Charge distribution model in cubic perovskite-type compounds

A non-zero electric field gradient tensor, detected by probes that occupy s ites with cubic point group symmetry, was observed in many ABO, perovskite- type compounds. This breakdown of local cubic symmetry is commonly associat ed with the presence of oxygen vacancies around the probe. This effect in B aTixHf1-xO3 with x = 0.7, 0.5, 0.3, 0.1, 0.05 and 0.01 is studied in this w ork. The cell parameters were obtained at laboratory temperature using XRD spectroscopy. The hyperfine parameters were measured at a Ta-181 probe in t he B site using Perturbed Angular Correlations (PAC) spectroscopy as a func tion of both temperature and composition. As a common trend, a static asymm etric and distributed quadrupolar interaction, strongly dependent on compos ition has been observed. The results, together with those corresponding to 1 > x greater than or equal to 0.75, are analyzed using the point-charge mo del in terms of polarized oxygen vacancies, different covalence of the Ti-O and Hf-O bonds with computational simulation for the lattice positions of cations and oxygen vacancies.