Revisiting eigen displacements of tetragonal BaTiO3: Combined first principle and experimental investigation

BaTiO3 is a classical ferroelectric studied for last one century for its ferroelectric properties. Lattice dynamics of BaTiO3 is crucial as the utility of devices is governed by phonons. In this work, we show that traditional characterization of the polar phonon modes is ambiguous and often misinter...

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Veröffentlicht in:	Physica. B, Condensed matter Condensed matter, 2022-01, Vol.624, p.413381, Article 413381
Hauptverfasser:	Dwij, Vivek, De, Binoy Krishna, Sharma, Gaurav, Shukla, D.K., Gupta, M.K., Mittal, R., Sathe, Vasant
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Sprache:	eng
Schlagworte:	Barium titanates BaTiO3 Density functional theory Diffraction Ferroelectric materials Ferroelectricity Ferroelectrics First principles Lattice theory Lattice vibration Mathematical analysis Phonons Raman spectroscopy Vibration
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creator	Dwij, Vivek De, Binoy Krishna Sharma, Gaurav Shukla, D.K. Gupta, M.K. Mittal, R. Sathe, Vasant
description	BaTiO3 is a classical ferroelectric studied for last one century for its ferroelectric properties. Lattice dynamics of BaTiO3 is crucial as the utility of devices is governed by phonons. In this work, we show that traditional characterization of the polar phonon modes is ambiguous and often misinterpreted. By combining Raman, Neutron and X-ray diffraction, dielectric spectroscopic observations with first principle calculations, we have re-examined the character of the normal modes of phonons of tetragonal BaTiO3. We obtained Eigen displacements of vibrational modes through DFT calculations and reclassified the polar modes being Slater (Ti–O), Last (Ba–TiO3) and Axe (BO6) vibrations by correlating experimental and theoretical calculations. The study thus provides authentic nomenclature of the polar modes. •Actual eigen displacements of the polar phonon modes in BaTiO3 are identified.•X-ray diffraction, neutron diffraction and Raman spectroscopy supports the finding.•First principle calculations is also employed for identification of eigen displacements.
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subjects	Barium titanates BaTiO3 Density functional theory Diffraction Ferroelectric materials Ferroelectricity Ferroelectrics First principles Lattice theory Lattice vibration Mathematical analysis Phonons Raman spectroscopy Vibration
title	Revisiting eigen displacements of tetragonal BaTiO3: Combined first principle and experimental investigation
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