Abstract
In spite of intensive experimental and theoretical studies, no model at the atomic scale has been proposed to explain the large piezoelectric effect in ${\text{PbZr}}_{0.52}{\text{Ti}}_{0.48}{\text{O}}_{3}$ (PZT) compared to the low piezoelectric response in the simple end-member lead titanate ${\text{PbTiO}}_{3}$. X-ray absorption spectroscopy (XAS) appears as the technique of choice not only to clarify the role of Zr, but also to quantify the Zr displacement through the Ferroelectric-Paraelectric $(F\text{\ensuremath{-}}P)$ transition. We clearly show evidence of the polar character of the Zr-atoms in PZT with a Zr-shift which will produce a small polarization. Such an atomic configuration for one type of atoms leads to relatively easy switching, i.e., relatively low electric field to align the Zr-polar atoms, which will create a favorable energetic situation for the cooperative switching of the strongly polar Ti-O dipole and would therefore account for the large piezoelectric effect in PZT.
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