Perturbation calculation of transition moments. Application to H2 and MgO

## Abstract The matrix elements of the transition dipolar momentum IR have been computed between the low‐lying states associated to the Lyman–α transition. The orthogonalization of the involved electronic states (obtained by the CIPSI method) has been performed and led to a better value for the asy

Ab initio MRCI electronic dipole transition moments were calculated for the singlet and triplet molecular states contributing to free-free and free-bound absorption in the far wings of the Lyman ␣ and Lyman ␤ lines of hydrogen atom perturbed by another hydrogen atom in its ground state. Results are

Ab initio CI electronic dipole transition moments have been calculated for the transitions between singlet states of the hydrogen molecule correlating asymptotically with HðnlÞ þ Hð1sÞ (n ¼ 1; 2; 3). The investigated singlet-singlet transitions include the 30 ðn ¼ 3Þ inter-Rydberg transitions and th

Values of molecular quadrupole moments are calculated using the CNDO/2 and INDO methods and compared with experiment and other calcuiations. Tbe agreement is good, except for ii systems both lineax and planar. Consideration of tbls disagreement suggests that use of RAO's which are less compressed pe

Many-body perturbation theory and coupled-cluster calculations for the energy and dipole moment of Hz0 are performed using different techniques to reduce the virtual space. The optimized virtual orbital space (OVOS) method is compared with frozen natural orbitals (FNO), defined from a relaxed densit