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The role of random electric fields in relaxors

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arxiv 1405.2306 v1 pith:OWB7EMFW submitted 2014-05-09 cond-mat.mtrl-sci

The role of random electric fields in relaxors

classification cond-mat.mtrl-sci
keywords pmn-xptpiezoelectricrandomrelaxorscompositionsdielectricelectricfields
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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PbZr_{1-x}Ti_xO_3 (PZT) and Pb(Mg_{1/3}Nb_{2/3})_{1-x}Ti_xO_3 (PMN-$x$PT) 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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