The position of deuterium in HOD-NNO as determined by structural and nuclear quadrupole coupling constants

Obenchain, Daniel A.; Frank, Derek S.; Novick, Stewart E.; Klemperer, William

The position of deuterium in HOD-NNO as determined by structural and nuclear quadrupole coupling constants

2015-08-28 | journal article; research paper

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The position of deuterium in HOD-NNO as determined by structural and nuclear quadrupole coupling constants
Obenchain, D. A. ; Frank, D. S.; Novick, S. E. & Klemperer, W. (2015)
The Journal of Chemical Physics, 143(8) art. 084301. DOI: https://doi.org/10.1063/1.4928687

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Authors: Obenchain, Daniel A. ; Frank, Derek S.; Novick, Stewart E.; Klemperer, William
Abstract: Rotational spectra of the weakly bound H2O-N2O complex and its HOD-N2O isotopologue in a supersonic jet are reported. Rotational constants of the singly substituted deuterium in water and each singly substituted nitrogen-15 are presented. Combinations of isotopic data and high level ab initio calculations place the water in a similar position to those of the isoelectronic H2O-CO2 complex, with a slight tilt of the OH towards the NNO axis. The deuterium nuclear quadrupole coupling constant places the deuterium on the O-H axis quasi-parallel to the NNO axis.
Issue Date: 28-August-2015
Journal: The Journal of Chemical Physics
ISSN: 0021-9606
eISSN: 1089-7690
Language: English

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The position of deuterium in HOD-NNO as determined by structural and nuclear quadrupole coupling constants

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