Random electric field instabilities of relaxor ferroelectrics

Complex oxides: A random field state in a relaxor ferroelectric A microscopic model shows how compositional disorder in the form of quenched random electric fields acting in concert with dipolar interactions prohibit long-range ordering in relaxor ferroelectrics. Relaxor ferroelectrics are a class o...

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Main Authors: José R. Arce-Gamboa, Gian G. Guzmán-Verri
Format: Article
Language:English
Published: Nature Publishing Group 2017-06-01
Series:npj Quantum Materials
Online Access:https://doi.org/10.1038/s41535-017-0032-9
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spelling doaj-9c9c5a166c0a4681824b62e5fd078cc92021-04-02T19:02:24ZengNature Publishing Groupnpj Quantum Materials2397-46482017-06-01211710.1038/s41535-017-0032-9Random electric field instabilities of relaxor ferroelectricsJosé R. Arce-Gamboa0Gian G. Guzmán-Verri1Centro de Investigación en Ciencia e Ingeniería de Materiales and Escuela de Física, Universidad de Costa RicaCentro de Investigación en Ciencia e Ingeniería de Materiales and Escuela de Física, Universidad de Costa RicaComplex oxides: A random field state in a relaxor ferroelectric A microscopic model shows how compositional disorder in the form of quenched random electric fields acting in concert with dipolar interactions prohibit long-range ordering in relaxor ferroelectrics. Relaxor ferroelectrics are a class of complex oxides with perovskite structure that exhibit several properties that make them attractive candidates for energy harvesting and storage. And although it is thought that the random electric fields that arise from compositional disorder play an important role in relaxor ferroelectricity, there is no consensus on a theoretical description. José R. Arce-Gamboa and Gian G. Guzmán-Verri from the University of Costa Rica and Argonne National Laboratory have developed a microscopic model that shows how a metastable random fluctuation state can form that has no long range ordering, which highlights the important role of quenched random fluctuations and also of dipolar forces on relaxor behavior.https://doi.org/10.1038/s41535-017-0032-9
collection DOAJ
language English
format Article
sources DOAJ
author José R. Arce-Gamboa
Gian G. Guzmán-Verri
spellingShingle José R. Arce-Gamboa
Gian G. Guzmán-Verri
Random electric field instabilities of relaxor ferroelectrics
npj Quantum Materials
author_facet José R. Arce-Gamboa
Gian G. Guzmán-Verri
author_sort José R. Arce-Gamboa
title Random electric field instabilities of relaxor ferroelectrics
title_short Random electric field instabilities of relaxor ferroelectrics
title_full Random electric field instabilities of relaxor ferroelectrics
title_fullStr Random electric field instabilities of relaxor ferroelectrics
title_full_unstemmed Random electric field instabilities of relaxor ferroelectrics
title_sort random electric field instabilities of relaxor ferroelectrics
publisher Nature Publishing Group
series npj Quantum Materials
issn 2397-4648
publishDate 2017-06-01
description Complex oxides: A random field state in a relaxor ferroelectric A microscopic model shows how compositional disorder in the form of quenched random electric fields acting in concert with dipolar interactions prohibit long-range ordering in relaxor ferroelectrics. Relaxor ferroelectrics are a class of complex oxides with perovskite structure that exhibit several properties that make them attractive candidates for energy harvesting and storage. And although it is thought that the random electric fields that arise from compositional disorder play an important role in relaxor ferroelectricity, there is no consensus on a theoretical description. José R. Arce-Gamboa and Gian G. Guzmán-Verri from the University of Costa Rica and Argonne National Laboratory have developed a microscopic model that shows how a metastable random fluctuation state can form that has no long range ordering, which highlights the important role of quenched random fluctuations and also of dipolar forces on relaxor behavior.
url https://doi.org/10.1038/s41535-017-0032-9
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