2021
DOI: 10.1063/5.0067955
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Scaling relations of domain reversal dynamics in rhombohedral and tetragonal PIN–PMN–PT ferroelectric single crystals

Abstract: The domain reversal dynamics of rhombohedral and tetragonal PIN–PMN–PT ferroelectric single crystals has been investigated by analyzing the variation of hysteresis loops under various electric fields and frequencies. As the electric field amplitude E0 continuously increases, the hysteresis area ⟨A⟩ clearly reflects three stages of polarization reversal. The complete scaling relations of domain reversal dynamics were determined. For rhombohedral PIN–47PMN–29PT crystals, the dynamic hysteresis area follows the l… Show more

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Cited by 19 publications
(8 citation statements)
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“…The corresponding relationship between ln<A> and lnE 0 is shown in figure 8(e). Obviously, ln<A> with lnE 0 exhibits a linear relationship in stage I and stage III, which indicates stages I and III conforms to a scaling behavior [55][56][57]. The polarization mechanism of stage I is mainly ascribed to 180 • domain wall motion and stage III is considered to be polarization extension.…”
Section: Resultsmentioning
confidence: 90%
“…The corresponding relationship between ln<A> and lnE 0 is shown in figure 8(e). Obviously, ln<A> with lnE 0 exhibits a linear relationship in stage I and stage III, which indicates stages I and III conforms to a scaling behavior [55][56][57]. The polarization mechanism of stage I is mainly ascribed to 180 • domain wall motion and stage III is considered to be polarization extension.…”
Section: Resultsmentioning
confidence: 90%
“…The dynamic hysteresis and scaling behavior of the two ceramics are researched in this part, to further clarify the process of the polarization reversal. The hysteresis area ⟨ A ⟩ representing the energy dissipation in one cycle of polarization is described as a scaling function of frequency f and electric field amplitude E as follows: ⟨ A ⟩ ∝ f α E β . The relationship between ⟨ A ⟩ and E , f can reflect the key dynamics of domain nucleation, growth, and motion and the corresponding polarization reversal process by quantifying the values of exponents α and β . For talking in a targeted way, the effect of E is only discussed in this section.…”
Section: Resultsmentioning
confidence: 99%
“…Figure a,d shows the evolution of the P – E loops of the two samples with increasing E at fixed f = 2 Hz, illustrating the strong E -dependence of the loop profile. Similar to other material systems, the P – E loops can be divided into three regions (liner, minor, and saturated loops) with increasing E , referring to the calculated ln⟨ A ⟩ and its differentials d (ln⟨ A ⟩)/d (ln E ) as a function of ln E of the two samples [Figure b,e]. The β value of 7BF-BT-Cu is bigger than that of 7B 1.05 F-BT in the first region and smaller than that of 7B 1.05 F-BT in the third region, illustrating that the presence of Cu 2+ can enhance the response of domains to the external electric field, supported by the significant improvement of P r [Figure c] and the faster saturation of the P–E loops of the 7BF-BT-Cu sample [marked by the arrow in Figure b,e].…”
Section: Resultsmentioning
confidence: 99%
“…Each ferroelectric material has a characteristic P-E loop under different electric field and frequency. The energy dissipated per cycle of electric field application, that reflects the growth, nucleation process and motions of domains, can be deduced from the area of the ferroelectric hysteresis loop (P-E loop) [1,2]. Hence the study of P-E loops at different electric fields and different frequencies is essential for the better understanding of domain dynamics hidden in each material.…”
Section: Introductionmentioning
confidence: 99%