Effect of Eu doping and partial oxygen isotope substitution on magnetic phase transitions in (Pr1-yEuy)0.7Ca0.3CoO3 cobaltites

Abstract

We study experimentally and theoretically the effect of Eu doping and partial oxygen isotope substitution on the transport and magnetic characteristics and spin-state transitions in (Pr1-yEuy)0.7Ca0.3CoO3 cobaltites. The Eu doping level y is chosen in the range of the phase diagram near the crossover between the ferromagnetic and spin-state transitions (0.10 < y < 0.20). We prepared a series of samples with different degrees of enrichment by the heavy oxygen isotope 18O, namely, containing 90%, 67%, 43%, 17%, and 0% of 18O. Based on the measurements of ac magnetic susceptibility (T) and electrical resistivity (T), we analyze the evolution of the sample properties with the change of Eu and 18O content. It is demonstrated that the effect of increasing 18O content on the system is similar to that of increasing the Eu content. The band structure calculations of the energy gap between t2g and eg bands including the renormalization of this gap due to the electron-phonon interaction reveal the physical mechanisms underlying such similarity.