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We report the first detection in the interstellar medium of N-cyanomethanimine (H₂CNCN), the stable dimer of HCN of highest energy, and the most complex organic molecule identified in space containing the prebiotically relevant NCN backbone. We have identified a plethora of a-type rotational transitions with 3 Jᵤp 11 and Kₐ 2 that belong to this species towards the Galactic Center G+0. 693-0. 027 molecular cloud, the only interstellar source showing the three cyanomethanimine isomers (including the Z- and E- isomers of C-cyanomethanimine, HNCHCN). We have derived a total column density for H₂CNCN of (2. 9\, \, 0. 1) 10^12 cm^-2, which translates into a total molecular abundance with respect to H₂ of (2. 1\, \, 0. 3) 10^-11. We have also revisited the previous detection of E- and Z-HNCHCN, and found a total C/N-cyanomethanimine abundance ratio of 31. 8\, \, 1. 8 and a Z/E-HNCHCN ratio of 4. 5\, \, 0. 2. While the latter can be explained on the basis of thermodynamic equilibrium, chemical kinetics are more likely responsible for the observed C/N-cyanomethanimine abundance ratio, where the gas-phase reaction between methanimine (CH₂NH) and the cyanogen radical (CN) arises as the primary formation route.
Andrés et al. (Thu,) studied this question.
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