Many-orbital cluster expansion for the exchange-repulsion energy in the interaction of closed-shell systems

investigating the lowering of the totd energy and the orbital energy-splittings of electrons with spine LT and p, respectively, in the DODS scheme, ab initio calculations have been performed for the formaldehyde molecule. The results obtairicd by changing the C=O distance and the orbital exponents o

## Abstract Assuming a determinantal form for the wave‐functions of free molecules, explicit formula for the first‐order interaction energy of many closed‐shell molecules has been derived. Provided that the determinants describing the free molecules are constructed from the Hartree‐Fock orbitals, t

## A clus7er~exponzisn for the nth orqi c: correcrion fo rhe enqy of a mapy-elecrron atom is derived. A possible ap plic;ltion to the calculaticn of the t&d or&r correction to the energy is considuert.

## Abstract We introduce here a new partitioning of the Hamiltonian in calculating pair‐correlation energies using many‐body perturbation theory, by which we are able to eliminate the off‐diagonal particle–hole (__p__–__h__) ladders exactly to all orders in the perturbation expansion. In this formu