Aging of poled ferroelectric ceramics due to relaxation of random
  depolarization fields by space-charge accumulation near grain boundaries

D. M. Smyth; G. Arlt; H. Kungl; H. Thomann; J. Glaum; K. Carl; K. Okazaki; K. Okazaki; K. Okazaki; L. D. Landau; M. J. Hoffmann; O. Hirsch; S. Takahashi; T. Granzow; Yu. A. Genenko

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Aging of poled ferroelectric ceramics due to relaxation of random depolarization fields by space-charge accumulation near grain boundaries

Authors: D. M. Smyth
G. Arlt
H. Kungl
H. Thomann
J. Glaum
K. Carl
K. Okazaki
K. Okazaki
K. Okazaki
L. D. Landau
M. J. Hoffmann
O. Hirsch
S. Takahashi
T. Granzow
Yu. A. Genenko
Publication date: 17 December 2009
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Migration of charged point defects triggered by the local random depolarization field is shown to plausibly explain aging of poled ferroelectric ceramics providing reasonable time and acceptor concentration dependences of the emerging internal bias field. The theory is based on the evaluation of the energy of the local depolarization field caused by mismatch of the polarizations of neighbor grains. The kinetics of charge migration assumes presence of mobile oxygen vacancies in the material due to the intentional or unintentional acceptor doping. Satisfactory agreement of the theory with experiment on the Fe-doped lead zirconate titanate is demonstrated.Comment: theory and experiment, 22 pages, 3 figure

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