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Main Authors: Granzow, T., Aravindhan, A., Nouchokgwe, Y., Kovacova, V., Glinsek, S., Hirose, S., Usui, T., Uršič, H., Goričan, I., Jo, W., Hong, C. -H., Defay, E.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.17126
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author Granzow, T.
Aravindhan, A.
Nouchokgwe, Y.
Kovacova, V.
Glinsek, S.
Hirose, S.
Usui, T.
Uršič, H.
Goričan, I.
Jo, W.
Hong, C. -H.
Defay, E.
author_facet Granzow, T.
Aravindhan, A.
Nouchokgwe, Y.
Kovacova, V.
Glinsek, S.
Hirose, S.
Usui, T.
Uršič, H.
Goričan, I.
Jo, W.
Hong, C. -H.
Defay, E.
contents Ferroelectrics show a phase transition to a paraelectric phase at a well-defined transition temperature. Introducing disorder makes this transition diffuse, and the system becomes a relaxor. Since the degree of (dis-)order is usually manipulated by varying the chemical composition, it is difficult to establish a direct relationship between disorder and the degree of diffuseness. Perovskite structured lead scandium tantalate (Pb[Sc$_{1/2}$Ta$_{1/2}$]O$_3$, PST) offers the opportunity to tune the character of the transition by thermal annealing without changing the stoichiometry. Here it is demonstrated that there is a linear correlation between the structural ordering, quantified by the intensity ratio $S$ of the pseudocubic (111)/(200) x-ray diffraction peaks, and the diffuseness parameter $γ$ deduced from temperature-dependent dielectric spectroscopy. The relation is universal, independent of whether the sample is a thin film, multilayer capacitor or bulk ceramic, and also independent of the absolute value of the dielectric permittivity.
format Preprint
id arxiv_https___arxiv_org_abs_2506_17126
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Quantitative correlation between structural (dis-)order and diffuseness of phase transition in lead scandium tantalate
Granzow, T.
Aravindhan, A.
Nouchokgwe, Y.
Kovacova, V.
Glinsek, S.
Hirose, S.
Usui, T.
Uršič, H.
Goričan, I.
Jo, W.
Hong, C. -H.
Defay, E.
Materials Science
Applied Physics
Ferroelectrics show a phase transition to a paraelectric phase at a well-defined transition temperature. Introducing disorder makes this transition diffuse, and the system becomes a relaxor. Since the degree of (dis-)order is usually manipulated by varying the chemical composition, it is difficult to establish a direct relationship between disorder and the degree of diffuseness. Perovskite structured lead scandium tantalate (Pb[Sc$_{1/2}$Ta$_{1/2}$]O$_3$, PST) offers the opportunity to tune the character of the transition by thermal annealing without changing the stoichiometry. Here it is demonstrated that there is a linear correlation between the structural ordering, quantified by the intensity ratio $S$ of the pseudocubic (111)/(200) x-ray diffraction peaks, and the diffuseness parameter $γ$ deduced from temperature-dependent dielectric spectroscopy. The relation is universal, independent of whether the sample is a thin film, multilayer capacitor or bulk ceramic, and also independent of the absolute value of the dielectric permittivity.
title Quantitative correlation between structural (dis-)order and diffuseness of phase transition in lead scandium tantalate
topic Materials Science
Applied Physics
url https://arxiv.org/abs/2506.17126