservoirs.
Contribution
The paper introduces a significantly extended gas/grain reaction network that accurately models sulfur depletion and grain chemistry in interstellar clouds, improving upon previous models.
Findings
Sulfur can be depleted from the gas phase by two orders of magnitude.
Most sulfur is stored as organo-sulfur species on grains.
The model reproduces observed sulfur-bearing molecules in dense clouds.
Abstract
The elemental depletion of interstellar sulfur from the gas phase has been a recurring challenge for astrochemical models. Observations show that sulfur remains relatively non-depleted with respect to its cosmic value throughout the diffuse and translucent stages of an interstellar molecular cloud, but its gas-phase constituents cannot account for this cosmic value towards higher-density environments. We have attempted to address this issue by modeling the evolution of an interstellar cloud from its pristine state as a diffuse atomic cloud to a molecular environment of much higher density, using a gas/grain astrochem. code and an enhanced sulfur reaction network. A common gas/grain reaction network has been systematically updated and greatly extended based on previous lit. and models, with a focus on the grain chemistry and processes. A simple model was used to benchmark the resulting…
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