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VIZSLA -- Versatile Ice Zigzag Sublimation Setup for Laboratory Astrochemistry

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arxiv 2107.00445 v1 pith:YHN6SVV6 submitted 2021-07-01 astro-ph.IM

VIZSLA -- Versatile Ice Zigzag Sublimation Setup for Laboratory Astrochemistry

classification astro-ph.IM
keywords astrophysicalsetupmatrixexperimentsmoleculespara-h2analoganalysis
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In this article a new, multi-functional, high-vacuum astrophysical ice setup, VIZSLA (Versatile Ice Zigzag Sublimation Setup for Laboratory Astrochemistry), is introduced. The instrument allows the investigation of astrophysical processes both in a low-temperature para-H2 matrix and in astrophysical analog ices. In para-H2 matrix the reaction of astrochemical molecules with H atoms and H+ ions can be studied very effectively. For the investigation of astrophysical analog ices the setup is equipped with different irradiation and particle sources: an electron gun, for modeling cosmic rays; an H atom beam source (HABS); a microwave H atom lamp, for generating H Lyman-alpha radiation, and a tunable (213 nm to 2800 nm) laser source. For analysis, an FT-IR (and a UV-Visible) spectrometer and a quadrupole mass analyzer are available. The setup has two cryostats, offering novel features for analysis. Upon the so-called temperature-programmed desorption (TPD) the molecules, desorbing from the first cryostat, can be mixed with Ar and can be deposited onto the substrate of the other cryostat. The well-resolved spectrum of the molecules isolated in an Ar matrix serves a unique opportunity to identify the desorbing products of a processed ice. Some examples are provided to show how the para-H2 matrix experiments and the TPD -- matrix-isolation recondensation experiments can help to understand astrophysically important chemical processes at a low temperature. It is also discussed, how these experiments can complement the studies carried out by similar astrophysical ice setups.

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