Laboratory observation and astronomical search of 1-cyano propargyl radical, HCCCHCN
C. Cabezas, M. Nakajima, C. H. Chang, M. Agundez, Y. Endo, and J., Cernicharo
TL;DR
This study reports the laboratory generation and spectroscopic characterization of the 1-cyano propargyl radical, aiming to facilitate its detection in space, but it was not observed in the TMC-1 molecular cloud.
Contribution
The paper provides the first laboratory rotational spectrum of HC3HCN and high-precision molecular constants, supporting future astronomical searches.
Findings
Spectroscopic parameters for HC3HCN were accurately determined.
No detection of HC3HCN in TMC-1, with an upper limit on its column density.
Laboratory data enable future space observations of HC3HCN.
Abstract
The reaction between carbon atoms and vinyl cyanide, CH2CHCN, is a formation route to interstellar 3-cyano propargyl radical, CH2C3N, a species that has recently been discovered in space. The 1-cyano propargyl radical (HC3HCN), an isomer of CH2C3N, is predicted to be produced in the same reaction at least twice more effciently than CH2C3N. Hence, HC3HCN is a plausible candidate to be observed in space as well. We aim to generate the HC3HCN radical in the gas phase in order to investigate its rotational spectrum. The derived spectroscopic parameters for this species will be used to obtain reliable frequency predictions to support its detection in space.The HC3HCN radical was produced by an electric discharge, and its rotational spectrum was characterized using a Balle-Flygare narrowband-type Fourier-transform microwave spectrometer operating in the frequency region of 4-40 GHz. The…
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