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Investigating István Mayer's “improved” definitions of bond orders and free valence for correlated singlet‐state wave functions

David L. Cooper, Robert Ponec, Peter B. Karadakov

2021International Journal of Quantum Chemistry10 citationsDOIOpen Access PDF

Abstract

Abstract Chosen from István Mayer's very impressive canon of important work on bond orders and related quantities, we explore a paper from 2012 which introduced a “pseudo spin density matrix” for correlated singlet‐state wave functions, leading to “improved” definitions of bond orders and free valence. Examining such “improved” bond orders for the singlet ground states of H 2 , N 2 and CH + we find that all of them exhibit sensible geometry dependences. Mayer's free valence index works well for H 2 and N 2 ; the asymptotic behavior for CH + turns out to be slightly more complicated but can easily be explained. Using B 2 H 6 to examine three‐center bonding, a simple generalization of Mayer's approach produces numerical results close to those based on the “pseudo spin density matrix.” As expected, the various “correction” terms remain small, albeit some of them are larger for the multicenter indices of ground and excited singlet states of benzene, S 2 N 2 and square (D 4 h ) cyclobutadiene.

Topics & Concepts

Singlet stateValence bond theoryBond orderGeneralized valence bondValence (chemistry)ChemistryWave functionCyclobutadieneModern valence bond theoryExcited stateGround stateBond lengthAtomic physicsComputational chemistryQuantum mechanicsPhysicsCrystallographyMoleculeCrystal structureMolecular orbitalAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical StudiesMolecular spectroscopy and chirality
Investigating István Mayer's “improved” definitions of bond orders and free valence for correlated singlet‐state wave functions | Litcius