Multifunctional features of rare-earth based perovskite-like ferrocobaltite Eu(Fe0.5Co0.5)O3

Currently, the search for new materials that allow the electronic manipulation of spin for the transport of both electric charge and spin has intensified, since their applications in spintronic devices depend on this adjustment. The aim of this work is the analysis of the crystallographic properties and their correlation with the semiconducting ferromagnetic response of the compound Eu(Fe0.5Co0.5)O3 synthesized by solid reaction. It is observed that this material crystallizes forming an orthorhombic structure (Pnma space group) with disorder in the distribution of Fe and Co ions. Optical evaluation shows a bandgap of 1.15 eV, typical in semiconductors, which is corroborated by electrical transport measurements. Magnetic characterization reveals a predominantly antiferromagnetic behaviour in the low temperature regime, while at high temperatures a soft ferromagnetic response predominates as results of super-exchange interactions between magnetic moments. First-principles electronic structure calculations suggest the occurrence of direct semiconductor-type band gap but of different value for the two orientations spin up and spin down. This result allows inferring the technological applicability of the material in devices based on polarized spin currents.