Oxygen fractionation in dense molecular clouds

Asunci\'on Fuente; Aurore Bacmann; Evelyne Roueff; Franck Le Petit; Javier R. Goicoechea; Jean-Christophe Loison; J\'erome Pety; Jos\'e Cernicharo; Kevin M. Hickson; Marcelino Ag\`undez

arxiv: 1902.08840 · v1 · pith:2MNVPZPYnew · submitted 2019-02-23 · 🌌 astro-ph.GA

Oxygen fractionation in dense molecular clouds

Jean-Christophe Loison , Valentine Wakelam , Pierre Gratier , Kevin M. Hickson , Aurore Bacmann , Marcelino Ag\`undez , Nuria Marcelino , Jos\'e Cernicharo

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Viviana Guzman Maryvonne Gerin Javier R. Goicoechea Evelyne Roueff Franck Le Petit J\'erome Pety Asunci\'on Fuente Pablo Riviere-Marichalar

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keywords fractionationoxygencloudsdensemolecularchemicaleffectgas-phase

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We have developed the first gas-grain chemical model for oxygen fractionation (also including sulphur fractionation) in dense molecular clouds, demonstrating that gas-phase chemistry generates variable oxygen fractionation levels, with a particularly strong effect for NO, SO, O2, and SO2. This large effect is due to the efficiency of the neutral 18O + NO, 18O + SO, and 18O + O2 exchange reactions. The modeling results were compared to new and existing observed isotopic ratios in a selection of cold cores. The good agreement between model and observations requires that the gas-phase abundance of neutral oxygen atoms is large in the observed regions. The S16O/S18O ratio is predicted to vary substantially over time showing that it can be used as a sensitive chemical proxy for matter evolution in dense molecular clouds.

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Oxygen fractionation in dense molecular clouds

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