Effect of Pressure on the Polarization Reversal in BaTiO_3
スポンサーリンク
概要
- 論文の詳細を見る
The maximum current i_m and the switching time t_s have been measured as functions of pressure p(≲2 k bar) at room temperature in the field range: E≲2 k V/cm. The quantities i_m and 1/t_s increase with hydrostatic pressure and decrease with two-dimensional pressure perpendicular to c-axis. The exponential laws: i_m=i_∞e^<-α/E> and t_s=t_∞e^<α/E> hold under every fixed pressure. The activation field α decreases linearly at the rate: (∂α/∂p)/α=-5.0×10^<-11> cgs with hydrostatic pressure, and increases linearly at the rate: (∂α/∂p)/α=4.3×10^<-11> cgs with two-dimensional pressure. These results agree qualitatively and quantitatively in the order of magnitude with the prediction of the Miller-Weinreich model. The pressure dependences of the 180° wall energy and the spontaneous polarization, which quantities have close relations with α, have been calculated by the molecular theory of Kinase and Takahasi, and fair agreement has been found between the theory and the experiment.
- 社団法人日本物理学会の論文
- 1969-05-05
著者
-
HAYASHI Mitsuhiko
Department of Applied Physics, Faculty of Engineering, Nagoya University
-
Hayashi Mitsuhiko
Department Of Applied Physics Faculty Of Engineering Nagoya University
関連論文
- Effect of a Two-Dimensional Pressure on the Curie Points of Triglycine Sulphate and Rochelle Salt
- Sideways Growth of Domains in Polarization Reversal in Triglycine Sulphate
- Decay of Switching Current in Switching of BaTiO_3 Crystal due to a-Domain Formation
- Effect of Pressure on the Polarization Reversal in BaTiO_3
- Kinetics of Domain Wall Motion in Ferroelectric Switching. : II. Application to Barium Titanate
- Temperature Dependence of the Switching Rate of Triglycine Sulphate
- A Note on the Domain Wall Motion in Ferroelectric Switching
- Kinetics of Domain Wall Motion in Ferroelectric Switching. : I. General Formulation
- Effect of Pressure on the Switching Rate of Triglycine Sulphate
- Ferroelectric Phase Transition in Lead Zirconate Titanate under High Pressure
- Shift of Curie Temperature of Barium Titanate Due to Two-Dimensional Pressure
- Improved Theory of the Growth of Perfect Crystals