Singlet and triplet doped-hole configurations in La2Cu0.5Li0.5O4

Abstract

The ordered alloy La2Li0.5Cu0.5O4 is found to be a band insulator in local density approximation (LDA) calculations with the unoccupied conduction band having predominantly dx2-y2-symmetry and substantial weight in O 2p-orbitals. This is equivalent to a predominant local singlet configuration d9L or a low spin Cu3+-ion with both holes in orbits having dx2-y2-symmetry, i.e. Zhang-Rice singlets. A fairly modest reduction of the apical Cu-O bondlength is sufficient to stabilize a high spin triplet Cu3+-ionic configuration with holes in both dx2-y2 and d3z2-r2 orbits in LDA + U calculations. This leads us to identify the low energy triplet excitation found in NQR studies by Yoshinari et al. as a local high spin Cu3+ -ionic configuration accompanied by a substantial reduction of the apical Cu-O separation, i.e. a anti-Jahn-Teller triplet polaron.

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