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dc.contributor.authorChapman, J.
dc.contributor.authorMillar, T.
dc.contributor.authorWardle, M.
dc.contributor.authorBurton, M.
dc.contributor.authorWalsh, Andrew
dc.identifier.citationChapman, J. and Millar, T. and Wardle, M. and Burton, M. and Walsh, A. 2009. Cyanopolyynes in hot cores: modelling G305.2+0.2. Monthly Notices of the Royal Astronomical Society. 394: pp. 221-230.

We present results from a time-dependent gas-phase chemical model of a hot core based on the physical conditions of G305.2+0.2. While the cyanopolyyne HC3N has been observed in hot cores, the longer chained species, HC5N, HC7N and HC9N, have not been considered as the typical hot-core species. We present results which show that these species can be formed under hot core conditions. We discuss the important chemical reactions in this process and, in particular, show that their abundances are linked to the parent species acetylene which is evaporated from icy grain mantles. The cyanopolyynes show promise as `chemical clocks' which may aid future observations in determining the age of hot core sources. The abundance of the larger cyanopolyynes increases anddecreases over relatively short time-scales, ~102.5 yr. We present results from a non-local thermodynamic equilibrium statistical equilibrium excitation model as a series of density, temperature and column density dependent contour plots which show both the line intensities and several line ratios. These aid in the interpretation of spectral-line data, even when there is limited line informationavailable. In particular, non-detections of HC5N and HC7N in Walsh et al. are analysed and discussed.

dc.publisherOxford University Press
dc.subjectISM: molecules
dc.subjectstars: formation
dc.titleCyanopolyynes in hot cores: modelling G305.2+0.2
dc.typeJournal Article
dcterms.source.titleMonthly Notices of the Royal Astronomical Society
curtin.accessStatusOpen access via publisher

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