Author: Angeli Celestino Cimiraglia Renzo Malrieu Jean-Paul
Publisher: Taylor & Francis Ltd
ISSN: 1362-3028
Source: Molecular Physics, Vol.111, Iss.9-11, 2013-07, pp. : 1069-1077
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Abstract
The ability of the valence bond (VB) approach to describe a molecular system in ‘chemical terms’ finds its theoretical justification in the fact that the VB wavefunctions are supposed to be diabatic, i.e. with a well-defined nature, not depending on the nuclear geometry. The intimate nature of the VB wavefunctions is here analysed by computing the non-adiabatic coupling for the simple, paradigmatic case of the hydrogen (H2) molecule. This analysis reveals that the neutral and ionic VB wavefunctions cannot be considered as diabatic states, given that they present a large non-adiabatic coupling. The diabatic states, obtained by a suitable transformation of the VB wavefunctions, are found to be the wavefunctions of the orthogonal VB (OVB) approach, which therefore gains a legitimacy in the analysis of the composition of the adiabatic wavefunctions. Such an analysis has some bearing on the description of the nature of the chemical bond in H2: the neutral structure gives a dissociative curve and the bond is due to the stabilisation brought by the ionic structure that mixes together with the neutral structure in the ground state wavefunction at short internuclear distances. The ability of the (at first glance) neutral VB wavefunction based on the 1
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