Ab initio study of the CO-N 2 complex: a new highly accurate intermolecular potential energy surface and rovibrational spectrum

Ab initio study of the CO-N 2 complex: a new highly accurate intermolecular potential energy surface and rovibrational spectrum

A new, highly accurate ab initio ground-state intermolecular potential-energy surface (IPES) for the CO-N2 complex is presented. Thousands of interaction energies calculated with the CCSD(T) method and Dunning's aug-cc-pVQZ basis set extended with midbond functions were fitted to an analytical...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2018-05, Vol.20 (18), p.12624-12636
Hauptverfasser: Cybulski, Hubert, Henriksen, Christian, Dawes, Richard, Wang, Xiao-Gang, Bora, Neha, Avila, Gustavo, Carrington, Tucker, Fernández, Berta
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container_end_page 12636
container_issue 18
container_start_page 12624
container_title Physical chemistry chemical physics : PCCP
container_volume 20
creator Cybulski, Hubert
Henriksen, Christian
Dawes, Richard
Wang, Xiao-Gang
Bora, Neha
Avila, Gustavo
Carrington, Tucker
Fernández, Berta
description A new, highly accurate ab initio ground-state intermolecular potential-energy surface (IPES) for the CO-N2 complex is presented. Thousands of interaction energies calculated with the CCSD(T) method and Dunning's aug-cc-pVQZ basis set extended with midbond functions were fitted to an analytical function. The global minimum of the potential is characterized by an almost T-shaped structure and has an energy of -118.2 cm-1. The symmetry-adapted Lanczos algorithm was used to compute rovibrational energies (up to J = 20) on the new IPES. The RMSE with respect to experiment was found to be on the order of 0.038 cm-1 which confirms the very high accuracy of the potential. This level of agreement is among the best reported in the literature for weakly bound systems and considerably improves on those of previously published potentials.
doi_str_mv 10.1039/C8CP01373J
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title Ab initio study of the CO-N 2 complex: a new highly accurate intermolecular potential energy surface and rovibrational spectrum
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