Vibronic transition moments and line intensities for H2O

Ab initio calculations of the electronic dipole moment components for the and electronic states and the electronic transition moment for the - transition of H₂O⁺ have been carried out. Parameterized analytical functions have been fitted through the computed ab initio data points, and the resulting dipole moment and transition moment surfaces have been used, along with potential energy surfaces derived from the ab initio results of Brommer et al. [J. Chem. Phys. 98 (1993) 5222], to simulate H₂O⁺ spectra and to generate an extensive set of vibronic transition moments for the and band systems of H₂O⁺. The work is made with the dual purpose of facilitating further assignments of high-resolution spectra [J. Mol. Spectrosc. 219 (2003) 258] and of allowing cometary spectra of H₂O⁺ to be simulated [Ap. J. 574 (2002) L183].