Surface Wave and Back Radiation Suppression in Microwave Breast Screening

IF 3 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Milad Mokhtari;Milica Popović
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引用次数: 0

Abstract

The challenges in antenna design for microwave-based breast screening systems identify two distinct needs: 1) to minimize the surface-wave propagation at the interface between the substrate and the tissue, and 2) to address the back-radiation. These surface waves become more noticeable within the substrate, particularly when a confining ground plane is present, and yet the ground plane is pivotal for achieving unidirectionality and shielding against environmental radiation. This paper introduces a simplified human breast model and offers a quantitative analysis of existing surface waves. We then propose a 16-antenna array of cavity-backed patch antennas with parasitic elements, designed for operation in the 3.1–5.1 GHz range. Each antenna element is optimized to function seamlessly alongside the breast tissue. Full-wave simulations illustrate that the proposed antenna array achieves superior unidirectionality and diminished mutual coupling levels when compared to its predecessor. We further outline the cost-effective fabrication method that employs the SYLGARD(TM) 184 silicone elastomer PDMS kit. The measurements from the fabricated antenna elements are consistent with the results of the full-wave simulations.
微波乳腺筛查中的表面波和背辐射抑制
微波乳腺筛查系统的天线设计面临着两个不同的挑战:1) 尽量减少基底和组织界面的表面波传播,以及 2) 解决背辐射问题。这些表面波在基底内会变得更加明显,尤其是当存在限制性地平面时,然而地平面对于实现单向性和屏蔽环境辐射至关重要。本文介绍了一个简化的人体乳房模型,并对现有的表面波进行了定量分析。然后,我们提出了一种带有寄生元件的 16 天线阵列空腔贴片天线,设计工作频率为 3.1-5.1 GHz。每个天线元件都经过优化,可与乳腺组织无缝连接。全波仿真表明,与前代产品相比,拟议的天线阵列实现了出色的单向性,并降低了相互耦合水平。我们进一步概述了采用 SYLGARD(TM) 184 硅弹性体 PDMS 套件的高性价比制造方法。天线元件的测量结果与全波仿真结果一致。
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
CiteScore
5.80
自引率
9.40%
发文量
58
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