I present chemical evolution models for the neutral layers of proto-planetary nebulae in order to\r explain the high abundance of polyynes, cyanopolyynes, methyl-polyynes, benzene, and other C-bearing\r species found in CRL 618 by Cernicharo et al. In the neutral regions behind the H II region, the\r radiation field produces a rich photochemistry on timescales shorter than the dynamical evolution of\r the central H II region, leading to the formation of large carbon-rich molecules C n H 2 , HC (2 n\r +1) N, and C n . Reactions between radicals H and H 2 play a crucial role in maintaining a high\r abundance for these species in spite of the strong radiation field emerging from the central star.\r The models predict that proto-planetary nebulae in the early stages of evolution will have high\r abundances for species such as HC (2 n +1) N, C n H 4 , and C n H 3 N. The role of reactions between\r neutrals and radicals in the growth of aromatic molecules is discussed. The large abundance derived\r for small cumulenes suggests that the growth of small carbon grains with C/H ##IMG##\r [http://ej.iop.org/icons/Entities/Gt.gif] {Gt} 1 could be dominated by reactions between polyynes\r and cumulenes. The models also explain the observed abundances of H 2 CO, OH, H 2 O, CO 2 , and [O I\r ] in the region where CO is photodissociated.
CITATION STYLE
Cernicharo, J. (2004). The Polymerization of Acetylene, Hydrogen Cyanide, and Carbon Chains in the Neutral Layers of Carbon-rich Proto-planetary Nebulae. The Astrophysical Journal, 608(1), L41–L44. https://doi.org/10.1086/422170
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