Evidence for weakly correlated oxygen holes in the highest-Tc cuprate superconductor HgBa2Ca2Cu3O8+δ

Abstract

We study the electronic structure of HgBa2Ca2Cu3O8+δ (Hg1223 ; Tc = 134 K) using photoemission spectroscopy (PES) and x-ray absorption spectroscopy (XAS). Resonant valence band PES across the O K-edge and Cu L-edge identify correlation satellites originating in O 2p and Cu 3d two-hole final states, respectively. Analyses using the experimental O 2p and Cu 3d partial density of states show quantitatively different on-site Coulomb energy for the Cu-site (Udd = 6.50.5 eV) and O-site (Upp = 1.00.5 eV). Cu2O7-cluster calculations with non-local screening explain the Cu 2p core level PES and Cu L-edge XAS spectra, confirm the Udd and Upp values, and provide evidence for the Zhang-Rice singlet state in Hg1223. In contrast to other hole-doped cuprates and 3d-transition metal oxides, the present results indicate weakly correlated oxygen holes in Hg1223.