English

Aromatic cycles are widespread in cold clouds

Astrophysics of Galaxies 2023-09-13 v3

Abstract

We report the detection of large hydrocarbon cycles toward several cold dense clouds. We observed four sources (L1495B, Lupus-1A, L483, and L1527) in the Q band (31-50 GHz) using the Yebes 40m radiotelescope. Using the line stack technique, we find statistically significant evidence of benzonitrile (C6_6H5_5CN) in L1495B, Lupus-1A, and L483 at levels of 31.8σ\,\sigma, 15.0σ\,\sigma, and 17.2σ\,\sigma, respectively, while there is no hint of C6_6H5_5CN in the fourth source, L1527. The column densities derived are in the range (1.7-3.8)×1011\,\times\,10^{11} cm2^{-2}, which is somewhat below the value derived toward the cold dense cloud TMC-1. When we simultaneously analyze all the benzonitrile abundances derived toward cold clouds in this study and in the literature, a clear trend emerges in that the higher the abundance of HC7_7N, the more abundant C6_6H5_5CN is. This indicates that aromatic cycles are especially favored in those interstellar clouds where long carbon chains are abundant, which suggests that the chemical processes that are responsible for the formation of linear carbon chains are also behind the synthesis of aromatic rings. We also searched for cycles other than benzonitrile, and found evidence of indene (C9_9H8_8), cyclopentadiene (C5_5H6_6), and 1-cyano cyclopentadiene (1-C5_5H5_5CN) at levels of 9.3σ\,\sigma, 7.5σ\,\sigma, and 8.4σ\,\sigma, respectively, toward L1495B, which shows the strongest signal from C6_6H5_5CN. The relative abundances between the various cycles detected in L1495B are consistent -- within a factor of three -- with those previously found in TMC-1. It is therefore likely that not only C6_6H5_5CN but also other large aromatic cycles are abundant in clouds rich in carbon chains.

Keywords

Cite

@article{arxiv.2308.15951,
  title  = {Aromatic cycles are widespread in cold clouds},
  author = {M. Agundez and N. Marcelino and B. Tercero and J. Cernicharo},
  journal= {arXiv preprint arXiv:2308.15951},
  year   = {2023}
}

Comments

Accepted for publication in A&A Letters. Changes with respect to previous version: language edited, error in abstract corrected, and title changed

R2 v1 2026-06-28T12:08:18.005Z