Theoretical study of molecules in excited states (CNDO/2 method)

Bending and Si-N stretching potential curxes are calculated for a series of ground and excited states of HSiN and HNSi using the MRD CI method. The less stable HSiN isomer is found to have several very lo\\-lying (r, a\*) states, whereas HNSi is predicted to hale its lo\\est sinSlet-sin&% vertical t

Ab initio calculations for a series of excited states of the HZ02 molecule have been performed in order to discuss some recent photofragmentation experiments with laser light. For understanding these experiments the direction of the transition moments is of great interest, as well as the possibility

We have calculated the electronic states of Rb 2 by multireference configuration interactions using the averaged relativistic effective small-core potential and the core-polarization potential. The potential energy curves for a large number of states dissociating into from 5s + 5s up to 7s + 5s asym

The modified CNDO/Z method (CNDO/s) has been applied to study the electronic structure utd geometry of ortho-and meta-difluorobcnzcnes in their ground and first excited sinplct states. Calculated density matrices have been transformed into o-and n-bond orders by the technique suggested earlier. Bond