Radio-Absorbing Composite Materials Based on La0.7Sr0.3MnO3

2019 Radiation and Scattering of Electromagnetic Waves (RSEMW) Pub Date : 2019-06-01 DOI:10.1109/RSEMW.2019.8792715

E. Sidorenko, E. Privalov, A. Demchenko, Y. Kabirov, E. Chebanova, I. Nathan

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Abstract

In the frequency range 3.2-12 GHz the absorption of microwave energy was measured by new composite materials, which are xLSMO/yGeO2/(1-x-y)NaF (LiF) glass ceramics, where x, y are the mass fractions of the composite components, x =0.7-0.95 , y=0.05-0.20. Conductivity measurements were performed, structural and microstructural features of materials were studied. It has been found that concentrations of germanium oxide and fluorides significantly affect the degree of absorption of microwave energy by samples. Absorption spectra close to linear ones at levels from 0-3 dB to 12-14 dB were obtained in the whole investigated frequency range for various materials. Some increase in the absorption (5-10%) of energy by these composite materials under the influence of a weak (H≈300 kOe) constant magnetic field was revealed. The spectra of the integral radiation of the electric field were measured with the composites with the lowest conductivity. Prospective areas of work have been outlined for obtaining broadband radio-absorbing composite materials.

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基于La0.7Sr0.3MnO3的吸波复合材料

在3.2 ~ 12 GHz频率范围内，采用xLSMO/yGeO2/(1-x-y)NaF (LiF)玻璃陶瓷对微波能量的吸收进行了测量，其中x, y为复合材料组分的质量分数，x =0.7 ~ 0.95, y=0.05 ~ 0.20。进行了电导率测量，研究了材料的结构和微观结构特征。研究发现，氧化锗和氟化物的浓度显著影响样品对微波能的吸收程度。在研究的整个频率范围内，各种材料的吸收光谱在0-3 dB到12-14 dB的水平上接近线性。结果表明，在弱(H≈300 kOe)恒定磁场作用下，复合材料对能量的吸收增加了5 ~ 10%。用电导率最低的复合材料测量了电场的积分辐射光谱。概述了获得宽带无线电吸收复合材料的未来工作领域。

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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2019 Radiation and Scattering of Electromagnetic Waves (RSEMW)

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