Organosulfur Compounds Formed by Sulfur Ion Bombardment of Astrophysical Ice Analogs: Implications for Moons, Comets, and Kuiper Belt Objects

Alexander Ruf; Alexis Bouquet; Philippe Boduch; Philippe Schmitt-Kopplin; Vassilissa Vinogradoff; Fabrice Duvernay; Riccardo Giovanni Urso; Rosario Brunetto; Louis Le Sergeant D'Hendecourt; Olivier Mousis; Grégoire Danger

doi:10.3847/2041-8213/ab4e9f

Organosulfur Compounds Formed by Sulfur Ion Bombardment of Astrophysical Ice Analogs: Implications for Moons, Comets, and Kuiper Belt Objects

Alexander Ruf, Alexis Bouquet, Philippe Boduch, Philippe Schmitt-Kopplin, Vassilissa Vinogradoff, Fabrice Duvernay, Riccardo Giovanni Urso, Rosario Brunetto, Louis Le Sergeant D'Hendecourt, Olivier Mousis, Grégoire Danger

Lehrstuhl für Analytische Lebensmittelchemie

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

17 Zitate (Scopus)

Abstract

Carbon, hydrogen, nitrogen, oxygen, and sulfur are the main elements involved in the solid-phase chemistry of various astrophysical environments. Among these elements, sulfur chemistry is probably the least well understood. We investigated whether sulfur ion bombardment within simple astrophysical ice analogs (originating from H₂O:CH₃OH:NH₃, 2:1:1) could trigger the formation of complex organosulfur molecules. Over 1100 organosulfur (CHNOS) molecular formulas (12% of all assigned signals) were detected in resulting refractory residues within a broad mass range (from 100 to 900 amu, atomic mass unit). This finding indicates a diverse, rich and active sulfur chemistry that could be relevant for Kuiper Belt objects (KBO) ices, triggered by high-energy ion implantation. The putative presence of organosulfur compounds within KBO ices or on other icy bodies might influence our view on the search of habitability and biosignatures.

Originalsprache	Englisch
Aufsatznummer	L40
Fachzeitschrift	Astrophysical Journal Letters
Jahrgang	885
Ausgabenummer	2
DOIs	https://doi.org/10.3847/2041-8213/ab4e9f
Publikationsstatus	Veröffentlicht - 10 Nov. 2019

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10.3847/2041-8213/ab4e9f

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Ruf, A., Bouquet, A., Boduch, P., Schmitt-Kopplin, P., Vinogradoff, V., Duvernay, F., Urso, R. G., Brunetto, R., Le Sergeant D'Hendecourt, L., Mousis, O., & Danger, G. (2019). Organosulfur Compounds Formed by Sulfur Ion Bombardment of Astrophysical Ice Analogs: Implications for Moons, Comets, and Kuiper Belt Objects. Astrophysical Journal Letters, 885(2), Artikel L40. https://doi.org/10.3847/2041-8213/ab4e9f

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title = "Organosulfur Compounds Formed by Sulfur Ion Bombardment of Astrophysical Ice Analogs: Implications for Moons, Comets, and Kuiper Belt Objects",

abstract = "Carbon, hydrogen, nitrogen, oxygen, and sulfur are the main elements involved in the solid-phase chemistry of various astrophysical environments. Among these elements, sulfur chemistry is probably the least well understood. We investigated whether sulfur ion bombardment within simple astrophysical ice analogs (originating from H2O:CH3OH:NH3, 2:1:1) could trigger the formation of complex organosulfur molecules. Over 1100 organosulfur (CHNOS) molecular formulas (12% of all assigned signals) were detected in resulting refractory residues within a broad mass range (from 100 to 900 amu, atomic mass unit). This finding indicates a diverse, rich and active sulfur chemistry that could be relevant for Kuiper Belt objects (KBO) ices, triggered by high-energy ion implantation. The putative presence of organosulfur compounds within KBO ices or on other icy bodies might influence our view on the search of habitability and biosignatures.",

author = "Alexander Ruf and Alexis Bouquet and Philippe Boduch and Philippe Schmitt-Kopplin and Vassilissa Vinogradoff and Fabrice Duvernay and Urso, {Riccardo Giovanni} and Rosario Brunetto and {Le Sergeant D'Hendecourt}, Louis and Olivier Mousis and Gr{\'e}goire Danger",

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doi = "10.3847/2041-8213/ab4e9f",

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Ruf, A, Bouquet, A, Boduch, P, Schmitt-Kopplin, P, Vinogradoff, V, Duvernay, F, Urso, RG, Brunetto, R, Le Sergeant D'Hendecourt, L, Mousis, O & Danger, G 2019, 'Organosulfur Compounds Formed by Sulfur Ion Bombardment of Astrophysical Ice Analogs: Implications for Moons, Comets, and Kuiper Belt Objects', Astrophysical Journal Letters, Jg. 885, Nr. 2, L40. https://doi.org/10.3847/2041-8213/ab4e9f

TY - JOUR

T1 - Organosulfur Compounds Formed by Sulfur Ion Bombardment of Astrophysical Ice Analogs

T2 - Implications for Moons, Comets, and Kuiper Belt Objects

AU - Ruf, Alexander

AU - Bouquet, Alexis

AU - Boduch, Philippe

AU - Schmitt-Kopplin, Philippe

AU - Vinogradoff, Vassilissa

AU - Duvernay, Fabrice

AU - Urso, Riccardo Giovanni

AU - Brunetto, Rosario

AU - Le Sergeant D'Hendecourt, Louis

AU - Mousis, Olivier

AU - Danger, Grégoire

PY - 2019/11/10

Y1 - 2019/11/10

N2 - Carbon, hydrogen, nitrogen, oxygen, and sulfur are the main elements involved in the solid-phase chemistry of various astrophysical environments. Among these elements, sulfur chemistry is probably the least well understood. We investigated whether sulfur ion bombardment within simple astrophysical ice analogs (originating from H2O:CH3OH:NH3, 2:1:1) could trigger the formation of complex organosulfur molecules. Over 1100 organosulfur (CHNOS) molecular formulas (12% of all assigned signals) were detected in resulting refractory residues within a broad mass range (from 100 to 900 amu, atomic mass unit). This finding indicates a diverse, rich and active sulfur chemistry that could be relevant for Kuiper Belt objects (KBO) ices, triggered by high-energy ion implantation. The putative presence of organosulfur compounds within KBO ices or on other icy bodies might influence our view on the search of habitability and biosignatures.

AB - Carbon, hydrogen, nitrogen, oxygen, and sulfur are the main elements involved in the solid-phase chemistry of various astrophysical environments. Among these elements, sulfur chemistry is probably the least well understood. We investigated whether sulfur ion bombardment within simple astrophysical ice analogs (originating from H2O:CH3OH:NH3, 2:1:1) could trigger the formation of complex organosulfur molecules. Over 1100 organosulfur (CHNOS) molecular formulas (12% of all assigned signals) were detected in resulting refractory residues within a broad mass range (from 100 to 900 amu, atomic mass unit). This finding indicates a diverse, rich and active sulfur chemistry that could be relevant for Kuiper Belt objects (KBO) ices, triggered by high-energy ion implantation. The putative presence of organosulfur compounds within KBO ices or on other icy bodies might influence our view on the search of habitability and biosignatures.

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SN - 2041-8205

VL - 885

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

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Organosulfur Compounds Formed by Sulfur Ion Bombardment of Astrophysical Ice Analogs: Implications for Moons, Comets, and Kuiper Belt Objects

Abstract

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