不当铁电氟酸铵介电常数的最小二乘分析

2021 IEEE 12th International Conference on Electronics and Information Technologies (ELIT) Pub Date : 2021-05-19 DOI:10.1109/ELIT53502.2021.9501126

B. Horon, O. Kushnir, V. Stadnyk, A. Kashuba

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引用次数: 0

摘要

利用非线性最小二乘技术和统计检验，比较了不同理论模型对不合适铁电晶体氟酰基酸铵非相称相介电常数温度依赖性的描述。根据简化卡方检验和Wald-Wolfowitz检验，Levanyuk-Sannikov提出的模型优于Prelovsek、Levstik和Filipic提出的模型。由于氟酰基酸铵晶体的异常介电峰相对较小，因此在非线性拟合中考虑了恒定的背景对介电常数的贡献。

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Least-Squares Analysis of the Dielectric Permittivity for Improper Ferroelectric Ammonium Fluoroberyllate

Using a nonlinear least-squares technique and statistical tests, we compare different theoretical models for description of temperature dependence of the dielectric permittivity in the incommensurate phase of improper ferroelectric crystal, ammonium fluoroberyllate. According to reduced chi-square and Wald-Wolfowitz tests, a model suggested by Levanyuk-Sannikov turns out to outperform a model by Prelovsek, Levstik and Filipic. Since the anomalous dielectric peak for the ammonium fluoroberyllate crystals is relatively small, a constant background contribution to the dielectric permittivity is taken into account in the nonlinear fitting.

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2021 IEEE 12th International Conference on Electronics and Information Technologies (ELIT)

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