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Simulating X-ray photoelectron spectra with strong electron correlation using multireference algebraic diagrammatic construction theory

Carlos E. V. de Moura, Alexander Yu. Sokolov

2022Physical Chemistry Chemical Physics29 citationsDOIOpen Access PDF

Abstract

, 204113] with a core-valence separation (CVS) technique. The resulting CVS-MR-ADC approach has a low computational cost while overcoming many challenges of the conventional multireference theories associated with the calculations of excitations from inner-shell and core molecular orbitals. Our results demonstrate that the CVS-MR-ADC methods are as accurate as single-reference ADC approximations for predicting core ionization energies of weakly-correlated molecules, but are more accurate and reliable for systems with a multireference character, such as a stretched nitrogen molecule, ozone, and isomers of the benzyne diradical. We also highlight the importance of multireference effects for the description of core-hole screening that determines the relative spacing and order of peaks in the XPS spectra of strongly correlated systems.

Topics & Concepts

Ionization energyMultireference configuration interactionChemistryMolecular orbitalValence (chemistry)Spectral lineElectronic correlationAtomic physicsIonizationComputational chemistryPhysicsElectronMoleculeConfiguration interactionQuantum mechanicsIonAdvanced Chemical Physics StudiesCatalytic Processes in Materials ScienceCatalysis and Oxidation Reactions