Sulfur monoxide dimer chemistry as a possible source of polysulfur in the upper atmosphere of Venus

The abundance of SO dimers (SO) 2 in the upper atmosphere of Venus and their implications for the enigmatic ultraviolet absorption has been investigated in several studies over the past few years. However, the photochemistry of sulfur species in the upper atmosphere of Venus is still not well unders...

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Veröffentlicht in:Nature communications 2021-01, Vol.12 (1), p.175-175, Article 175
Hauptverfasser: Pinto, Joseph P., Li, Jiazheng, Mills, Franklin P., Marcq, Emmanuel, Evdokimova, Daria, Belyaev, Denis, Yung, Yuk L.
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Sprache:eng
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Zusammenfassung:The abundance of SO dimers (SO) 2 in the upper atmosphere of Venus and their implications for the enigmatic ultraviolet absorption has been investigated in several studies over the past few years. However, the photochemistry of sulfur species in the upper atmosphere of Venus is still not well understood and the identity of the missing ultraviolet absorber(s) remains unknown. Here we update an existing photochemical model of Venus’ upper atmosphere by including the photochemistry of SO dimers. Although the spectral absorption profile of SO dimers fits the unknown absorber, their abundance is found to be too low for them to contribute significantly to the absorption. It is more likely that their photolysis and/or reaction products could contribute more substantively. Reactions of SO dimers are found to be important sources of S 2 O, and possibly higher order S n O species and polysulfur, S n . All of these species absorb in the critical ultraviolet region and are expected to be found in both the aerosol and gas phase. indicating that in-situ high resolution aerosol mass spectrometry might be a useful technique for identifying the ultraviolet absorber on Venus. Photochemistry of sulfur species in the upper Venus atmosphere is not well understood and the identity of ultraviolet (UV) absorber(s) remain unknown. Here, the authors show that sulfur monoxide dimer chemistry is a possible source of polysulfur, which could be responsible for the UV absorption.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-020-20451-2