Glide-symmetric mEtamaterials for iNnovative radIo-frequency commUnication and Sensing (GENIUS)

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-DN-IDID: 101072560
EC Contribution
€15,259
Consortium Size
7 orgs
Start Year
2023
Summary

GENIUS (Glide-symmetric mEtamaterials for iNnovative radIo-frequency commUnication and Sensing) is an Industrial Doctoral Programme led by top European actors of research and innovation in the field of radio-frequency (RF) systems with applications to aerospace communications and automotive sensing proposing novel scientific tools provided by glide-symmetric (GS) artificial materials (or metamaterials). It has recently been discovered that these metamaterials, characterized by a special symmetry inside their constitutive unit cells, possess marvelous electromagnetic (EM) properties (propagation in an ultra-large bandwidth, strong isolation and high absorption features) capable to address the open challenges of modern RF systems, motivated by the increasing demand of ubiquitous connectivity, and the growing automation of transports.GENIUS aims at training highly skilled and creative researchers capable to propose out-of-the-box solutions to industrial needs by means of their knowledge of physical properties of complex EM systems. The design of devices will be enabled by the development of suitable modelling methods (circuit-based, integral-equation-based, quasi-optical) shedding light on the properties of GS materials and providing fast and reliable data on their behaviour. The inter-sectoral character of the training reflects its inter-disciplinarity content: researchers will benefit of academic expertise in GS metamaterials, of the industrial knowledge of applicative needs and of fabrication and test facilities not commonly found at individual institutions.GENIUS will be the only international training program bringing together metamaterial physics and application-oriented RF design. Its researchers will benefit of a dense network of contacts with scientists acquired during network-wide training events suitably complementing the skills acquired through research, to improve their career prospects in the European and worldwide innovation sector.

Consortium (7)

Project Results (21)

Source: CORDIS, the EU research results database.

Publications (15)
A Symmetry-Based Multimodal Transfer-Matrix Method for the Analysis of 2D-Periodic Structures
IEEE Transactions on Microwave Theory and Techniques· 2025DOI
Jesus M. Jimenez-Suarez, Francisco Mesa, Oscar Quevedo-Teruel
Cost Effective PCB Gap Waveguide Based on Broken Glide Symmetry
European Conference on Antennas and Propagation (EuCAP) 2025 - accepted· 2025
Kaan Aktas, Martin Petek, Enrico Tolin, Simona Bruni, Francesca Vipiana
Dispersion Analysis of 2-D Periodic Structures through a Multimodal Transfer Matrix Method Based on Symmetries’
Iberian Meeting on Computational Electromagnetics (EIEC) - accepted· 2025
Jesus M. Jimenez-Suarez, Francisco Mesa, and Oscar Quevedo-Teruel
H-Band-Multilayer-Waveguide-Using-Glide-Symmetric-EBG
European Conference of Antennas and Propagation (EuCAP) 2025 - accepted· 2025
Jorge Martin Villar, Martin Petek, Jorge Tobon, Zhongxia Simon He, Francesca Vipiana
Numerical Modeling of Higher-Symmetric Periodic Structures With a Hexagonal Lattice
IEEE Transactions on Antennas and Propagation· 2025DOI
Martin Petek, José Rico-Fernández, Jorge Alberto Tobón Vásquez, Guido Valerio, Francisco Mesa, Oscar Quevedo-Teruel, Francesca Vipiana
Retrieval Procedure of Effective Constitutive Parameters using the Multi-Modal Transfer-Matrix Method
XVI Iberian Meeting on Computational Electromagnetics (EIEC) 2025 - accepted· 2025
M. Tercero, F. Mesa, O. Quevedo-Teruel
Stacked Multi-Via Mushroom-Type EBG Structures with Glide Symmetry
European Conference on Antennas and Propagation (EuCAP) 2025 - accepted· 2025
Ashray Ugle, Massimiliano Casaletti, Marta Arias Campo, Simona Bruni, Guido Valerio
An Integral-Equation Kernel for Glide Symmetric Structures
· 2024DOI
M. Petek, J. Rivero, J. A. Tobon Vasquez, G. Valerio, O. Quevedo-Teruel and F. Vipiana
EBG Periodic Structures with Glide-Symmetry Hexagonal Lattices
International Conference on Electromagnetics in Advanced applications (ICEAA)· 2024
Jesus M. Jimenez-Suarez, Francisco Mesa, and Oscar Quevedo-Teruel
Efficient Integral Equation Approach for the Modelling of Glide-Symmetric Structures
· 2024DOI
M. Petek, J. Rivero, J. A. Vasquez-Tobon, G. Valerio, O. Quevedo-Teruel and F. Vipiana
Exploiting Symmetries for the Dispersion Analysis of Periodic Structures’
International Symposium on Antennas and Propagation (ISAP)· 2024
Jesus M. Jimenez-Suarez, Francisco Mesa, and Oscar Quevedo-Teruel
Homogenization of Glide-Symmetric Patches Using a Multimodal Transfer Matrix Method
International Symposium on Antennas and Propagation (ISAP) 2024· 2024
M. Tercero, F. Mesa, T.Q.V. Hoang, M. Bertrand, O. Quevedo-Teruel
IEEE Transactions on Antennas and Propagation
IEEE Transactions on Antennas and Propagation· 2024DOI
M. Petek, J. Rivero, J. A. T. Vásquez, G. Valerio, O. Quevedo-Teruel and F. Vipiana
Efficient Numerical Computation of Dispersion Diagrams for Glide-Symmetric Periodic Structures with a Hexagonal Lattice
M. Petek, J. A. T. Vasquez, G. Valerio, F. Mesa, O. Quevedo-Teruel and F. Vipiana
Exploiting Symmetries for the Analysis of Metasurfaces with a Multimodal Approach
European Conference on Antennas and Propagation 2025 - accepted
Jesus M. Jimenez-Suarez, Francisco Mesa, and Oscar Quevedo-Teruel
Deliverables (5)
Websites, patent fillings, videos etc.
Documents, reports
Documents, reports
Other Results (1)
Periodic Reporting for period 1 - GENIUS (Glide-symmetric mEtamaterials for iNnovative radIo-frequency commUnication and Sensing (GENIUS))