Anharmonic quantum nuclear densities from full dimensional vibrational eigenfunctions with application to protonated glycine

Anharmonic quantum nuclear densities from full dimensional vibrational eigenfunctions with application to protonated glycine

Accurate interpretation of molecular vibrational spectroscopic signals is key to understand chemical processes. Here the authors introduce a new computational approach to represent vibrational modes in terms of nuclear densities that captures anharmonic effects in protonated glycine.

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Auteurs principaux: Chiara Aieta, Marco Micciarelli, Gianluca Bertaina, Michele Ceotto
Format: article
Langue:EN
Publié: Nature Portfolio 2020
Sujets:
Science
Q
Accès en ligne:https://doaj.org/article/174a9023a2224d099ee71c7e7b562b5d
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Résumé:Accurate interpretation of molecular vibrational spectroscopic signals is key to understand chemical processes. Here the authors introduce a new computational approach to represent vibrational modes in terms of nuclear densities that captures anharmonic effects in protonated glycine.

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