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Dynamic-then-Static Approach for Core Excitations of Open-Shell Molecules

Ruoqi Zhao, Adam Grofe, Zikuan Wang, Peng Bao, Xin Chen, Wenjian Liu, Jiali Gao

2021The Journal of Physical Chemistry Letters36 citationsDOI

Abstract

Delta self-consistent-field methods are widely used in studies of electronically excited states. However, the nonaufbau determinants are generally spin-contaminated. Here, we describe a general approach for spin-coupling interactions of open-shell molecules, making use of multistate density functional theory (MSDFT). In particular, the effective exchange integrals that determine spin coupling are obtained by enforcing the multiplet degeneracy of the S+1 state in the MS = S manifold. Consequently, they are consistent with the energy of the high-spin state that is adequately treated by Kohn–Sham density functional theory (DFT) and, thereby, free of double counting of correlation. The method was applied to core excitations of open-shell molecules and compared with those by spin-adapted time-dependent DFT. An excellent agreement with experiment was found employing the BLYP functional and aug-cc-pCVQZ basis set. Overall, MSDFT provides an effective combination of the strengths of DFT and wave function theory to achieve efficiency and accuracy.

Topics & Concepts

Density functional theoryMultipletOpen shellExcited stateBasis setPhysicsSpin (aerodynamics)Degeneracy (biology)Shell (structure)Coupling (piping)Atomic physicsMolecular physicsQuantum mechanicsMaterials scienceSpectral lineThermodynamicsBioinformaticsBiologyComposite materialMetallurgySpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesElectron Spin Resonance Studies
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