Investigating the Electronic Properties of a Composite Dielectric under an Applied Electric Field by Muon Spectroscopy

2020 IEEE 3rd International Conference on Dielectrics (ICD) Pub Date : 2020-07-05 DOI:10.1109/ICD46958.2020.9342014

B.A. Orton, S. Cottrell, F. Pratt, S. Dodd, N. Chalashkanov

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Abstract

The development of a new technique using implanted 100% spin polarized positive muons to probe the behaviour of charge carriers within dielectrics is described. Muons are a well-established method for probing materials at the atomic level. They offer a local probe sensitive both to bound molecular charges and to free charge carriers in materials. A muon study to investigate the charge distribution within a composite dielectric - consisting of epoxy, mica and glass fibre components- as a function of the externally applied electric field strength (E-field) is reported. Implanted muons react with the host epoxy molecule, undergo chemical addition at specific locations and probe the local electronic structure. Muon spectra are interpreted through a comparison with the electronic structure calculated using Density Functional Theory.It is shown that the application of an external E-field modifies the form of the observed spectra. It is believed that the effect of an E-field on identified bound charges within the molecule is being observed, suggesting muons are an excellent probe for understanding local charge redistributions in polymeric dielectrics.

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用介子光谱研究外加电场作用下复合介质的电子特性

描述了一种利用植入100%自旋极化的正介子来探测介电介质中载流子行为的新技术的发展。μ子是在原子水平上探测材料的一种行之有效的方法。它们提供了对结合分子电荷和材料中的自由电荷载流子敏感的局部探针。用介子研究了由环氧树脂、云母和玻璃纤维组成的复合介质中电荷分布随外加电场强度(E-field)的变化规律。植入的μ子与宿主环氧分子发生反应，在特定位置进行化学加成并探测局部电子结构。通过与密度泛函理论计算的电子结构的比较来解释μ子谱。结果表明，外加电场的应用改变了观测光谱的形式。据信，电子场对分子内已识别的束缚电荷的影响正在被观察到，这表明μ子是理解聚合物介电体中局部电荷再分布的一个很好的探针。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE 3rd International Conference on Dielectrics (ICD)

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