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Interaction of domain walls with defects in ferroelectric materials

✍ Scribed by D. Schrade; R. Mueller; D. Gross; T. Utschig; V.Ya. Shur; D.C. Lupascu

Publisher
Elsevier Science
Year
2007
Tongue
English
Weight
936 KB
Volume
39
Category
Article
ISSN
0167-6636

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✦ Synopsis

A thermodynamic approach is used to derive the driving force on a domain wall in a piezoelectric material. Using 2D finite element simulations, the influence of different kinds of defects on the kinetics of a domain wall in ferroelectricferroelastic gadolinium molybdate, Gd 2 ðMoO 4 Þ 3 (GMO), is studied. Results are compared with experiments conducted on single crystal GMO containing extensive bulk defects. It is found that domain wall movement is impeded for certain defects while it is virtually unaffected for others. Qualitatively, results are in good agreement with experimental findings.

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Dynamics of domain walls in hydrogen-bon
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✍ A. Gordon πŸ“‚ Article πŸ“… 1988 πŸ› Elsevier Science βš– 407 KB

The sohtonic mechanism for the protonic transfer is used to calculate a mobility of domain walls in hydrogen-bonded ferroelectrics. A one-dimensional model is considered. It is assumed that the sequence of proton jumps in doubleminimum wells of hydrogen bonds brings about a domain wall motion. Calcu