Status of Trivalent Copper and Charge-Transfer Excitons in High-T C Cuprates

A chemical bonding approach based on tight-binding cluster and band calculations, taking into account on-site Coulomb repulsion (Hubbard U parameter) to differentiate doubly and singly occupied states, was applied to high-T C superconducting cuprates and related compounds. This work provides rationa...

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Veröffentlicht in:	Inorganic chemistry 2008-10, Vol.47 (19), p.8487-8497
Hauptverfasser:	Pouchard, Michel, Doumerc, Jean-Pierre, Villesuzanne, Antoine
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Sprache:	eng
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container_title	Inorganic chemistry
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creator	Pouchard, Michel Doumerc, Jean-Pierre Villesuzanne, Antoine
description	A chemical bonding approach based on tight-binding cluster and band calculations, taking into account on-site Coulomb repulsion (Hubbard U parameter) to differentiate doubly and singly occupied states, was applied to high-T C superconducting cuprates and related compounds. This work provides rational insight and explanations for issues such as (i) the actual oxidation number CuI+ for formally trivalent copper in oxides such as La2Li1/2Cu1/2O4, (ii) the dominant oxygen character of the doping holes in (CuO2) n− planes, (iii) the Mott−Hubbard character of the insulator-to-metal transition triggered by hole doping, leading to an oxygen-to-copper charge transfer of avalanche type, (iv) the occurrence of an excitonic phase with anisotropic Frenkel-type excitons, (v) the role of Coulomb interactions between excitons and between doping holes and their exciton surroundings, and (vi) the on-time pairing of doping holes by means of an “excitonic glue”.
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title	Status of Trivalent Copper and Charge-Transfer Excitons in High-T C Cuprates
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