Relaxor ferroelectric behavior: An approach considering both the dipolar and electrical conductivity contributions

C. Carreras-Casas; O. García-Zaldívar; A. Peláiz-Barranco; Y. González-Abreu; F. Calderón-Piñar; J. D. S. Guerra

doi:10.1142/S2010135X21400087

[1] IsupovV. A.,Nature of physical phenomena in ferroelectric relaxors,Phys. Solid State45,1107(2003).

[2] García-ZaldívarO.,Peláiz-BarrancoA.,Calderón-PiñarF.,Fundora-CruzA.,GuerraJ. D. S.,HallD. A. andMendozaM. E.,Modeling the dielectric response of lanthanum modified lead zirconate titanate ferroelectric ceramics — an approach to the phase transitions in relaxor ferroelectrics,J. Phys. Condens. Matter20,445230(2008).

[3] CrossL. E.,Relaxor ferroelectrics,Ferroelectrics76,241(1987).

[4] ViehlandD.,JangS. J.,CrossL. E. andWuttingM.,Freezing of the polarization fluctuations in lead magnesium niobate relaxors,J. Appl. Phys.68,2916(1990).

[5] LiX.,LuS.-G.,ChenX.-Z.,GuH.,QianX.-S. andZhangQ. M.,Pyroelectric and electrocaloric materials,J. Mater. Chem. C1,23(2013).

[7] ShvartsmanV. V. andLupascuD. C.,Lead-free relaxor ferroelectrics,J. Am. Ceram. Soc.95,1(2012).

[8] BurnsG. andDacolF. H.,Crystalline ferroelectrics with glassy polarization behaviour,Phys. Rev. B28,2527(1983).

[9] González AbreuY.,Peláiz-BarrancoA.,GuerraJ. D. S.,GagouY. andSaint-GrégoireP.,From normal ferroelectric transition to relaxor behavior in Aurivillius ferroelectric ceramics,J. Mater. Sci.49,7437(2014).

[10] Y. Fernández, Influencia del Tipo de Vacancias en Propiedades Dieléctricas, Ferroeléctricas y Piezoeléctricas del Sistema Titanato Zirconato de Plomo Modificado con Lantano, Facultad de Física, Universidad de la Habana, Cuba, Tesis de Ingeniería Física (2013). doi:10.13140/RG.2.2.20613.68325.

[11] BöttcherC. J. F. andBordewijkP.,Theory of Electric Polarization,2nd edn.,Vol.2(Elsevier,Amsterdam,1978).

[12] JonscherA. K.,The “universal” dielectric response,Nature267,673(1977).

[13] VerdierC.,MorrisonF. D.,LupascuD. C. andScottJ. F.,Fatigue studies in compensated bulk lead zirconate titanate,J. Appl. Phys.97,024107(2005).

[14] YooH. I.,SongC. R. andLeeD. K.,BaTiO3−δ: Defect structure, electrical conductivity, chemical diffusivity, thermoelectric power, and oxygen nonstoichiometry,J. Electroceram.8,5(2002).

[15] JanottiA.,VarleyJ. B.,ChoiM. andVan de WalleCh. G.,Vacancies and small polarons in SrTiO3,Phys. Rev. B90,085202(2014).

[16] SmythD. M.,Comments on the defect chemistry of undoped and acceptor-doped BaTiO3,J. Electroceramics11,89(2003).

[17] BharadwajaS. S. N. andKrupanidhiS. B.,Growth and study of antiferroelectric lead zirconate thin films by pulsed laser ablation,J. Appl. Phys.86,5862(1999).

[18] HorowitzP.,The Art of Electronics,1st edn.(Press Syndicate of the University of Cambridge,Cambridge, England,1982), p.289.