Discovery of HC3O+ in space: The chemistry of O-bearing species in TMC-1

Authors: Cernicharo, J.; Marcelino, N.; Agundez, M.; Endo, Y.; Cabezas, C.; Bermudez, C.; Tercero, B.; de Vicente, P.

Contribution: Article

Journal: ASTRONOMY & ASTROPHYSICS

Publication date: 2020/10/23

DOI: 10.1051/0004-6361/202039351

Abstract: Using the Yebes 40m and IRAM 30m radio telescopes, we detected a series of harmonically related lines with a rotational constant B-0 = 4460.590 +/- 0.001 MHz and a distortion constant D-0 = 0.511 +/- 0.005 kHz towards the cold dense core TMC-1. High-level-of-theory ab initio calculations indicate that the best possible candidate is protonated tricarbon monoxide, HC3O+. We have succeeded in producing this species in the laboratory and observed its J(u)-J(l) = 2-1 and 3-2 rotational transitions. Hence, we report the discovery of HC3O+ in space based on our observations, theoretical calculations, and laboratory experiments. We derive an abundance ratio N(C3O)/N(HC3O+) similar to 7. The high abundance of the protonated form of C3O is due to the high proton affinity of the neutral species. The chemistry of O-bearing species is modelled, and predictions are compared to the derived abundances from our data for the most prominent O-bearing species in TMC-1.