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A cryogenic ice setup to simulate carbon atom reactions in interstellar ices

D. Qasim, Maartje Witlox, G. Fedoseev, K.-J. Chuang, Tahamida Banu, Serge A. Krasnokutski, S. Ioppolo, Johannes Kästner, E. F. van Dishoeck, H. Linnartz

2020Review of Scientific Instruments24 citationsDOIOpen Access PDF

Abstract

The design, implementation, and performance of a customized carbon atom beam source for the purpose of investigating solid-state reaction routes in interstellar ices in molecular clouds are discussed. The source is integrated into an existing ultrahigh vacuum setup, SURFace REaction SImulation DEvice (SURFRESIDE2), which extends this double atom (H/D, O, and N) beamline apparatus with a third atom (C) beamline to a unique system that is fully suited to explore complex organic molecule solid-state formation under representative interstellar cloud conditions. The parameter space for this system is discussed, which includes the flux of the carbon atoms hitting the ice sample, their temperature, and the potential impact of temperature on ice reactions. Much effort has been put into constraining the beam size to within the limits of the sample size with the aim of reducing carbon pollution inside the setup. How the C-atom beam performs is quantitatively studied through the example experiment, C + 18O2, and supported by computationally derived activation barriers. The potential for this source to study the solid-state formation of interstellar complex organic molecules through C-atom reactions is discussed.

Topics & Concepts

BeamlineAtom (system on chip)Carbon fibersInterstellar cloudMoleculeInterstellar mediumChemical physicsBeam (structure)Atomic physicsFlux (metallurgy)Materials sciencePhysicsAstrophysicsOpticsComposite numberEmbedded systemMetallurgyQuantum mechanicsGalaxyComputer scienceComposite materialAdvanced Chemical Physics StudiesAstrophysics and Star Formation StudiesMolecular Spectroscopy and Structure
A cryogenic ice setup to simulate carbon atom reactions in interstellar ices | Litcius