Electromagnetic wave localization and scattering parameters investigation in a partially absorbing medium depending on the output tract geometric configuration.

Q4 Materials Science Radioelektronika, Nanosistemy, Informacionnye Tehnologii Pub Date : 2023-09-28 DOI:10.17725/rensit.2023.15.205

Yuaroslav V. Kravchenko, Dmitry Yu. Tsipenyuk, Andrey V. Voropinov

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Abstract

The paper presents first results obtained on an experimental setup designed to study the parameters of localization, scattering and absorption of microwave radiation with a power of 1-4 mW at the 38 GHz when radiation propagates in variable-section waveguides. The parameters of localization and scattering of an electromagnetic wave in a partially absorbing medium were studied depending on the geometric configuration of the output tract. The interpretation of the obtained initial results was carried out within the framework of the (1+4)D extended space model (ESM). The extended space model is formulated in (1+4)-dimensional space time-coordinate-interval action. An additional spatial coordinate in the ESM is the interval, which in the ESM has the physical meaning of the action. In the dual (1+4)D space energy-momentum-mass, the interval (action) in the ESM corresponds to the mass. ESM considers the question of the emergence of a non-zero variable mass for a photon and its localization under the influence of an external field.

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部分吸收介质中依赖输出通道几何结构的电磁波定位和散射参数研究。

本文介绍了在变截面波导中传播的功率为1 ~ 4mw的38ghz微波辐射的局域化、散射和吸收参数实验装置上获得的初步结果。研究了电磁波在部分吸收介质中的局部化和散射参数与输出通道几何结构的关系。在(1+4)D扩展空间模型(ESM)框架内对获得的初始结果进行了解释。扩展空间模型是在(1+4)维时空-坐标-区间作用下建立的。在ESM中额外的空间坐标是间隔，它在ESM中具有动作的物理意义。在对偶(1+4)D空间能量-动量-质量中，ESM中的间隔(作用)与质量相对应。ESM考虑了光子的非零变质量的出现及其在外场影响下的局域化问题。

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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来源期刊

Radioelektronika, Nanosistemy, Informacionnye Tehnologii Materials Science-Materials Science (miscellaneous)

CiteScore

0.60

自引率

0.00%

发文量

期刊介绍： Journal “Radioelectronics. Nanosystems. Information Technologies” (abbr RENSIT) publishes original articles, reviews and brief reports, not previously published, on topical problems in radioelectronics (including biomedical) and fundamentals of information, nano- and biotechnologies and adjacent areas of physics and mathematics. The authors of the journal are academicians, corresponding members and foreign members of the Russian Academy of Natural Sciences (RANS) and their colleagues, as well as other russian and foreign authors on the proposal of the members of RANS, which can be obtained by the author before sending articles to the editor or after its arrival on the recommendation of a member of the editorial board or another member of the RANS, who gave the opinion on the article at the request of the editior. The editors will accept articles in both Russian and English languages. Articles are internally peer reviewed (double-blind peer review) by members of the Editorial Board. Some articles undergo external review, if necessary. Designed for researchers, graduate students, physics students of senior courses and teachers. It turns out 2 times a year (that includes 2 rooms)