In this paper, we propose a full-wave analysis for characterizing the resonant frequencies and bandwidths of high-temperature superconductor inverted microstrip printed on anisotropic substrates. Our proposed approach is based on Galerkin procedure in the Fourier transform domain (FTD) combining with the complex resistive boundary condition. With the use of suitable Green's functions in the FTD, the analysis is performed for the case where the superconducting rectangular patches printed on anisotropic substrate. The numerical results obtained using the proposed approach are compared with previously published numerical results computed by means of the electromagnetic simulator “IE3D software”. These comparisons were very good, which prove the correctness and the validity of the proposed method. It is found that the optical properties combined with optimally chosen structural parameters of anisotropic materials can be maintaining control of the resonant frequency and exhibiting wider bandwidth characteristics.

在本文中，我们提出了一个全波分析，以表征各向异性基板上印刷的高温超导体倒置微带的谐振频率和带宽。我们提出的方法基于傅立叶变换域（FTD）中的Galerkin程序，并结合了复杂的电阻边界条件。通过在FTD中使用适当的格林函数，对在各向异性基板上印刷超导矩形补丁的情况进行分析。将使用建议的方法获得的数值结果与通过电磁模拟器“ IE3D软件”计算的先前发布的数值结果进行比较。这些比较非常好，证明了所提方法的正确性和有效性。