Seiichiro Azuma scite author profile

Seiichiro Azuma

2Publications

6Citation Statements Received

56Citation Statements Given

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Okayama University

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Domain contribution to the aging characteristics in BaTiO₃ ceramics

Teranishi

Azuma

Kishimoto

2019

Jpn. J. Appl. Phys.

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The domain contribution to the aging characteristics of BaTiO 3 (BTO) ceramics in a DC electric field was quantitatively investigated using microwave dielectric spectroscopy. The BTO aging effect was related to its domain size (DS): the reduction in the apparent permittivity by the DC electric field, Δε, increased with decreasing BTO DS. Inspection of the microwave dielectric spectra revealed that dipole polarization governed the overall aging effect regardless of the BTO DS, and that the ionic and electronic polarizations contributions were small. Substitutional loading of acceptor Mg 2+ into the Ti 4+ site decreased the BTO's DS because defect pairs consisting of  Mg Ti and its counterpart V O •• acted as nucleation sites for new domain walls. Magnesium-loaded BTO (Mg-BTO) had smaller Δε values (attributed to dipole polarization) than BTO for similar DS. The  Mg Ti -V O•• defect complex effectively clamped the domain walls, thereby suppressing domain wall migration in the presence of an electric field. The measured permittivity decrease under a DC field was 423 for BTO but 246 for Mg-BTO with a similar DS, corresponding to a 41.8% improvement.

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Name Plates and Etching Techniques

Azuma¹

1979

Jitsumu Hyomen Gijutsu

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Seiichiro Azuma

Domain contribution to the aging characteristics in BaTiO₃ ceramics

Name Plates and Etching Techniques

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Seiichiro Azuma

Domain contribution to the aging characteristics in BaTiO3 ceramics

Name Plates and Etching Techniques

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About

Domain contribution to the aging characteristics in BaTiO₃ ceramics