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Space and laboratory observation of the deuterated cyanomethyl radical HDCCN

C. Cabezas, Y. Endo, E. Roueff, N. Marcelino, M. Agúndez, B. Tercero, J. Cernicharo

2021Astronomy and Astrophysics38 citationsDOIOpen Access PDF

Abstract

Our observations of TMC-1 with the Yebes 40 m radio telescope in the 31.0–50.3 GHz range allowed us to detect a group of unidentified lines, showing a complex line pattern indicative of an open-shell species. The observed frequencies of these lines and the similarity of the spectral pattern with that of the 2 0, 2 –1 0, 1 rotational transition of H 2 CCN indicate that the lines arise from the deuterated cyanomethyl radical, HDCCN. Using Fourier transform microwave spectroscopy experiments combined with electric discharges, we succeeded in producing the radical HDCCN in the laboratory and observed its 1 0, 1 –0 0, 0 and 2 0, 2 –1 0, 1 rotational transitions. From our observations and assuming a rotational temperature of 5 K, we derive an abundance ratio H 2 CCN/HDCCN = 20 ± 4. The high abundance of the deuterated form of H 2 CCN is well accounted for by a standard gas-phase model, in which deuteration is driven by deuteron transfer from the H 2 D + molecular ion.

Topics & Concepts

DeuteriumPhysicsSpectral lineLine (geometry)Rotational transitionFourier transformMicrowaveAstrophysicsRotational spectroscopyFourier transform spectroscopyAtomic physicsSpectroscopyRotational temperatureSpace (punctuation)IsotopologueRange (aeronautics)Rotational spectrumAbundance (ecology)Nuclear magnetic resonanceTelescopeAstrochemistryEmission spectrumCosmic microwave backgroundRotational energyFourier transform infrared spectroscopyInfraredRadio telescopeAstrophysics and Star Formation StudiesMolecular Spectroscopy and StructureQuantum chaos and dynamical systems