Study and Simulation of an FSS for Multiband and Very Wide Band Applications with Double Polarization by a Transverse Wave Formulation
| Authors | Abdelmalik Mekaoussi1,2, Mohammed Yakhelef1,2, Toufik Smail3, Hichem Bencherif4 |
| Affiliations |
1Department of Electronics, Faculty of Technology, University of Batna 2 (Mostefa Ben Boulaïd), Batna 05000, Algeria 2Advanced Electronics Laboratory (LEA), University of Batna 2 (Mostefa Ben Boulaïd), Batna 05000, Algeria 3Solar Equipment Development Unit, EPST/CDER, RN N 11 BP386 Bou-Ismail, Tipaza 42415, Algeria 4LEREESI Laboratory, HNS-RE2SD, Batna 05000, Algeria |
| Е-mail | am.mekaoussi@univ-batna2.dz |
| Issue | Volume 17, Year 2025, Number 6 |
| Dates | Received 20 August 2025; revised manuscript received 15 December 2025; published online 19 December 2025 |
| Citation | Abdelmalik Mekaoussi, Mohammed Yakhelef, et al., J. Nano- Electron. Phys. 17 No 6, 06004 (2025) |
| DOI | https://doi.org/10.21272/jnep.17(6).06004 |
| PACS Number(s) | 07.05.Tp |
| Keywords | Periodic structure, Metallic strips, VWB, Radome, Double polarization, WCIP method. |
| Annotation |
This new article presents a periodic structure of Frequency Selective Surface (FSS) with eight metallic strips, this structure is composed of metallic strips on the X axis and others on Y. The FSS proposed for multiband, Very Wide Band applications (VWB) with double polarization and for military radome applications, the FSS was placed on a dielectric substrate, the structure was excited by a plane wave polarized along X and Y is characterized by the iterative method WCIP (Wave Concept Iterative Procedure). The proposed periodic structure gives four resonant frequencies in the X polarization and four frequencies when it was polarized along Y after the characterization of the latter frequencies have been identified. Therefore, one can determine the resonance frequencies from the variation of the lengths of the metallic strips and the improvement of the bandwidths in the excitation directions X and Y. The results of the simulation by the HFSS Software (High Frequency Structure Simulator) and the WCIP method were compared and a good agreement between the two results was observed. |
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List of References |
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