近毫米波段物体散射特性的准光学偏振微压实验装置

11th International Conference 'Microwave and Telecommunication Technology'. Conference Proceedings (IEEE Cat. No.01EX487) Pub Date : 2001-09-10 DOI:10.1109/CRMICO.2001.961688

V. Kiselyov, S. Kiselyov, T. Kushta, V. A. Klimko, P. Nesterov

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引用次数: 0

摘要

探讨了利用准光波导建模(QWM)方法进行近毫米(NMM)电磁波谱区域物理对象及其比例模型后向散射偏振特性实验研究的可能性。为了实现QWM方法，开发并实现了准光学偏振微压缩测距仪(PMCR)。该装置的微波部分是建立在中空介质波导(HDW)、准光学器件和传输在线元件的基础上的。给出了被测物体在不同偏振基下的幅相后向散射图的测量结果。为了比较，给出了相应的理论数值模拟数据，显示了QWM方法的可能性。

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Quasioptical polarimetric microcompact experimental setup for scale modeling of object scattering characteristics in the near millimeter band

The possibility of using the quasioptical waveguide modeling (QWM) method for experimental study of backward scattering polarization characteristics of physical objects and their scale models in the near millimeter (NMM) region of the electromagnetic spectrum is investigated. The quasioptical polarimetric micro-compact range (PMCR) has been developed and carried out for realizing the QWM method. The microwave part of the installation was built on the basis of a hollow dielectric waveguide (HDW), quasioptical devices, and transmission-line elements. The results of measurements of amplitude-phase backward scattering patterns (BSP) for a tested object for various polarizations bases are presented. For comparison purposes, corresponding theoretical numerical modeling data showing the possibilities of the QWM method are given.

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11th International Conference 'Microwave and Telecommunication Technology'. Conference Proceedings (IEEE Cat. No.01EX487)

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