利用混合腔模型对各向异性基底上印刷的 HTS 紧凑型微带天线进行理论研究

IF 1.8 3区 工程技术 Q3 PHYSICS, APPLIED
Mohamed Bedra , Sami Bedra , Tarek Fortaki , Djemai Arar , Djamel Benatia , Akram Bediaf
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引用次数: 0

摘要

本研究利用氮化硼和氟化镁两种单轴基底材料,探索了在单轴各向异性基底上印刷紧凑型超导 C 形贴片的效果。这项研究采用了临界温度为 95 K 的超导材料 BSCCO(2212 BSCCO 晶体)。利用混合空腔模型,我们确定并提取了两个关键参数:导电元件的共振频率和超导共振频率。我们分析了工作温度对 C 型超导微带天线谐振频率的影响,以及单轴衬底材料及其厚度对表面电阻和表面电抗的影响。结果表明,温度对紧凑型天线的谐振频率有很大影响。我们的研究强调了为超导微带天线选择正确工作温度的重要性,以确保紧凑型微带天线设计的最佳性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theoretical investigation of HTS compact microstrip antennas printed on anisotropic substrates using hybrid cavity model

This work explores the effects of a compact, superconducting C-shaped patch printed on uniaxial anisotropic substrate, utilizing two uniaxial substrate materials: boron nitride and magnesium fluoride. This study employed the superconducting material BSCCO (2212 BSCCO crystal), with a critical temperature of 95 K. Using the hybrid cavity model, we identified and extracted two key parameters: the resonance frequency of conductive elements and the superconducting resonance frequency. We analyzed the impact of the operating temperature on the resonant frequency of a C-shaped superconductivity microstrip antenna, as well as the effect of the uniaxial substrate material and its thickness on the surface resistance and surface reactance. The results showed that temperature significantly affects the resonant frequency of the compact antenna. Our research highlighted the importance of selecting the correct operating temperature for a superconducting microstrip antenna to ensure optimal performance in compact microstrip antenna designs.

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来源期刊
Cryogenics
Cryogenics 物理-热力学
CiteScore
3.80
自引率
9.50%
发文量
0
审稿时长
2.1 months
期刊介绍: Cryogenics is the world''s leading journal focusing on all aspects of cryoengineering and cryogenics. Papers published in Cryogenics cover a wide variety of subjects in low temperature engineering and research. Among the areas covered are: - Applications of superconductivity: magnets, electronics, devices - Superconductors and their properties - Properties of materials: metals, alloys, composites, polymers, insulations - New applications of cryogenic technology to processes, devices, machinery - Refrigeration and liquefaction technology - Thermodynamics - Fluid properties and fluid mechanics - Heat transfer - Thermometry and measurement science - Cryogenics in medicine - Cryoelectronics
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