An Enhanced Spatial-Domain Probe Compensation Method With SRM for Near-Field Scanning

IF 4.5 1区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Microwave Theory and Techniques Pub Date : 2025-03-24 DOI:10.1109/TMTT.2025.3549752

Lixiao Wang;Zheng He;Qingtao Sun;Qing Huo Liu

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Abstract

In the near-field scanning technique, the near-field probe is the key sensor and the probe output is related to the probe receiving characteristics and the field distribution. Therefore, it is necessary to compensate the probe output distribution to the real field distribution based on the probe receiving characteristics. There are two main probe compensation methods: the spectral-domain method and the spatial-domain method. Due to the use of the 2-D Fourier transform algorithm, the spectral probe compensation method does not work well when the probe output spatial distribution is truncated while fields are not negligible. In this article, we present an enhanced spatial probe compensation technique for electromagnetic near-field scanning. This method enables the direct compensation of the truncated probe output, resulting in a more accurate field distribution. To overcome the poor constraint ability of traditional spatial probe compensation methods, electromagnetic constraints are introduced to transform the probe compensation problem into a source reconstruction problem. The effectiveness of the proposed method is verified by the numerical example and laboratory experiments.

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基于SRM的近场扫描增强空域探针补偿方法

在近场扫描技术中，近场探头是关键传感器，探头输出与探头接收特性和场分布有关。因此，有必要根据探头接收特性将探头输出分布补偿为实场分布。探针补偿方法主要有两种：谱域法和空域法。由于使用二维傅里叶变换算法，当探测输出空间分布被截断而场不可忽略时，光谱探针补偿方法的效果不佳。本文提出了一种用于电磁近场扫描的增强空间探针补偿技术。这种方法可以直接补偿截短的探头输出，从而获得更精确的场分布。为克服传统空间探头补偿方法约束能力差的问题，引入电磁约束，将探头补偿问题转化为源重构问题。数值算例和室内实验验证了该方法的有效性。

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

IEEE Transactions on Microwave Theory and Techniques 工程技术-工程：电子与电气

CiteScore

8.60

自引率

18.60%

发文量

486

审稿时长

6 months

期刊介绍： The IEEE Transactions on Microwave Theory and Techniques focuses on that part of engineering and theory associated with microwave/millimeter-wave components, devices, circuits, and systems involving the generation, modulation, demodulation, control, transmission, and detection of microwave signals. This includes scientific, technical, and industrial, activities. Microwave theory and techniques relates to electromagnetic waves usually in the frequency region between a few MHz and a THz; other spectral regions and wave types are included within the scope of the Society whenever basic microwave theory and techniques can yield useful results. Generally, this occurs in the theory of wave propagation in structures with dimensions comparable to a wavelength, and in the related techniques for analysis and design.