Detection of CCCH+ toward W49N: Elucidating the molecular complexity of the diffuse interstellar gas

Lee, Kelvin

Permalink

https://hdl.handle.net/2142/104259 Copy

Description

Title

Detection of CCCH+ toward W49N: Elucidating the molecular complexity of the diffuse interstellar gas

Author(s)

Lee, Kelvin

Contributor(s)

• McCarthy, Michael C.
• Gupta, Harshal

Issue Date

2019-06-19

Keyword(s)

Astrochemistry and astrobiology in the age of Atacama Large Millimeter/submillimeter Array (ALMA)

Abstract

The simple hydrocarbons CCH, $\mathrm{CCCH}$, c-$\mathrm{C_{3}H}$, $\mathrm{H_{2}CCC}$, and c-$\mathrm{C_{3}H_{2}}$ are common in the interstellar gas and are thought to be important in the production of larger molecules, yet their abundances are poorly understood. Observations of the carbon chain ion $\mathrm{CCCH^{+}}$, a key intermediate in the chemistry of these species, have begun to shed some light on their abundances: (i) maps of $\mathrm{CCCH^{+}}$ in the Horsehead nebula photodissociation region (PDR) suggest that besides ion-molecule chemistry, the fragmentation of large molecules or very small interstellar grains contributes to the production of small hydrocarbons;\footnote{Guzm{\'a}n, V., Pety, J., Goicoechea, J.~R., et al. 2015, ApJL, 800, L33} and (ii) there is important but limited evidence that the $\mathrm{CCCH^{+}}$ abundance is uniform in diffuse clouds in the Galactic disk, and is remarkably similar to $\mathrm{CCCH^{+}}$ abundances inferred in PDRs.\footnote{Gerin, M., Liszt, H., Neufeld, D., et al. 2019, A\&A, 622, A26; {\em and references therein.}} Furthermore, there is clear evidence for a very large molecule---the fullerene ion $\mathrm{C_{60}^+}$---in the diffuse gas,\footnote{Maier, J.~P. \& Campbell, E.~K. 2016, Phil. Trans. R. Soc. A, 374, (issue 2076), 1} so studies of $\mathrm{CCCH^{+}}$ and similar ions in diffuse clouds should allow robust constraints on chemistry over a very large scale in molecular size. Using the 100-m Green Bank Telescope, we recently detected the two lowest rotational transitions of $\mathrm{CCCH^{+}}$ along with transitions of several related hydrocarbons in absorption from diffuse clouds toward the luminous H~II region W49N. Our observations demonstrate that absorption spectroscopy is a highly sensitive means to detect trace polyatomic species such as $\mathrm{CCCH^{+}}$, owing to the large pathlengths through the Spiral Arms and the availability of bright centimeter continuum sources. We will discuss our results toward W49N within the context of elucidating the abundances of small hydrocarbons in diffuse clouds. We will also discuss the prospects of detecting $\mathrm{CCCH^{+}}$ toward several other Galactic continuum regions, and detecting larger polyatomic molecules in diffuse clouds through dedicated spectral line surveys.

Publisher

International Symposium on Molecular Spectroscopy

Type of Resource

text

Language

eng

Permalink

http://hdl.handle.net/2142/104259

DOI

https://doi.org/10.15278/isms.2019.WG02

Copyright and License Information

Copyright 2019 Kelvin Lee

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