Rotation-Vibration Spectra for Ground State of NaH and Its Isotopes with Explicitly Multireference Configuration Interaction Method
DOI:
https://doi.org/10.4208/jams.022116.041216aKeywords:
MRCI-F12, NaH, rotational-vibration constants.Abstract
High-level ab initio calculations utilizing explicitly correlated multi-reference configuration interaction method (MRCI-F12), considering Davidson modification(Q), core-valence correlation correction(CV) and scalar relativistic correction(SR), were performed to compute the Born-Oppenheimer potential energy curve (PEC) of the ground state $X^1Σ^+$ of NaH. On the base of the PEC, we obtained vibrational and rotational energy levels information of the ground state $X^1Σ^+.$ The vibrational and rotational spectroscopic constants of $X^1Σ^+$ were compared with the available experimental values. We also report rotation-vibration spectra of the ground state for the isotopes of NaH, NaD and NaT molecules. The equilibrium internuclear distances $R_e$ and dissociation energies $D_e$ were calculated to be 1.8865 Å and 15823.29$cm^{-1}$ for the ground state $X^1Σ^+$ of NaH, which are in good agreement with the experimental results of 1.8859 Å and 15815 ± 5$cm^{-1}.$