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W2027788820 startingPage "2297" @default.
W2027788820 abstract "The ammonia molecule containing large amplitude inversion motion is a revealing system in examining high-order correlation effects on potential energy surfaces. Correlation contributions to the equilibrium and saddle point geometries, inversion barrier height and vibrational energy levels, including inversion splittings, have been investigated. A six-dimensional Taylor-type series expansion of the Born–Oppenheimer potential energy surface, which is scaled to different levels of theory, is used to determine vibrational energy levels and inversion splittings variationally. The electronic energies are calculated by coupled-cluster methods, combining explicitly correlated R12 theory (which includes the interelectronic coordinate in the electronic wave function) with a conventional approach including excitations up to the pentuple level. Finally, the electronic correlation contribution is scaled to the full configuration interaction limit. Corrections due to relativistic and non-Born–Oppenheimer effects are also included. Special emphasis is put on the convergence of the high-order contributions with respect to the size of the atomic basis set. To achieve an accuracy of 1 cm−1, it is essential to be at the basis set limit, include all the subtle effects and also include highly excited configurations—even up to the pentuple level in the coupled-cluster expansion." @default.
W2027788820 created "2016-06-24" @default.
W2027788820 creator A5015156976 @default.
W2027788820 creator A5027116899 @default.
W2027788820 creator A5041562700 @default.
W2027788820 creator A5059850577 @default.
W2027788820 creator A5069151534 @default.
W2027788820 date "2004-11-10" @default.
W2027788820 modified "2023-10-03" @default.
W2027788820 title "High excitations in coupled-cluster series: vibrational energy levels of ammonia" @default.
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W2027788820 doi "https://doi.org/10.1080/00268970412331292759" @default.
W2027788820 hasPublicationYear "2004" @default.
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