Phase separation and valence instabilities in cuprate superconductors. Effective one-band model approach
Abstract
We study the Cu-O valence instability (VI) and the related phase separation (PS) driven by Cu-O nearest-neighbor repulsion Upd, using an effective extended one-band Hubbard model (Heff) obtained from the extended three-bandHubbard model, through an appropriate low-energy reduction. Heff is solved by exact diagonalization of a square cluster with 10 unit cells and also within a slave-boson mean-field theory. Its parameters depend on doping for Upd≠ 0 or on-site O repulsion Up≠ 0. The results using both techniques coincide in that there is neither VI nor PS for doping levels x<0.5 if Upd 2 eV. The PS region begins for Upd 2 eV at large doping x>0.6 and increases with increasing Upd. The PS also increases with increasing on-site Cu repulsion Ud.
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