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A self-consistent field formulation of excited state mean field theory

Tarini S. Hardikar, Eric Neuscamman

2020The Journal of Chemical Physics31 citationsDOIOpen Access PDF

Abstract

We show that, as in Hartree-Fock theory, the orbitals for excited state mean field theory can be optimized via a self-consistent one-electron equation in which electron-electron repulsion is accounted for through mean field operators. In addition to showing that this excited state ansatz is sufficiently close to a mean field product state to admit a one-electron formulation, this approach brings the orbital optimization speed to within roughly a factor of two of ground state mean field theory. The approach parallels Hartree Fock theory in multiple ways, including the presence of a commutator condition, a one-electron mean-field working equation, and acceleration via direct inversion in the iterative subspace. When combined with a configuration interaction singles Davidson solver for the excitation coefficients, the self-consistent field formulation dramatically reduces the cost of the theory compared to previous approaches based on quasi-Newton descent.

Topics & Concepts

Excited stateMean field theoryAnsatzExcitationGround statePhysicsQuantum mechanicsField (mathematics)Atomic orbitalQuantum electrodynamicsMathematicsSolverState (computer science)CommutatorConfiguration interactionField theory (psychology)RADIUSAtomic physicsPosition (finance)Inversion (geology)Perturbation theory (quantum mechanics)Advanced Chemical Physics StudiesAtomic and Molecular PhysicsAdvanced Physical and Chemical Molecular Interactions
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