设计用于各种物体微波诊断的高局部谐振探头的电动力学原理

2016 International Conference Radio Electronics & Info Communications (UkrMiCo) Pub Date : 2016-09-01 DOI:10.1109/UKRMICO.2016.7739608

Y. Gordienko, I. M. Shcherban, A. Levchenko

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引用次数: 0

摘要

对各种对象的微波诊断技术设备在宽工作频率范围内的生产原理进行了论证，并具有必要的局域性。其基本原理是利用孔径谐振腔测量换能器和根据测量换能器自动调节微波驱动振荡器(AAF)频率的调制系统。换能器的测量结构为同轴结构，形成局部微波探头。测量信息的基本信号(质量因子的位移和换能器的谐振频率)通过AAF系统以模拟形式提取，然后通过标准数字技术进行ADC处理。并列举了孔径几何节点选择在局部性和灵敏度上优化技术手段的可能性的定量依赖关系。这种方法的应用领域可以是研究薄膜、生物物体、超材料、薄膜电子元件等的物理性质。

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Electrodynamic principles of designing a high local resonator probe for microwave diagnostics of various objects

Justification of the production principles of technical facilities of microwave diagnostics of various objects for a wide range of operating frequencies with the necessary locality have been implemented. The basic principle is the use of the apertural resonator measuring transducer and the modulational system of automatic adjustment of frequency of the microwave driving oscillator (AAF) according to measuring transducer. Measuring structure of a transducer is of a coaxial structure and forms a local microwave probe. Fundamental signals of measurement information (the shift of quality factor and a transducer's resonant frequency) are extracted in analog form through the AAF system and processed after the ADC by standard digital technology. Quantitative dependences characterizing the possibility of optimizing the technical means in locality and sensitivity by choice of aperture geometry node are also listed. The field of application of such means can be a study of the physical properties of thin films, biological objects, metamaterials, elements of thin-film electronics, etc.

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2016 International Conference Radio Electronics & Info Communications (UkrMiCo)

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