First-principles study of the mechanisms of the pressure-induced dielectric anomalies in ferroelectric perovskites |
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| Authors: | Gustavo Sophia Christian Sarrazin Michel Rérat Roberto Dovesi |
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| Affiliation: | 1. Department MMC, EDF R&2. D, Avenue des Renardières, Moret-sur-Loing Cedex, France;3. Department LME, EDF R&4. Equipe de Chimie Physique, IPREM UMR – 5254, Université de Pau et des Pays de l’Adour, Pau Cedex, France;5. Theoretical Chemistry Group, Dipartimento di Chimica IFM, University of Turin, Torino, Italy |
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| Abstract: | The pressure-induced giant dielectric anomaly at 0 K of ABO3 perovskites is investigated at the Hartree-Fock, density-functional theory and hybrid levels. Its mechanism is analyzed in terms of thermodynamic phase stability, structural and phonon contributions and Born effective charges. It is shown that the IR-active soft phonon is responsible for the anomaly. This mode always involves a displacement and a deformation of the oxygen octahedra, while the roles of A and B ions vary among the materials and between high- and low-pressure phase transitions. A sharp increase in the phonon amplitude near the phase transition gives rise to the dielectric anomaly. The use of hybrid functionals is required for agreement with experimental data. The calculations show that the dielectric anomaly in the pressure-induced phase transitions of these perovskites is a property of the bulk material. |
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| Keywords: | perovskite ferroelectricity dielectric anomaly Hartree-Fock DFT hybrid functionals |
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