The present article is related to a talk presented during the Symposium on Coherent Control and Ultracold Chemistry held during the Sixth Congress of the International Society for Theoretical Chemical Physics (ISTCP-VI, July 2008). The talk was entitled 'Electronic structure properties of alkali dimers and trimers.
Prospects for alignment of ultracold molecules.' Here we report on the electrostatic repulsion forces of the ionic cores at short separation, involved when the potential energy surfaces of alkali trimers are calculated with a quantum chemistry approach based on effective large-core potentials for ionic core description. We demonstrate that such forces in the triatomic molecule can be obtained as the sum of three pairwise terms.
We illustrate our results on the lowest electronic states of Cs3, which are computed for the first time within a full configuration interaction based on a large Gaussian basis set.