Influence of source - phantom multiple interactions on the field transmitted in a flat phantom

2007 18th International Zurich Symposium on Electromagnetic Compatibility Pub Date : 2007-11-27 DOI:10.1109/EMCZUR.2007.4388215

B. Derat, A. Cozza, J. Bolomey

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引用次数: 18

Abstract

For many applications involving antenna systems in the vicinity of lossy scatterers, such as phantoms used for Specific Absorption Rate (SAR) assessment, it would be of great interest to know how local absorption can be related to the free-space radiated electromagnetic field. However, when the source closely approaches e. g. a phantom, complex interactions mechanisms begin to occur, leading to modifications of the nearfield effectively impinging on the phantom. Based on plane-wave expansion, this paper proposes an analysis of the contribution of the free-space field to the field transmitted in a phantom, as the antenna-phantom distance is varied. The particular cases of λ/2 dipoles at 900 and 1800 MHz close to a flat phantom are studied numerically. The results surprisingly show that the electric field topography inside the phantom is poorly distorted by multiple interactions, even for distances as short as 2.5 mm. It appears that this distortion is generally even weaker, for source-phantom distances where the modulus of the reflection coefficient at the antenna input port is high.

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源-幻相多重相互作用对平面幻相传输场的影响

对于许多涉及有损耗散射体附近的天线系统的应用，例如用于特定吸收率(SAR)评估的幻影，了解局部吸收如何与自由空间辐射电磁场相关联将是非常有趣的。然而，当光源靠近时，复杂的相互作用机制开始发生，导致近场的修改有效地撞击到幻影上。基于平面波展开理论，分析了自由空间场对幻体中传输场的贡献。用数值方法研究了λ/2偶极子在900 MHz和1800 MHz接近平坦模体的特殊情况。结果令人惊讶地表明，即使在短至2.5 mm的距离内，幻影内部的电场形貌也不会被多次相互作用扭曲。在天线输入端口反射系数的模量较高的源-幻体距离中，这种失真通常更弱。

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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2007 18th International Zurich Symposium on Electromagnetic Compatibility

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