NiO: Correlated Bandstructure of a Charge-Transfer Insulator

Abstract

The bandstructure of the prototypical charge-transfer insulator NiO is computed by using a combination of an ab initio bandstructure method and the dynamical mean-field theory with a quantum Monte-Carlo impurity solver. Employing a Hamiltonian which includes both Ni-d and O-p orbitals we find excellent agreement with the energy bands determined from angle-resolved photoemission spectroscopy. This solves a long-standing problem in solid state theory. Most notably we obtain the low-energy Zhang-Rice bands with strongly k-dependent orbital character discussed previously in the context of low-energy model theories.