Near-field microwave phase imaging by a spintronic sensor

International Conference on Thin Film Physics and Applications Pub Date : 2010-10-11 DOI:10.1117/12.888266
Xiaofeng Zhu, M. Harder, A. Wirthmann, Bo Zhang, W. Lu, Y. Gui, Can-Ming Hu
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引用次数: 2

Abstract

We report a novel technique for microwave imaging utilizing a nonlinear coupling between the microwave fields in a ferromagnetic material, in which the relative phase of the coupled microwave fields plays an important role in the resultant homodyne dc voltage. A technical breakthrough has been achieved to effectively control such a relative phase using a spintronic Michelson interferometry. This enables a phase- and amplitude-resolved near-field dielectric image using a spintronic sensor. The contrast of microwave imaging for an object with subwavelength features strongly depends on the local dielectric constant of materials, and agrees well with simulation results by COMSOL.
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自旋电子传感器近场微波相位成像
我们报道了一种利用铁磁材料中微波场之间的非线性耦合进行微波成像的新技术,其中耦合微波场的相对相位在合成的零差直流电压中起着重要作用。利用自旋电子迈克尔逊干涉测量技术有效控制这种相对相位取得了技术突破。这使得相位和振幅分辨近场电介质图像使用自旋电子传感器。具有亚波长特征的物体的微波成像对比度很大程度上依赖于材料的局部介电常数,与COMSOL模拟结果吻合较好。
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International Conference on Thin Film Physics and Applications
International Conference on Thin Film Physics and Applications
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