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dc.contributor.authorYurchenko, Sergei N.
dc.contributor.authorCarvajal Zaera, Miguel 
dc.contributor.authorThiel, W.
dc.contributor.authorLin, Hain
dc.contributor.authorJensen, Per
dc.identifier.citationYurchenko, S.N., Carvajal Zaera, M., Thiel, W., Lin, H., Jensen, P.: "Dipole moment and intensities in the electronic ground state of NH3: Bridging the gap between ab initio theory and spectroscopic experiment". Journal of Chemical Physics. Vol. 122, n. 10 (2005). ISSN 1089-7690en_US
dc.description.abstractWe report here theoretical values for the transition moments of an extensive set of vibrational bands in the electronic ground state of 14NH3. For selected bands, we have further made detailed simulations of the rotational structure. The calculations are carried out by means of recently developed computational procedures for describing the nuclear motion and are based on a high- level ab initio potential energy surface, and high-level dipole moment surfaces, for the electronic ground state of NH3. The reported theoretical intensity values are compared to, and found to agree very well with, corresponding experimental results. It is believed that the computational method, in conjunction with high-quality ab initio potential energy and dipole moment surfaces, can simulate rotation-vibration spectra of XY3 pyramidal molecules prior to observation with su±cient accuracy to facilitate the observation of these spectra. By degrading the accuracy of selected elements of the calculations, we have also investigated the in°uence of customary approximations on the computed intensity values.en_US
dc.publisherAmerican Institute of Physicsen_US
dc.rightsAtribución-NoComercial-SinDerivadas 3.0 España
dc.subjectAnálisis espectralen_US
dc.subject.otherCorrelated molecular calculationsen
dc.subject.otherMicrowave double-resonanceen
dc.subject.otherLaser stark spectroscopyen
dc.subject.otherGaussian-basis setsen
dc.subject.otherVibrational systemen
dc.titleDipole moment and intensities in the electronic ground state of NH3: Bridging the gap between ab initio theory and spectroscopic experimenten_US

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