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Nonlinear dielectric response and positive dielectric tunability in antipolar CaTiSiO <sub>5</sub>

Tomoki Murata, Toru Asaka, S. Hirose

2021Journal of the American Ceramic Society11 citationsDOI

Abstract

Abstract Dielectric tunability has been extensively investigated in ferroelectric materials, which exhibit a negative tunability of dielectric permittivity in an external electric field. In contrast, positive tunability is rare and has been reported only in a few antiferroelectric materials. We present positive (and negative) tunability in the titanite, CaTiSiO 5 . The dielectric property of CaTiSiO 5 was measured up to an extraordinarily high electric field of 40 MV/m. A nonlinear polarization field loop with no hysteresis was obtained. The dielectric permittivity of ε r ~ 25 increases up to ε r ~ 40 at 20 MV/m and room temperature. Although titanite has an antipolar structure and is expected to be “antiferroelectric,” its dielectric response in high electric fields up to ~40 MV/m differs from that of conventional antiferroelectrics. We demonstrate that the phase‐transition temperature and dielectric tunability could be modulated through the chemical substitution of Ca 1− x La x TiSi 1− x Al x O 5 , in which the destabilization of the long‐range antipolar order is revealed by transmission electron microscopy analysis. These results indicate that the observed dielectric response to an electric field may originate from the unique features of the antipolar and domain structures in CaTiSiO 5 .

Topics & Concepts

DielectricMaterials scienceAntiferroelectricityElectric fieldFerroelectricityPermittivityCondensed matter physicsTitaniteDielectric lossOptoelectronicsComposite materialPhysicsQuartzQuantum mechanicsFerroelectric and Piezoelectric MaterialsMicrowave Dielectric Ceramics SynthesisDielectric properties of ceramics
Nonlinear dielectric response and positive dielectric tunability in antipolar CaTiSiO <sub>5</sub> | Litcius