Transition Moments among 3Σ and 3Π States of the H2 Molecule

Electronic transition moments are computed for dipole transitions between the C and D 1 P u , I and R 1 P g and J and S 1 D g states of the hydrogen molecule for internuclear distances R √ [1, 15] bohr. The character of the wavefunctions at large internuclear distances is investigated. It is shown t

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

and references therein) to make a detailed calculation of the rovibronic energies in the first excited electronic state, Ã 2 , of the MgNC radical. This calculation is based on ab initio data (supplemented here with points for larger bending displacements from linearity) calculated at the level of M

The present work reports an ab initio MRD-CI calculation of the dipole moment surfaces for the electronic ground state of the H 2 Te molecule. Using the ab initio results, we calculate the vibrational transition moments, and we simulate the far-infrared spectrum of H 2 Te by means of the MORBID prog

The (010)-(010) band of the A 3 Piu -X ; 3 Sigmag - transition of the NCN radical at 328 nm has been reexamined at Doppler-limited resolution by laser excitation spectroscopy. The molecule was generated in a microwave discharge through N2 and CF4 in helium. Both the 3 Deltag -3 Piu and the 3 Sigmag

We report the analysis of the H1 u ( 3 P 1 ) state of I 2 by optical-optical double resonance. This state lies in the second tier of ion-pair states and its observation was achieved by using the (1 ϩ 2) photoexcitation sequence using the A 3 ⌸ 1u state as an intermediate. The molecular parameters we