Dissociation energy and the lowest vibrational transition in LiH without assuming the non-Born–Oppenheimer approximation

Nasiri S. Shomenov T. Bubin S. Adamowicz L.
2022 Taylor and Francis Ltd.

Molecular Physics
2022 #120 Issue 24

The fundamental vibrational excitation energy and the dissociation energy of the main isotopologue of lithium hydride ((Formula presented.) LiH) are studied by the variational method using all-particle explicitly correlated Gaussian (ECG) basis sets. In this approach, electrons and nuclei are treated on equal footing, i.e. the Born–Oppenheimer approximation is not assumed. The leading relativistic ((Formula presented.)) and the dominating part of the quantum electrodynamics ((Formula presented.)) corrections to the energy levels are accounted for in the framework of the perturbation theory. The fundamental vibrational excitation energy and the dissociation energies obtained in the calculations are well within the error bars of the available experimental data.

explicitly correlated gaussians , Lithium hydride , non-Born–Oppenheimer calculations , relativistic corrections

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Department of Physics, Nazarbayev University, Nur-Sultan, Kazakhstan
Department of Chemistry and Biochemistry, University of Arizona, Tucson, AZ, United States
Department of Physics, University of Arizona, Tucson, AZ, United States
Centre for Advanced Study (CAS), the Norwegian Academy of Science and Letters, Oslo, Norway

Department of Physics
Department of Chemistry and Biochemistry
Department of Physics
Centre for Advanced Study (CAS)

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