| Literature DB >> 29862006 |
Asunción Fuente1, Javier R Goicoechea2, Jerome Pety3,4, Romane Le Gal5, Rafael Martín-Doménech5, Pierre Gratier6, Viviana Guzmán7, Evelyne Roueff8, Jean Christophe Loison9, Guillermo M Muñoz Caro10, Valentine Wakelam6, Maryvonne Gerin4, Pablo Riviere-Marichalar2, Thomas Vidal6.
Abstract
We present the first detection of gas phase S2H in the Horsehead, a moderately UV-irradiated nebula. This confirms the presence of doubly sulfuretted species in the interstellar medium and opens a new challenge for sulfur chemistry. The observed S2H abundance is ~5×10-11, only a factor 4-6 lower than that of the widespread H2S molecule. H2S and S2H are efficiently formed on the UV-irradiated icy grain mantles. We performed ice irradiation experiments to determine the H2S and S2H photodesorption yields. The obtained values are ~1.2×10-3 and <1×10-5 molecules per incident photon for H2S and S2H, respectively. Our upper limit to the S2H photodesorption yield suggests that photo-desorption is not a competitive mechanism to release the S2H molecules to the gas phase. Other desorption mechanisms such as chemical desorption, cosmic-ray desorption and grain shattering can increase the gaseous S2H abundance to some extent. Alternatively, S2H can be formed via gas phase reactions involving gaseous H2S and the abundant ions S+ and SH+. The detection of S2H in this nebula could be therefore the result of the coexistence of an active grain surface chemistry and gaseous photo-chemistry.Entities:
Keywords: Astrochemistry; Horsehead; ISM: abundances; ISM: molecules; methods: laboratory: solid state; photon-dominated region (PDR)
Year: 2017 PMID: 29862006 PMCID: PMC5975949 DOI: 10.3847/2041-8213/aaa01b
Source DB: PubMed Journal: Astrophys J Lett ISSN: 2041-8205 Impact factor: 7.413