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Please use this identifier to cite or link to this item: http://apo.ansto.gov.au/dspace/handle/10238/8661

Title: Electric-field-induced phase transitions in co-doped Pb(Zr1−xTix)O3 at the morphotropic phase boundary
Authors: Franzbach, DJ
Seo, YH
Studer, AJ
Zhang, Y
Glaum, J
Daniels, JE
Bencan, A
Malic, B
Webber, KG
Keywords: FERROELECTRIC MATERIALS
CRYSTAL STRUCTURE
POLYCRYSTALS
NEUTRON DIFFRACTION
EXPERIMENT PLANNING
MORPHOLOGY
Issue Date: 28-Feb-2014
Publisher: Taylor and Francis Online
Citation: Franzbach, D. J., Seo, Y. H., Studer, A. J., Zhang, Y., Glaum, J., Daniels, J. E., . . . Webber, K. G. . (2014). Electric-field-induced phase transitions in co-doped Pb(Zr1−xTix)O3 at the morphotropic phase boundary. Science and Technology of Advanced Materials, 15(1), 15010. doi: http://dx.doi.org/10.1088/1468-6996/15/1/015010
Abstract: The strain- and polarization-electric field behavior was characterized at room temperature for Pb0.98Ba0.01(Zr1−xTix)0.98Nb0.02O3, 0.40  x  0.60. The investigated compositions were located in the vicinity of the morphotropic phase boundary, giving insight into the influence of crystal structure on the hysteretic ferroelectric behavior. The remanent strain of particular compositions is shown to be larger than theoretically allowed by ferroelectric switching alone, indicating the presence of additional remanent strain mechanisms. A phenomenological free energy analysis was used to simulate the effect of an applied electric field on the initial equilibrium phase. It is shown that electric-field-induced phase transitions in polycrystalline ferroelectrics can account for the experimental observations. The experimental and simulation results are contrasted to neutron diffraction measurements performed on representative compositions in the virgin and remanent states. © 2014, National Institute for Materials Science.
URI: http://dx.doi.org/10.1088/1468-6996/15/1/015010
http://apo.ansto.gov.au/dspace/handle/10238/8661
ISSN: 1468-6996
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