Litcius/Paper detail

Deuterated Polycyclic Aromatic Hydrocarbons in the Interstellar Medium: The Aliphatic C–D Band Strengths

Xuejuan Yang, Aigen Li

2023The Astrophysical Journal Supplement Series13 citationsDOIOpen Access PDF

Abstract

Abstract Deuterium (D) was exclusively generated in the Big Bang, and the standard Big Bang nucleosynthesis (BBN) model predicts a primordial abundance of D/H ≈ 26 parts per million (ppm). As the Galaxy evolves, D/H gradually decreases because of astration. The Galactic chemical evolution (GCE) model predicts a present-day abundance of D/H ≳ 20 ppm. However, observations of the local interstellar medium have revealed that the gas-phase interstellar D/H varies considerably from one region to another and has a median abundance of D/H ≈ 13 ppm, substantially lower than predicted from the BBN and GCE models. It has been suggested that the missing D atoms of D/H ≈ 7 ppm could have been locked up in deuterated polycyclic aromatic hydrocarbon (PAH) molecules. However, we have previously demonstrated that PAHs with aromatic C–D units are insufficient to account for the missing D. Here we explore if PAHs with aliphatic C–D units could be a reservoir of D. We perform quantum chemical computations of the vibrational spectra of superdeuterated PAHs (in which one D and one H share one C atom) and PAHs to which a D-substituted methyl group is attached, and derive the band strengths of the aliphatic C–D stretch ( A 4.65 ). By applying the computationally derived A 4.65 to the observed aliphatic C–D emission at ∼4.6–4.8 μ m, we find that PAHs with aliphatic C–D units could have tied up a substantial amount of D/H and marginally account for the missing D. The possible routes for generating PAHs with aliphatic C–D units are also discussed.

Topics & Concepts

DeuteriumInterstellar mediumGalaxyAstrophysicsPhysicsPolycyclic aromatic hydrocarbonAbundance (ecology)HydrocarbonSpectral lineNucleosynthesisMoleculeChemistryAtomic physicsAstrobiologyOrganic chemistryAstronomySupernovaQuantum mechanicsBiologyFisheryMolecular Spectroscopy and StructureAdvanced Chemical Physics StudiesChemical Reactions and Isotopes