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Spain Project Notice - High-Performance Millimeter-Wave And Terahertz Components Based On Spoof Surface Plasmon Polaritons For Next-Generation Communications


Project Notice

PNR 64632
Project Name High-Performance Millimeter-Wave and Terahertz Components Based on Spoof Surface Plasmon Polaritons for Next-Generation Communications
Project Detail Paving the way for ultra-fast data High-frequency bands like mmWave and THz promise super-fast data transfer but face issues like signal loss and tricky manufacturing. These challenges slow down advancements in wireless communication. Supported by the Marie Sklodowska-Curie Actions (MSCA) programme, the MITCOM project aims to address these issues. Specifically, the project is designing low-loss, high-tolerance filters and multiplexers. Its innovative planar SSPP transmission lines promise ease of manufacturing and integration. By leveraging these advancements, MITCOM aims to boost the efficiency of 5G/6G communication technologies, paving the way for cost-effective products and industry growth. As a result, telecommunications companies may see increased profits due to improved network performance and reduced equipment costs. The millimeter-wave (mmWave) and THz frequency bands hold immense potential for enabling ultra-fast data transmission and unlocking unprecedented bandwidth capabilities, but the RF components and circuits at these high frequencies suffer from relatively-large insertion losses and manufacturing difficulty/inaccuracy. Therefore, this entails researching into a fully-new type of transmission lines able to mitigate the high insertion losses and alleviate fabrication-tolerance issues of RF components. This MITCOM project aims to explore and develop new spoof surface plasmon polariton (SSPP) transmission lines for the design of mmWave and THz components with low insertion losses and their applications in next-generation wireless communications. Specifically, the overarching aim is to obtain SSPP-based mmWave and THz bandpass filters and multiplexers with low losses, low interference, high fabrication tolerance, ease of manufacturing and integration. Firstly, a new type of planar half-spaced SSPP transmission lines for waveguide and on-chip application scenarios will be proposed, and their design methodology will be developed to balance loss, ease of manufacturing and crosstalk issues, serving for E-plane waveguide and on-chip filter design. Then, the strategy for different filter specifications and tolerance levels will be analyzed in the steps of modeling and implementation through particular manufacturing technologies. Based on the design methodology and strategy, a series of E-plane waveguide and on-chip filters will be manufactured for validation and industry applications. Finally, based on the newly-conceived planar half-spaced SSPPs, diplexers and triplexers will be also designed, characterized and fabricated. The outcomes of the MITCOM project will contribute to the realization of cost-effective mmWave/THz filter and multiplexer products that potentially increase company profits and propel growth of the 5G/6G communication technology.
Funded By European Union (EU)
Sector BPO
Country Spain , Southern Europe
Project Value EUR 181,153

Contact Information

Company Name UNIVERSIDAD DE ALCALA
Web Site https://cordis.europa.eu/project/id/101154110

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