A general nonorthogonal coupled-electron pair approach based on the intermediate optimization of virtual orbitals is presented. The resulting procedure, similar to the independent electron pahapproximation scheme, is developed in the framework of the valence bond (VB) theory, where the effect of the overlap is directly taken into account. Nonorthogonal virtual orbitals optimal for intermolecular correlation effects were determined starting from the self-consistent field for molecular interaction wave function. These were used in the context of a general ab initio variational multistructure VB wave function consisting of double excitations arising from simultaneous single excitations localized on each monomer. The basis set superposition err...
International audienceThe multi-configurational ansatz of valence-bond theory may serve as basis for...
A potential energy surface for the water dimer with explicit dependence on monomer coordinates is pr...
Computational quantum chemistry proves to be a highly effective means of exploring the nature and pr...
A general nonorthogonal coupled-electron pair approach based on the intermediate optimization of vir...
A general nonorthogonal coupled electron pair approach for the evaluation of electron correlation co...
A general nonorthogonal coupled electron pair approach for the evaluation of electron correlation co...
The equilibrium structure and binding energy of the water dimer system were determined by employing ...
The interaction of the helium dimer system has been studied by means of a newly developed ab initio ...
Author Institution: Department of Chemistry and Biochemistry, The Ohio State University, Columbus, O...
We present the improvement of a previously developed strategy for the evaluation of intermolecular f...
The formalism based on the total energy bifunctional (E[rhoI,rhoII]) is used to derive interaction e...
International audienceValence bond (VB) is one of the cornerstone theories of quantum chemistry. Eve...
Valence bond (VB) is one of the cornerstone theories of quantum chemistry. Even if in practical appl...
International audienceThe multi-configurational ansatz of valence-bond theory may serve as basis for...
A potential energy surface for the water dimer with explicit dependence on monomer coordinates is pr...
Computational quantum chemistry proves to be a highly effective means of exploring the nature and pr...
A general nonorthogonal coupled-electron pair approach based on the intermediate optimization of vir...
A general nonorthogonal coupled electron pair approach for the evaluation of electron correlation co...
A general nonorthogonal coupled electron pair approach for the evaluation of electron correlation co...
The equilibrium structure and binding energy of the water dimer system were determined by employing ...
The interaction of the helium dimer system has been studied by means of a newly developed ab initio ...
Author Institution: Department of Chemistry and Biochemistry, The Ohio State University, Columbus, O...
We present the improvement of a previously developed strategy for the evaluation of intermolecular f...
The formalism based on the total energy bifunctional (E[rhoI,rhoII]) is used to derive interaction e...
International audienceValence bond (VB) is one of the cornerstone theories of quantum chemistry. Eve...
Valence bond (VB) is one of the cornerstone theories of quantum chemistry. Even if in practical appl...
International audienceThe multi-configurational ansatz of valence-bond theory may serve as basis for...
A potential energy surface for the water dimer with explicit dependence on monomer coordinates is pr...
Computational quantum chemistry proves to be a highly effective means of exploring the nature and pr...