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Quantification of the Ionic Character of Multiconfigurational Wave Functions: The <i>Q</i><sub>a</sub><sup>t</sup> Diagnostic

Silmar A. do Monte, Rene F. K. Spada, Rodolpho L. R. Alves, Lachlan T. Belcher, Ron Shepard, Hans Lischka, Felix Plasser

2023The Journal of Physical Chemistry A12 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The complete active space self-consistent field (CASSCF) method is a cornerstone in modern excited-state quantum chemistry providing the starting point for most common multireference computations. However, CASSCF, when used with a minimal active space, can produce significant errors (>2 eV) even for the excitation energies of simple hydrocarbons if the states of interest possess ionic character. After illustrating this problem in some detail, we present a diagnostic for ionic character, denoted as Q a t, that is readily computed from the transition density. A set of 11 molecules is considered to study errors in vertical excitation energies. State-averaged CASSCF obtains a mean absolute error (MAE) of 0.87 eV for the 34 singlet states considered. We highlight a strong correlation between the obtained errors and the Q a t diagnostic, illustrating its power to predict problematic cases. Conversely, using multireference configuration interaction with single and double excitations and Pople’s size extensivity correction (MR-CISD+P), excellent results are obtained with an MAE of 0.11 eV. Furthermore, correlations with the Q a t diagnostic disappear. In summary, we hope that the presented diagnostic will facilitate reliable and user-friendly multireference computations on conjugated organic molecules.

Topics & Concepts

Complete active spaceExcited stateWave functionExcitationMultireference configuration interactionConfiguration interactionAtomic physicsIonic bondingCharacter (mathematics)ChemistrySinglet statePhysicsBasis setQuantum mechanicsMoleculeIonMathematicsGeometryAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical StudiesSpectroscopy and Laser Applications
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