Discovery of H2CCCH+ in TMC-1

Abstract

Based on a novel laboratory method, 14 mm-wave lines of the molecular ion H2CCCH+ have been measured in high resolution, and the spectroscopic constants of this asymmetric rotor determined with high accuracy. Using the Yebes 40 m and IRAM 30 m radio telescopes, we detect four lines of H2CCCH+ towards the cold dense core TMC-1. With a dipole moment of about 0.55 Debye obtained from high-level ab initio calculations, we derive a column density of 5.41×1011 cm-2 and 1.60.5×1011 cm-2 for the ortho and para species, respectively, and an abundance ratio N(H2CCC)/N(H2CCCH+)= 2.80.7. The chemistry of H2CCCH+ is modelled using the most recent chemical network for the reactions involving the formation of H2CCCH+. We find a reasonable agreement between model predictions and observations, and new insights into the chemistry of C3 bearing species in TMC-1 are obtained.