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Author(s): | Eric J. Cockayne; Benjamin P. Burton; |
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Title: | Phonons and Static Dielectric Constant in CaTiO_{3} From First Principles |

Published: | August 01, 2000 |

Abstract: | CaTiO_{3} has a static dielectric constant that extrapolates to a value greater than 300 at zero temperature. We investigate the origin of this large dielectric response on a microscopic level, using first-principles plane-wave pseudopotential density functional theory calculations. The electronic dielectric tensor and the complete set of zone center phonons and ionic Born effective charges are determined for CaTiO_{3} in its low temperature 20-atom per cell orthorhombic phase via frozen phonon electronic structure, polarization and force constant calculations. Dispersion theory is then used to obtain the dielectric tensor. The dielectric response is dominated by low frequency (n ~ 90 cm^{-1}) polar optical modes in which cation motion opposes oxygen motion. The frequencies of these phonons, and thus the dielectric constant, are predicated to be pressure-sensitive. |

Citation: | Physical Review B (Condensed Matter and Materials Physics) |

Volume: | 62 |

Issue: | 6 |

Pages: | pp. 3735 - 3743 |

Keywords: | Ab-initio calculation,calcium titanate,dielectric permittivity,infrared and raman spectra,lattice dynamics |

Research Areas: | Properties, Ceramics, Materials Science |

PDF version: | Click here to retrieve PDF version of paper (241KB) |