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Ferroelectrics Volume 163, 1995 - Issue 1
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Original Articles

Peculiarities of ferro-antiferroelectric phase transitions. 2. Effects caused by dipole-ordered phase coexistence

V. M. Ishchuk Institute for Single Crystals, Acad. Sci. of Ukraine, Kharkov, 310001, Ukraine
&
S. V. Matveev Institute for Single Crystals, Acad. Sci. of Ukraine, Kharkov, 310001, Ukraine
Pages 89-101 | Received 28 Mar 1994, Published online: 26 Oct 2011

Citations (19)

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Read on this site (10)

V.M. Ishchuk & V.L. Sobolev. (2011) Peculiarities of Ferro-Antiferroelectric Phase Transitions 9. Can the Substances with Coexisting Ferroelectric and Antiferroelectric Phases Mimic the Dipole-Glass Behavior?. Ferroelectrics 413:1, pages 409-433.
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V.M. Ishchuk, Z.A. Samoilenko & V.L. Sobolev. (2008) Peculiarities of Ferro-Antiferroelectric Phase Transitions 8. Long-Time Relaxation Processes. Ferroelectrics 377:1, pages 36-54.
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V.M. Ishchuk. (2001) Relaxation dynamics of interphase FE-AFE boundaries. Ferroelectrics 254:1, pages 275-284.
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V.M. Ishchuk & V.L. Sobolev. (2001) Two-phase nucleation in ferro-and antiferroelectrics. Ferroelectrics 254:1, pages 265-274.
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V.M. Ishchuk. (2001) Peculiarities of ferro-antiferroelectric phase transitions. 7. two phase (FE+AFE) nucleation and problem of diffusive paraelectric phase transitions. Ferroelectrics 256:1, pages 129-150.
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V.M. Ishchuk, O.A. Belichenko, O.T. Nikolov & V.L. Sobolev. (2000) Peculiarities of ferro-antiferroelectric phase transitions. 6. Experiments on low-frequency dynamics of interphase domain walls. Ferroelectrics 248:1, pages 107-122.
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V.M. Ishchuk. (1999) Peculiarities of ferro-antiferroelectric phase transitions. 5. Relaxation dynamics of interphase domain walls. Ferroelectrics 234:1, pages 151-170.
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V.M. Ishchuk. (1998) Peculiarities of ferro—antiferroelectric phase transitions. Ferroelectrics 209:1, pages 569-588.
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S.E. Aksenov, V.V. Bogatko, E.D. Politova & Yu.S. Stefanovich. (1997) The role of additives in controlling structure and ferroelectric properties of Pb(Zr1−xTix)O3 (0.05 < x < 0.15) ceramics. Ferroelectrics 199:1, pages 231-234.
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V.M. Ishchuk. (1997) Peculiarities of ferro-antiferro-electric phase transitions. 3. Phenomenological approach to the problem of fe and afe phases coexistence. Nonuniform state. Ferroelectrics 198:1, pages 99-113.
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Articles from other publishers (9)

V. M. Ishchuk & V. L. Sobolev. (2020) Solid solutions with coexisting ferroelectric and antiferroelectric phases for creation of new materials. Low Temperature Physics 46:8, pages 809-812.
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V. M. Ishchuk, D. V. Kuzenko & V. L. Sobolev. (2017) Effects caused by antiferroelectric nanodomains in PZT-based coarse-grained ceramics with compositions from the morphotropic boundary region. Journal of Advanced Dielectrics 07:01, pages 1750005.
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Valeriy M. Ishchuk & Vladimir Sobolev. (2016) Local decomposition of solid solutions, nanostructures and optical materials with negative refractive index. Modern Physics Letters B 30:07, pages 1650088.
Crossref
F. Craciun, F. Cordero, I. V. Ciuchi, L. Mitoseriu & C. Galassi. (2015) Refining the phase diagram of Pb1−xLax(Zr0.9Ti0.1)1−x/4O3 ceramics by structural, dielectric, and anelastic spectroscopy investigations. Journal of Applied Physics 117:18.
Crossref
V. Ishchuk, N. Spiridonov & V. Sobolev. (2014) Nanostructures formation in ferroelectrics in the process of phase transformation. Journal of Advanced Dielectrics 04:04, pages 1450031.
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V. M. Ishchuk, V. L. Sobolev & N. A. Spiridonov. (2007) Electric field dependence of piezoelectric properties of lanthanum-modified lead-zirconate-titanate solid solutions at the phase transition via intermediate state. Journal of Applied Physics 101:12.
Crossref
V M Ishchuk, Z A Samoylenko & V L Sobolev. (2006) The kinetics of the local compositional changes at the ferroelectric–antiferroelectric interphase boundaries in lead–lanthanum titanate–zirconate solid solutions. Journal of Physics: Condensed Matter 18:49, pages 11371-11383.
Crossref
V M Ishchuk, V N Baumer & V L Sobolev. (2005) The influence of the coexistence of ferroelectric and antiferroelectric states on the lead lanthanum zirconate titanate crystal structure. Journal of Physics: Condensed Matter 17:19, pages L177-L182.
Crossref
V. M. Ishchuk & V. L. Sobolev. (2002) Investigation of two-phase nucleation in paraelectric phase of ferroelectrics with ferroelectric–antiferroelectric–paraelectric triple point. Journal of Applied Physics 92:4, pages 2086-2093.
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