Chemistry in disks. XI. Sulfur-bearing species as tracers of protoplanetary 
disk physics and chemistry: the DM Tau case

Semenov, D.; Favre, C.; Fedele, D.; Guilloteau, S.; Teague, R.; Henning, Th.; Dutrey, A.; Chapillon, E.; Hersant, F.; Piétu, V.

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Chemistry in disks. XI. Sulfur-bearing species as tracers of protoplanetary disk physics and chemistry: the DM Tau case

Semenov, D., Favre, C., Fedele, D., Guilloteau, S., Teague, R., Henning, T., et al. (2018). Chemistry in disks. XI. Sulfur-bearing species as tracers of protoplanetary disk physics and chemistry: the DM Tau case. Astronomy and Astrophysics, 617.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0005-CB26-C Version Permalink: https://hdl.handle.net/21.11116/0000-0005-CB27-B

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https://ui.adsabs.harvard.edu/abs/2018A&A...617A..28S (Any fulltext) Open Access status unknown

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Creators:
Semenov, D.¹, Author
Favre, C.¹, Author
Fedele, D.¹, Author
Guilloteau, S.¹, Author
Teague, R.¹, Author
Henning, Th.¹, Author
Dutrey, A.¹, Author
Chapillon, E.¹, Author
Hersant, F.¹, Author
Piétu, V.¹, Author

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1Max Planck Institute for Astronomy, Max Planck Society and Cooperation Partners, ou_2421692

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Free keywords: astrochemistry protoplanetary disks radio lines: planetary systems radio lines: stars circumstellar matter Astrophysics - Astrophysics of Galaxies Astrophysics - Earth and Planetary Astrophysics Astrophysics - Solar and Stellar Astrophysics

Abstract: Context. Several sulfur-bearing molecules are observed in the interstellar medium and in comets, in strong contrast to protoplanetary disks where only CS, H₂CS, and SO have been detected so far.
Aims: We combine observations and chemical models to constrain the sulfur abundances and their sensitivity to physical and chemical conditions in the DM Tau protoplanetary disk.
Methods: We obtained 0.5'' Atacama Large Millimeter Array observations of DM Tau in Bands 4 and 6 in lines of CS, SO, SO₂, OCS, CCS, H₂CS, and H₂S, achieving a 5 mJy sensitivity. Using the non-Local Thermodynamical Equilibrium radiative transfer code RADEX and the forward-modeling tool DiskFit, disk-averaged CS column densities and upper limits for the other species were derived.
Results: Only CS was detected with a derived column density of 2-6 × 10¹² cm^-2. We report a first tentative detection of SO₂ in DM Tau. The upper limits range between 10¹¹ and 10¹⁴ cm^-2 for the other S-bearing species. The best-fit chemical model matching these values requires a gas-phase C/O ratio of ≳1 at r ≳ 50-100 au. With chemical modeling we demonstrate that sulfur-bearing species could be robust tracers of the gas-phase C/O ratio, surface reaction rates, grain size and UV intensities.
Conclusions: The lack of detections of a variety of sulfur-bearing molecules in DM Tau other than CS implies a dearth of reactive sulfur in the gas phase, either through efficient freeze-out or because most of the elemental sulfur is in other large species, as found in comets. The inferred high CS/SO and CS/SO₂ ratios require a non-solar C/O gas-phase ratio of ≳1, consistent with the recent observations of hydrocarbon rings in DM Tau. The stronger depletion of oxygen-bearing S-species compared to CS is likely linked to the low observed abundances of gaseous water in DM Tau and points to a removal mechanism of oxygen from the gas.

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Title: Astronomy and Astrophysics

Source Genre: Journal

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Pages: - Volume / Issue: 617 Sequence Number: - Start / End Page: - Identifier: -