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  • 1
    Publication Date: 2015-08-21
    Description: Even though quartic force fields (QFFs) and highly accurate coupled cluster computations describe the OCHCO + cation at equilibrium as a complex between carbon monoxide and the formyl cation, two notable and typical interstellar and atmospheric molecules, the prediction from the present study is that the equilibrium C ∞ v structure is less relevant to observables than the saddle-point D ∞ h structure. This is the conclusion from diffusion Monte Carlo and vibrational self-consistent field/virtual state configuration interaction calculations utilizing a semi-global potential energy surface. These calculations demonstrate that the proton “rattle” motion ( ν 6 ) has centrosymmetric delocalization of the proton over the D ∞ h barrier lying only 393.6 cm −1 above the double-well OCHCO + C ∞ v minima. As a result, this molecule will likely appear D ∞ h , and the rotational spectrum will be significantly dimmer than the computed equilibrium 2.975 D center-of-mass dipole moment indicates. However, the proton transfer fundamental, determined to be at roughly 300 cm −1 , has a very strong intensity. This prediction as well as those of other fundamentals should provide useful guides for laboratory detection of this cation. Finally, it is shown that the two highest energy QFF-determined modes are actually in good agreement with their vibrational configuration interaction counterparts. These high-level quantum chemical methods provide novel insights into this fascinating and potentially common interstellar molecule.
    Print ISSN: 0021-9606
    Electronic ISSN: 1089-7690
    Topics: Chemistry and Pharmacology , Physics
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