纳米尺度下无序弛豫介质结构-性能关系的建模

IF 2.7 3区 物理与天体物理 Q2 PHYSICS, APPLIED
Ashok Gurung, J. Mangeri, A. Hagerstrom, N. Orloff, S. Alpay, Serge Nakhmanson
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引用次数: 0

摘要

固溶体Ba1−xSrxTiO3 (BSTO)表现出高度可调谐的介电响应,同时在包括微波波段在内的宽频率范围内也表现出低损耗。因此,有必要在各种技术应用中更好地了解BSTO微结构对其弛豫性能和性能的影响。由于BSTO的局部极化与组成密切相关,因此它对外加交流电场的响应也密切相关。在这项工作中,我们采用相场方法研究了该系统的频率相关介电响应,同时考虑了固溶成分的局部波动。通过利用包括平均Sr含量的空间依赖性的热力学势,我们将介电色散中的弛豫特征与局部空间不均匀性联系起来,例如在很宽的温度范围内富Sr或富ba区域的平均尺寸。这些结果表明,采用简单的粗粒度方法求解弛豫问题足够灵敏,可以揭示介质响应的频率和温度依赖性与材料形态和微观结构调制之间的相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling structure–properties relations in compositionally disordered relaxor dielectrics at the nanoscale
The solid solution Ba1−xSrxTiO3 (BSTO) displays dielectric response that is highly tunable, while also exhibiting low losses in a broad frequency regime, including the microwave band. Therefore, there is a need for a better understanding of the influence of the BSTO microstructure on its relaxor properties and performance in a variety of technological applications. Since the local polarization in BSTO is strongly dependent on composition, so is its response to an applied AC field. In this work, we have adopted a phase field method to study the frequency-dependent dielectric response of this system while accounting for the local fluctuations in the solid-solution composition. By utilizing a thermodynamic potential that includes spatial dependence on the averaged Sr content, we connected relaxor-like features in the dielectric dispersion to local spatial inhomogeneities, such as average size of Sr- or Ba-rich regions, across a wide range of temperatures. These results show that the adopted simple coarse-grained approach to the relaxor problem is sensitive enough to reveal correlations between the frequency and temperature dependence of the dielectric response and modulations in the material morphology and microstructure.
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来源期刊
Journal of Applied Physics
Journal of Applied Physics 物理-物理:应用
CiteScore
5.40
自引率
9.40%
发文量
1534
审稿时长
2.3 months
期刊介绍: The Journal of Applied Physics (JAP) is an influential international journal publishing significant new experimental and theoretical results of applied physics research. Topics covered in JAP are diverse and reflect the most current applied physics research, including: Dielectrics, ferroelectrics, and multiferroics- Electrical discharges, plasmas, and plasma-surface interactions- Emerging, interdisciplinary, and other fields of applied physics- Magnetism, spintronics, and superconductivity- Organic-Inorganic systems, including organic electronics- Photonics, plasmonics, photovoltaics, lasers, optical materials, and phenomena- Physics of devices and sensors- Physics of materials, including electrical, thermal, mechanical and other properties- Physics of matter under extreme conditions- Physics of nanoscale and low-dimensional systems, including atomic and quantum phenomena- Physics of semiconductors- Soft matter, fluids, and biophysics- Thin films, interfaces, and surfaces
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