Fatigue as a local phase decomposition: A switching-induced charge-injection model

X. J. Lou; M. Zhang; S. A.T. Redfern; J. F. Scott

doi:10.1103/PhysRevB.75.224104

Fatigue as a local phase decomposition: A switching-induced charge-injection model

X. J. Lou^*, M. Zhang, S. A.T. Redfern, J. F. Scott

^*Corresponding author for this work

University of Cambridge

Research output: Contribution to journal › Article › peer-review

89 Citations (Scopus)

Abstract

Following our recent experimental work on electrical fatigue, a theory of a charge-injection fatigue model is developed, emphasizing the extremely high depolarization electric field generated near the electrodes by bound charges at the tip of needlelike domains during switching. In particular, the relationship Pr (N) Pr (0) ∼exp (-Nλ), where N is the number of the fatigue cycles and λ1, is derived, which explains the statistical origin of the universality of the logarithmic fatigue behavior observed for various ferroelectric substances in the literature. The consistency of this model with extensive body of the experimental data has been discussed and a systematic picture of fatigue is established. In particular, the "size effect"/fatigue coupling, the fatigue-free behavior of low Pr samples, and the exaggerated fatigue data of Colla [Appl. Phys. Lett. 72, 2478 (1998)] at very low frequencies (mHz) are all well predicted by our model.

Original language	English
Article number	224104
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	75
Issue number	22
DOIs	https://doi.org/10.1103/PhysRevB.75.224104
Publication status	Published - Jun 6 2007
Externally published	Yes

ASJC Scopus Subject Areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.75.224104

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title = "Fatigue as a local phase decomposition: A switching-induced charge-injection model",

abstract = "Following our recent experimental work on electrical fatigue, a theory of a charge-injection fatigue model is developed, emphasizing the extremely high depolarization electric field generated near the electrodes by bound charges at the tip of needlelike domains during switching. In particular, the relationship Pr (N) Pr (0) ∼exp (-Nλ), where N is the number of the fatigue cycles and λ1, is derived, which explains the statistical origin of the universality of the logarithmic fatigue behavior observed for various ferroelectric substances in the literature. The consistency of this model with extensive body of the experimental data has been discussed and a systematic picture of fatigue is established. In particular, the {"}size effect{"}/fatigue coupling, the fatigue-free behavior of low Pr samples, and the exaggerated fatigue data of Colla [Appl. Phys. Lett. 72, 2478 (1998)] at very low frequencies (mHz) are all well predicted by our model.",

author = "Lou, {X. J.} and M. Zhang and Redfern, {S. A.T.} and Scott, {J. F.}",

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T2 - A switching-induced charge-injection model

AU - Lou, X. J.

AU - Zhang, M.

AU - Redfern, S. A.T.

AU - Scott, J. F.

PY - 2007/6/6

Y1 - 2007/6/6

N2 - Following our recent experimental work on electrical fatigue, a theory of a charge-injection fatigue model is developed, emphasizing the extremely high depolarization electric field generated near the electrodes by bound charges at the tip of needlelike domains during switching. In particular, the relationship Pr (N) Pr (0) ∼exp (-Nλ), where N is the number of the fatigue cycles and λ1, is derived, which explains the statistical origin of the universality of the logarithmic fatigue behavior observed for various ferroelectric substances in the literature. The consistency of this model with extensive body of the experimental data has been discussed and a systematic picture of fatigue is established. In particular, the "size effect"/fatigue coupling, the fatigue-free behavior of low Pr samples, and the exaggerated fatigue data of Colla [Appl. Phys. Lett. 72, 2478 (1998)] at very low frequencies (mHz) are all well predicted by our model.

AB - Following our recent experimental work on electrical fatigue, a theory of a charge-injection fatigue model is developed, emphasizing the extremely high depolarization electric field generated near the electrodes by bound charges at the tip of needlelike domains during switching. In particular, the relationship Pr (N) Pr (0) ∼exp (-Nλ), where N is the number of the fatigue cycles and λ1, is derived, which explains the statistical origin of the universality of the logarithmic fatigue behavior observed for various ferroelectric substances in the literature. The consistency of this model with extensive body of the experimental data has been discussed and a systematic picture of fatigue is established. In particular, the "size effect"/fatigue coupling, the fatigue-free behavior of low Pr samples, and the exaggerated fatigue data of Colla [Appl. Phys. Lett. 72, 2478 (1998)] at very low frequencies (mHz) are all well predicted by our model.

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Fatigue as a local phase decomposition: A switching-induced charge-injection model

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