References

[1]: T. L. Blackney, J. R. Burnett and S. B. Cohn. A design method for meander-line circular polarizers. In: 22cd Annual Antenna Symposium (University of Illinois, Oct 1972).
[2]: D. N. Grujić. Simple and accurate approximation of rough conductor surface impedance. IEEE Trans. Microwave Theory Tech. 70, 2053–2059 (2021).
[3]: A. C. Ludwig. The definition of cross polarization. IEEE Trans. Antennas Prop. AP-21, 116–119 (1973).
[4]: L. A. Weinstein. The Theory of Diffraction and the Factorization Method (The Golem Press, Boulder, Colorado, 1969).
[5]: R. E. Collin. Field Theory of Guided Waves. 2cd Edition (IEEE Press, 1991).
[6]: V. Daniele, M. Gilli and E. Viterbo. Diffraction of a plane wave by a strip grating. Electromagnetics 10, 245–269 (1990).
[7]: Z. M. Tan and K. T. McDonald. Babinet’s principle for electromagnetic fields. Joseph Henry Laboratories, Princeton University, Princeton, NJ 8544 (2012). Available at http://kirkmcd.princeton.edu/examples/babinet.pdf.
[8]: Y. Nakata, Y. Urade, T. Nakanishi and M. Kitano. Plane-wave scattering by self-complementary metasurfaces in terms of electromagnetic duality and Babinet's principle. Physical Review B—Condensed Matter and Materials Physics 88, 205138 (2013). Available at https://arxiv.org/pdf/1311.3839.
[9]: A. S. Barlevy and Y. Rahmet-Samii. Fundamental constraints on the electrical characteristics of frequency selective surfaces. Electromagnetics 17, 41–68 (1997).
[10]: A. S. Barlevy. Properties of electromagnetic scattering from periodic metallic structures: Application to frequency-selective and bandgap structures. PhD thesis, University of California, Los Angeles (1998).
[11]: F. Costa and A. Monorchio. A frequency selective radome with wideband absorbing properties. IEEE Trans. Antennas Prop. 60, 2740–2747 (2012).
[12]: Y. Li, Y. Fang, Y. Huang, K. Pan, X. Xiao, X. Liu, L. Li and Z. Hu. Ultra-wideband, polarization-insensitive flexible metamaterial absorber base on laser printed graphene using equivalent circuit design method. Carbon 212, 118166 (2023). Available at https://doi.org/10.1016/j.carbon.2023.118166.
[13]: H. Fabian-Gongora, A. E. Martynyuk, J. Rodriguez-Cuevas, L. Martinez-Lopez, R. Martinez-Lopez and J. I. Martinez-Lopez. Independently tunable closely spaced triband frequency selective surface unit cell using the third resonant mode of split ring slots. IEEE Access 9, 105564–105576 (2021).
[14]: Q.-Y. Li, Y.-C. Jiao and G. Zhao. A novel microstrip rectangular-patch/ring-combination reflectarray element and its application. IEEE Antennas Wireless Prop. Letters 8, 1119–1122 (2009).
[15]: B. A. Munk. Frequency Selective Surfaces: Theory and Design (John Wiley & Sons, Inc., 2000).
[16]: L. Li, D. H. Werner, J. A. Bossard and T. S. Mayer. A model-based parameter estimation technique for wide-band interpolation of periodic moment method impedance matrices with application to genetic algorithm optimization of frequency selective surfaces. IEEE Trans. Antennas Prop. 54, 908–924 (2006).
[17]: J. Reed and G. Wheeler. A method of analysis of symmetrical four-port networks. IRE Trans. Microwave Theory Tech. 4, 246–252 (1956).
[18]: D. Sjöberg and A. Ericsson. A multi layer meander line circular polarization selective structure (MLML-CPSS). In: The 8th European Conference on Antennas and Propagation (EuCAP 2014) (IEEE, 2014); pp. 464–468.
[19]: A. Ericsson and D. Sjöberg. Design and analysis of a multilayer meander line circular polarization selective structure. IEEE Trans. Antennas Prop. 65, 4089–4101 (2017).
[20]: L.-X. Wu, K. Chen, T. Jiang, J. Zhao and Y. Feng. Circular-polarization-selective metasurface and its applications to transmit-reflect-array antenna and bidirectional antenna. IEEE Trans. Antennas Prop. 70, 10207–10217 (2022).
[21]: Z. Chen, C. Du, J. Liu, D. Zhou and Z. Shen. Design methodology of dual-polarized angle-selective surface based on three-layer frequency-selective surfaces. IEEE Trans. Antennas Prop. 71, 8704–8713 (2023).
[22]: K. Kempa. Percolation effects in the checkerboard Babinet series of metamaterial structures, physica status solidi (RRL)–Rapid Research Letters 4, 218–220 (2010).
[23]: Y.-P. Hong, I.-J. Hwang, D.-J. Yun, D.-J. Lee and I.-H. Lee. Design of single-layer metasurface filter by conformational space annealing algorithm for 5G mm-wave communications. IEEE Access 9, 29764–29774 (2021).