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Particle-Breaking Hartree–Fock Theory for Open Molecular Systems

Regina Matveeva, Sarai Dery Folkestad, Ida‐Marie Høyvik

2023The Journal of Physical Chemistry A13 citationsDOIOpen Access PDF

Abstract

In this work we present the particle-breaking Hartree-Fock (PBHF) model which is a mean-field approach to open molecular systems. The interaction of a system with the environment is parametrized through a particle-breaking term in the molecular Hamiltonian. The PBHF wave function is constructed through an exponential unitary transformation of a Slater determinant with a given number of electrons. We consider only the closed-shell formalism. The parametrization results in a linear combination of Slater determinants with different numbers of electrons, i.e., the PBHF wave function is not an eigenfunction of the number operator. As a result, the density matrix may have fractional occupations which are, because of the unitary parametrization, always between 0.0 and 2.0. The occupations are optimized simultaneously with the orbitals, using the trust-region optimization procedure. In the limit of a particle-conserving Hamiltonian, the PBHF optimization will converge to a standard Hartree-Fock wave function. We show that the average number of electrons may be decreased or increased depending on whether the particle-breaking term affects occupied or virtual orbitals.

Topics & Concepts

Wave functionSlater determinantHamiltonian (control theory)Hartree–Fock methodAtomic orbitalQuantum mechanicsUnitary transformationChemistryOpen shellEigenfunctionSecond quantizationParametrization (atmospheric modeling)Fock spaceElectronPhysicsQuantumEigenvalues and eigenvectorsCreation and annihilation operatorsMathematicsMathematical optimizationRadiative transferAdvanced Chemical Physics StudiesNuclear physics research studiesAdvanced NMR Techniques and Applications
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