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|Field Induced Evolution of Regular and Random 2D Domain Structures and Shape of Isolated Domains in LiNbO3 and LiTaO3
|Lobov, A. I.
Shur, V. Ya.
Baturin, I. S.
Shishkin, E. I.
Kuznetsov, D. K.
Shur, A. G.
Dolbilov, M. A.
|Informa UK Limited
|Field Induced Evolution of Regular and Random 2D Domain Structures and Shape of Isolated Domains in LiNbO3 and LiTaO3 / A. I. Lobov, V. Ya. Shur, I. S. Baturin et al. // Ferroelectrics. — 2006. — Vol. 341. — Iss. 1 PART 2. — P. 109-116.
|The shapes of isolated domains produced by application of the uniform external electric field in different experimental conditions were investigated experimentally in single crystalline lithium niobate LiNbO3 and lithium tantalate LiTaO3. The study of the domain kinetics by computer simulation and experimentally by polarization reversal of the model structure using two-dimensional regular electrode pattern confirms applicability of the kinetic approach to explanation of the experimentally observed evolution of the domain shape and geometry of the domain structure. It has been shown that the fast domain walls strictly oriented along X directions appear after domain merging.
|International Symposium on Micro- and Nano-Scale Domain Structuring in Ferroelectrics, ISDS'05
|15 November 2005 through 19 November 2005
|The research was made possible in part by Grant 03-51-6562 of INTAS; by Grant 04-02-16770 of RFBR; by Grant 03-02-39004 of RFBR-NNSF; by Grant 04-02-04007 of RFBR-DFG and by Grants 48859, 49130 and RNP 220.127.116.1172 of Program ”Development of the Scientific Potential of High Education,” by Grant MK-2434.2005.2 of President Program of Federal Agency of Education; by PhD Award Y1-P-05-20/4146 of the U.S. CRDF BRHE and Federal Agency of Education, by Grant RUE1-5037-EK-04 of CRDF FSTM.
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|Научные публикации, проиндексированные в SCOPUS и WoS CC
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