Hund's metallicity and orbital-selective Mott localization of CrO2 in the paramagnetic state

Abstract

We present electronic structure calculations of a CrO2 compound in the paramagnetic state within the computational scheme of density-functional theory combined with dynamical mean-field theory. We find that CrO2 in the paramagnetic state is a strongly-correlated Hund's metal with mixed-valent Cr ions. At high temperatures, CrO2 shows an orbital-selective Mott phase, in which the Cr dxy orbital is Mott-localized while the other Cr t2g d orbitals remain itinerant. When the temperature is lowered, the orbital-selective Mott state is found to evolve into a Kondo-like heavy-fermion state with a small pseudo gap at the Fermi level if the system remains in the paramagnetic state.