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State-Specific Configuration Interaction for Excited States

Fábris Kossoski, Pierre‐François Loos

2023Journal of Chemical Theory and Computation38 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide We introduce and benchmark a systematically improvable route for excited-state calculations, labeled state-specific configuration interaction (ΔCI), which is a particular realization of multiconfigurational self-consistent field and multireference configuration interaction. Starting with a reference built from optimized configuration state functions, separate CI calculations are performed for each targeted state (hence, state-specific orbitals and determinants). Accounting for single and double excitations produces the ΔCISD model, which can be improved with second-order Epstein–Nesbet perturbation theory (ΔCISD+EN2) or a posteriori Davidson corrections (ΔCISD+Q). These models were gauged against a vast and diverse set of 294 reference excitation energies. We have found that ΔCI is significantly more accurate than standard ground-state-based CI, whereas close performances were found between ΔCISD and EOM-CC2 and between ΔCISD+EN2 and EOM-CCSD. For larger systems, ΔCISD+Q delivers more accurate results than EOM-CC2 and EOM-CCSD. The ΔCI route can handle challenging multireference problems, singly and doubly excited states, from closed- and open-shell species, with overall comparable accuracy and thus represents a promising alternative to more established methodologies. In its current form, however, it is reliable only for relatively low-lying excited states.

Topics & Concepts

Configuration interactionMultireference configuration interactionExcited stateFull configuration interactionComplete active spaceCoupled clusterPhysicsAtomic orbitalAtomic physicsPerturbation theory (quantum mechanics)Wave functionChemistryQuantum mechanicsMoleculeElectronAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical StudiesMolecular Junctions and Nanostructures