Open AccessRichardson–Gaudin mean-field for strong correlation in quantum chemistry
Author(s) -
Paul A. Johnson,
CharlesÉmile Fecteau,
Frédéric Berthiaume,
Samuel Cloutier,
Laurie Carrier,
Marianne Gratton,
Patrick Bultinck,
Stijn De Baerdemacker,
Dimitri Van Neck,
Peter A. Limacher,
Paul W. Ayers
Publication year - 2020
Publication title -
the journal of chemical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.071
H-Index - 357
eISSN - 1089-7690
pISSN - 0021-9606
DOI - 10.1063/5.0022189
Subject(s) - field (mathematics) , quantum , physics , statistical physics , mathematics , quantum mechanics , pure mathematics
Ground state eigenvectors of the reduced Bardeen-Cooper-Schrieffer Hamiltonian are employed as a wavefunction Ansatz to model strong electron correlation in quantum chemistry. This wavefunction is a product of weakly interacting pairs of electrons. While other geminal wavefunctions may only be employed in a projected Schrödinger equation, the present approach may be solved variationally with polynomial cost. The resulting wavefunctions are used to compute expectation values of Coulomb Hamiltonians, and we present results for atoms and dissociation curves that are in agreement with doubly occupied configuration interaction data. The present approach will serve as the starting point for a many-body theory of pairs, much as Hartree-Fock is the starting point for weakly correlated electrons.
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