Role of random electric fields in relaxors

Daniel Phelan; Christopher Stock; Jose A. Rodriguez-Rivera; Songxue Chi; Juscelino Leão; Xifa Long; Yujuan Xie; Alexei A. Bokov; Zuo Guang Ye; Panchapakesan Ganesh; Peter M. Gehring

doi:10.1073/pnas.1314780111

Role of random electric fields in relaxors

Daniel Phelan
, Christopher Stock
, Jose A. Rodriguez-Rivera
, Songxue Chi
, Juscelino Leão
, Xifa Long
, Yujuan Xie
, Alexei A. Bokov
, Zuo Guang Ye
, Panchapakesan Ganesh
, Peter M. Gehring

National Institute of Standards and Technology
University of Edinburgh
University of Maryland, College Park
Simon Fraser University
Oak Ridge National Laboratory

科研成果: 期刊稿件 › 文章 › 同行评审

142 引用（Scopus）

摘要

PbZr_1-xTi_xO₃ (PZT) and Pb(Mg _1/3Nb_2/3)_1-xTi_xO₃ (PMN-xPT) are complex lead-oxide perovskites that display exceptional piezoelectric properties for pseudorhombohedral compositions near a tetragonal phase boundary. In PZT these compositions are ferroelectrics, but in PMN-xPT they are relaxors because the dielectric permittivity is frequency dependent and exhibits non-Arrhenius behavior. We show that the nanoscale structure unique to PMN-xPT and other lead-oxide perovskite relaxors is absent in PZT and correlates with a greater than 100% enhancement of the longitudinal piezoelectric coefficient in PMN-xPT relative to that in PZT. By comparing dielectric, structural, lattice dynamical, and piezoelectric measurements on PZT and PMN-xPT, two nearly identical compounds that represent weak and strong random electric field limits, we show that quenched (static) random fields establish the relaxor phase and identify the order parameter.

源语言	英语
页（从-至）	1754-1759
页数	6
期刊	Proceedings of the National Academy of Sciences of the United States of America
卷	111
期	5
DOI	https://doi.org/10.1073/pnas.1314780111
出版状态	已出版 - 4 2月 2014
已对外发布	是

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abstract = "PbZr1-xTixO3 (PZT) and Pb(Mg 1/3Nb2/3)1-xTixO3 (PMN-xPT) are complex lead-oxide perovskites that display exceptional piezoelectric properties for pseudorhombohedral compositions near a tetragonal phase boundary. In PZT these compositions are ferroelectrics, but in PMN-xPT they are relaxors because the dielectric permittivity is frequency dependent and exhibits non-Arrhenius behavior. We show that the nanoscale structure unique to PMN-xPT and other lead-oxide perovskite relaxors is absent in PZT and correlates with a greater than 100\% enhancement of the longitudinal piezoelectric coefficient in PMN-xPT relative to that in PZT. By comparing dielectric, structural, lattice dynamical, and piezoelectric measurements on PZT and PMN-xPT, two nearly identical compounds that represent weak and strong random electric field limits, we show that quenched (static) random fields establish the relaxor phase and identify the order parameter.",

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AU - Phelan, Daniel

AU - Stock, Christopher

AU - Rodriguez-Rivera, Jose A.

AU - Chi, Songxue

AU - Leão, Juscelino

AU - Long, Xifa

AU - Xie, Yujuan

AU - Bokov, Alexei A.

AU - Ye, Zuo Guang

AU - Ganesh, Panchapakesan

AU - Gehring, Peter M.

PY - 2014/2/4

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N2 - PbZr1-xTixO3 (PZT) and Pb(Mg 1/3Nb2/3)1-xTixO3 (PMN-xPT) are complex lead-oxide perovskites that display exceptional piezoelectric properties for pseudorhombohedral compositions near a tetragonal phase boundary. In PZT these compositions are ferroelectrics, but in PMN-xPT they are relaxors because the dielectric permittivity is frequency dependent and exhibits non-Arrhenius behavior. We show that the nanoscale structure unique to PMN-xPT and other lead-oxide perovskite relaxors is absent in PZT and correlates with a greater than 100% enhancement of the longitudinal piezoelectric coefficient in PMN-xPT relative to that in PZT. By comparing dielectric, structural, lattice dynamical, and piezoelectric measurements on PZT and PMN-xPT, two nearly identical compounds that represent weak and strong random electric field limits, we show that quenched (static) random fields establish the relaxor phase and identify the order parameter.

AB - PbZr1-xTixO3 (PZT) and Pb(Mg 1/3Nb2/3)1-xTixO3 (PMN-xPT) are complex lead-oxide perovskites that display exceptional piezoelectric properties for pseudorhombohedral compositions near a tetragonal phase boundary. In PZT these compositions are ferroelectrics, but in PMN-xPT they are relaxors because the dielectric permittivity is frequency dependent and exhibits non-Arrhenius behavior. We show that the nanoscale structure unique to PMN-xPT and other lead-oxide perovskite relaxors is absent in PZT and correlates with a greater than 100% enhancement of the longitudinal piezoelectric coefficient in PMN-xPT relative to that in PZT. By comparing dielectric, structural, lattice dynamical, and piezoelectric measurements on PZT and PMN-xPT, two nearly identical compounds that represent weak and strong random electric field limits, we show that quenched (static) random fields establish the relaxor phase and identify the order parameter.

KW - Lead zirconate titanate

KW - Neutron scattering

KW - Piezoelectricity

KW - Short-range order

KW - Soft modes

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Role of random electric fields in relaxors

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