期刊
MOLECULAR ASTROPHYSICS
卷 2, 期 -, 页码 18-24出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.molap.2015.12.001
关键词
Rovibrational spectroscopy; Quartic force fields; Quantum chemistry; Noble gasses; Astrochemistry
资金
- Georgia Southern University
The discovery of ArH+ in the interstellar medium has shown that noble gas chemistry may be of more chemical significance than previously believed. The present work extends the known chemistry of small noble gas molecules to NeOH+ and ArOH+. Besides theft respective neonium and argonium diatomic cation cousins, these hydroxyl cation molecules are the most stable small noble gas molecules analyzed of late. ArOH+ is once again more stable than the neon cation, but both are well-behaved enough for a complete quartic force field analysis of their rovibrational properties. The Ar-O bond in ArOH+, for instance, is roughly three-quarters of the strength of the Ar-H bond in ArH+ highlighting the rigidity of this system. The rotational constants, geometries, and vibrational frequencies for both molecules and their various isotopologues are computed from ab initio quantum chemical theory at high-level, and it is shown that these cations may form in regions where peroxy or weakly-bound alcohols may be present. The resulting data should be of significant assistance for the laboratory or observational analysis of these potential interstellar molecules. (C) 2016 Elsevier B.V. All rights reserved.
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