Fractal-cluster kinetics in phase transformations in the relaxor ceramic PLZT / Shur V.Ya., Lomakin G.G., Kuminov V.P., Pelegov D.V., Beloglazov S.S., Slovikovskiǐ S.V., Sorkin I.L. // Physics of the Solid State. - 1999. - V. 41, l. 3. - P. 453-456.

ISSN:

10637834

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Article

Abstract:

Fractal formalism has been used to study the evolution of a heterophase state (consisting of polar nanoregions in a nonpolar matrix) subjected to polarization in an electric field within the diffuse phase transition in the transparent relaxor ferroelectric ceramic PLZT 8/65/35. The time dependences of the fractal dimensions of polar clusters under polarization switching and spontaneous backswitching at different temperatures have been derived from measurements of the elastic scattering of transmitted light. Various scenarios for the evolution of the heterophase and nanodomain states in relaxors with variation of the temperature and electric field are proposed. © 1999 American Institute of Physics.

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Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-0033242794&partnerID=40&md5=b363a53c7f767466ae15974db9a9afe3
Affiliations	Inst. of Phys. and Appl. Mathematics, Ural State University, 620083 Ekaterinburg, Russian Federation
References	Cross, L.E., (1994) Ferroelectrics, 151, p. 305; Dai, X., Xu, Z., Viehland, D., (1994) Philos. Mag. B, 70, p. 33; Ivey, M.D., Bolie, V.W., (1991) IEEE Trans. Ultrason. Ferroelectr. Freq. Control, 38, p. 579; Shur, V.Ya., Kuminov, V.P., Lomakin, G.G., Beloglazov, S.S., Sternberg, A., Krumins, A., (1996) Abstr. Intern. Symp. Ferroic Domains and Mesoscopic Structures, p. 110. , Vienna; Shur, V.Ya., Kuminov, V.P., Lomakin, G.G., Beloglazov, S.S., Slovikovski, S.V., Krumins, A., Sternberg, A., (1998) J. Korean Phys. Soc., 32, pp. S985; Shur, V.Ya., (1996) Proc. IEEE Intern. Symp. Applications of Ferroelectrics, p. 233; Shur, V.Ya., Rumyantsev, E.L., Kuminov, V.P., Lomakin, G.G., Beloglazov, S.S., Sternberg, A., Krumins, A., (1997) Ferroelectrics, 199, p. 159; Shur, V.Ya., (1998) Phase Transit., 65, p. 49; Sinha, S.K., (1989) Physica D, 38, p. 310; Hasmy, A., Foret, M., Pelous, J., Jullien, R., (1993) Phys. Rev. B, 48, p. 9345; Vacher, R., Woignier, T., Pelous, J., Courtens, E., (1988) Phys. Rev. B, 37, p. 6500; Feder, J., (1988) Fractals, , Plenum Press, New York [Russ. transl. Mir, Moscow, 254 pp; Korzhenevskiǐ, A.L., (1984) Fiz. Tverd. Tela (Leningrad), 26, p. 1223; (1984) Sov. Phys. Solid State, 26, p. 744; Shur, V.Ya., Negashev, S.A., Rumyantsev, E.L., Subbotin, A.L., Makarov, S.D., (1995) Ferroelectrics, 169, p. 63; Korzhenevskiǐ, A.L., Kamzina, L.S., Korshunov, O.Yu., (1995) JETP Lett., 61, p. 219; Kamzina, L.S., Kraǐnik, N.N., Korshunov, O.Yu., (1995) Fiz. Tverd. Tela (St. Petersburg), 37, p. 2765; (1995) Phys. Solid State, 37, p. 1523
Correspondence Address	Shur, V.Ya.; Inst. of Phys. and Appl. Mathematics, Ural State University, 620083 Ekaterinburg, Russian Federation; email: Vladimir.Shur@usu.ru
Language of Original Document	English
Abbreviated Source Title	Phys. Solid State
Source	Scopus