Formation of self-organized nanodomain patterns during spontaneous backswitching in lithium niobate / Shur V.Y., Rumyantsev E.L., Nikolaeva E.V., Shishkin E.I., Fursov D.V., Batchko R.G., Eyres L.A., Fejer M.M., Byer R.L., Sindel J. // Ferroelectrics. - 2001. - V. 253, l. 1-4. - P. 661/125-661/114.

ISSN:

00150193

Type:

Conference Paper

Abstract:

We show experimentally that spontaneous decay of highly non-equilibrium domain state in ferroelectric is achieved through the formation of self-organized nanoscale domain structures. The nanodomain structures have been observed by SEM and SFM in uniaxial ferroelectric lithium niobate during spontaneous backswitching after fast removing of switching field. The regular nanoscale domain patterns consist of strictly oriented arrays of nanodomains (diameter down to 30 nm, density up to 100 μm-2). The mechanisms of self-maintaining correlated nucleation effects are discussed.

Author keywords:

Domain engineering; Domain structure; Kinetics; Nanotechnology; Switching

Index keywords:

Ferroelectricity; Nanostructured materials; Nanotechnology; Nucleation; Reaction kinetics; Scanning electron microscopy; Structure (composition); Backswitching; Domain engineering; Domain structure; L

DOI:

нет данных

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https://www.scopus.com/inward/record.uri?eid=2-s2.0-0034877062&partnerID=40&md5=3afdd575e37ae857e777943d5c706dce

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Другие поля

Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-0034877062&partnerID=40&md5=3afdd575e37ae857e777943d5c706dce
Affiliations	Inst. Phys. and Appl. Math., Ural State University, Lenin Ave. 51, 620083 Ekaterinburg, Russian Federation
Author Keywords	Domain engineering; Domain structure; Kinetics; Nanotechnology; Switching
References	Fatuzzo, E., Merz, W.J., (1967) Ferroelectricity, p. 201. , (North-Holland Publishing Company, Amsterdam); Burfoot, J.C., Taylor, G.W., (1979) Polar Dielectrics and Their Applications, p. 465. , (University of Calif. Press, Berkeley and Los Angeles); Fatuzzo, E., Merz, W.J., (1959) Phys. Rev., 116, p. 61; Taylor, G.W., (1966) J. Appl. Phys., 37, p. 593; Shur, V.Y., Gruverman, A.L., Kuminov, V.P., Tonkachyova, N.A., (1990) Ferroelectrics, 111, p. 197; Miller, G.D., Batchko, R.G., Fejer, M.M., Byer, R.L., (1996) SPIE Proceedings on Nonlinear Frequency Generation and Conversion, 2700, p. 34. , (SPIE, Washington); Shur, V.Y., Rumyantsev, E.L., Batchko, R.G., Miller, G.D., Fejer, M.M., Byer, R.L., (1999) Ferroelectrics, 221, p. 157; Prokhorov, A.M., Kuzminov, Y.S., (1990) Physics and Chemistry of Crystalline Lithium Niobate, p. 263. , (Adam Hilger, Bristol); Shur, V.Y., Rumyantsev, E.L., Batchko, R.G., Miller, G.D., Fejer, M.M., Byer, R.L., (1999) Phys. Solid State, 41, p. 1681; Haken, H., (1975) Rev. Mod. Phys., 47, p. 67; Shur, V.Y., Popov, Y.A., Korovina, N.V., (1984) Sov. Phys. Solid State, 26, p. 471; Shur, V.Y., (1996) Ferroelectric Thin Films: Synthesis and Basic Properties, 10, p. 153. , Edited by C.A. Paz de Araujo, J.F. Scott, G.W. Taylor; (Gordon & Breach Science Publ.); Shur, V.Y., Rumyantsev, E.L., (1997) Ferroelectrics, 191, p. 319; Fridkin, V.M., (1980) Ferroelectrics Semiconductors, , (Consultants Bureau, New York and London); Gopalan, V., Mitchell, T.E., Sicakfus, K.E., (1999) Sol. St. Commun., 109, p. 111; Lambeck, P.V., Jonker, G.H., (1978) Ferroelectrics, 22, p. 729; Shur, V.Y., Gruverman, A.L., Ponomarev, N.Y., Tonkachyova, N.A., (1992) Ferroelectrics, 126, p. 371
Correspondence Address	Shur, V.Y.; Inst. Phys. and Appl. Math., Ural State University, Lenin Ave. 51, 620083 Ekaterinburg, Russian Federation; email: vladimir.shur@usu.ru
Editors	Feng D.Liu J.M.
Conference name	6th International Symposium on Ferroic Domains and Mesoscopic Structures (ISFD-6)
Conference date	29 May 2000 through 2 June 2000
Conference location	Nanjing
Conference code	58464
CODEN	FEROA
Language of Original Document	English
Abbreviated Source Title	Ferroelectrics
Source	Scopus