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arxiv: 2210.17348 · v1 · pith:JUJKFL5Znew · submitted 2022-10-31 · 🌌 astro-ph.SR · astro-ph.GA· physics.atm-clus· physics.chem-ph

Laboratory and astronomical discovery of magnesium dicarbide, MgC₂

classification 🌌 astro-ph.SR astro-ph.GAphysics.atm-clusphysics.chem-ph
keywords circumstellardicarbidelaboratorylinesmagnesiumtemperatureabundanceanalogous
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We report the detection of magnesium dicarbide, MgC$_2$, in the laboratory at centimeter wavelengths and assign $^{24}$MgC$_2$, $^{25}$MgC$_2$, and $^{26}$MgC$_2$ to 14 unidentified lines in the radio spectrum of the circumstellar envelope of the evolved carbon star IRC+10216. The structure of MgC$_2$ is found to be T-shaped with a highly ionic bond between the metal atom and the C$_2$ unit, analogous to other dicarbides containing electropositive elements. A two-temperature excitation model of the MgC$_2$ emission lines observed in IRC+10216 yields a very low rotational temperature of $6\pm1$ K, a kinetic temperature of $22\pm13$ K, and a column density of $(1.0 \pm 0.3) \times 10^{12}$ cm$^{-2}$. The abundance of MgC$_2$ relative to the magnesium-carbon chains MgCCH, MgC$_4$H, and MgC$_6$H is $1{:}2{:}22{:}20$ and provides a new constraint on the sequential radiative association-dissociative recombination mechanisms implicated in the production of metal-bearing molecules in circumstellar environments.

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