About the deformation of ferroelectric hystereses

Abstract: Articles you may be interested inEnhancement of fatigue endurance in ferroelectric PZT ceramic by the addition of bismuth layered SBT

“…3 d f). The S pp after ten electric-field cycles follows a similar trend to the current peak behavior as a function of RE-BFO composition ( Table 1 T 50,51 , that is, a progressive increase in the strain, current and polarization during switching-field cycling from the virgin state.…”

“…Here the current-electric-field (I-E) and strain-electric-field (S-E) hysteresis are displayed in favour of polarization-electric-field (P-E) hysteresis (Fig. 3), as leakage current contributions can obscure critical P-E features such as remnant polarization 50 . Typical P-E loops can be found in the supplementary materials.…”

Temperature dependent piezoelectric response and strain–electric-field hysteresis of rare-earth modified bismuth ferrite ceramics

“…3 d f). The S pp after ten electric-field cycles follows a similar trend to the current peak behavior as a function of RE-BFO composition ( Table 1 T 50,51 , that is, a progressive increase in the strain, current and polarization during switching-field cycling from the virgin state.…”

“…Here the current-electric-field (I-E) and strain-electric-field (S-E) hysteresis are displayed in favour of polarization-electric-field (P-E) hysteresis (Fig. 3), as leakage current contributions can obscure critical P-E features such as remnant polarization 50 . Typical P-E loops can be found in the supplementary materials.…”

Temperature dependent piezoelectric response and strain–electric-field hysteresis of rare-earth modified bismuth ferrite ceramics

“…[17] Wake-up and fatigue behaviors are due to a complex interplay among phenomena involving the ferroelectric properties (e.g., domain orientation, phase stability and field induced phase transitions) and dielectric characteristics (e.g., defect activation/creation, charge injection and consequent trapping), that could induce a built-in bias. [18,19] Even though those studies offered valuable first step insight into the behavior of these new materials, they were confined only to potential mechanisms separately and in a speculative manner. Therefore, a detailed study of the physical mechanisms responsible for the wake-up and fatigue phase in doped hafnium films is strongly required.…”

Physical Mechanisms behind the Field‐Cycling Behavior of HfO₂‐Based Ferroelectric Capacitors

“…16 In fact, statistical distributions of switching times can even be directly read out from polarization switching measurements over a wide time window if the inhomogeneous field mechanism (IFM) model is applied. 17,18 Experiments of this kind are reported seldom despite presenting a valuable tool for studying dynamic properties 19 alternative to measurements within the frequency domain. 8,20 The IFM-analysis is based on the hypothesis that the local polarization switching occurs according to a step-like process on the logarithmic time scale (in general similar to the KAI-model) with a switching time () E  dependent on the local electric field E utilizing the experimental finding of the strong field dependence of switching dynamics.…”

Fatigue effect on polarization switching dynamics in polycrystalline bulk ferroelectrics