Participation in Projects:

As main investigator:

• "Modelling of double-layer geodesic lenses for space instruments", VR Project (2022-03865) under call: "Research project grant within natural and engineering sciences". This project has a duration of 3 years.
• ESA OSIP project (ESA AO 2-1848/22/NL/GLC/ov) on “Glide-symmetry inspired design for manufacture and assembly approach applied to communication satellite antenna arrays in E band”, supported by Viasat. Funded for 18 months.
• ESA Technology Transfer Feasibility & Design project (ESA AO/1-10772/21/NL/MH) on “Two-dimensional beam formers producing a triangular lattice of beams”, supported by Ericsson AB. Funded for 9 months.
• Ericsson AB project “Comparison and limitations of measurement techniques for body absorption in mm-waves”. Funded for 4 months.
• ONR project (0348-0004) on “Geodesic Luneburg lenses for high power applications". Funded for 3 years.
• ESA Proof of Concept project (4000130375/20/NL/MH/kdj) for the Transfer of innovative multiple beam antenna technologies to 5G terrestrial communication systems, supported by Ericsson AB. Funded for 8 months.
• "Highly-efficient spectroscopy antennas based on geodesic lenses for future space missions (High-Spectro)", VR Project (2019-03933) under call: "Research project grant within natural and engineering sciences". This project has a duration of 3 years.
• "Highly-efficient integrated antennas for the new generation of communication systems in the millimetre band (High-Int)", Vinnova Project (2019-02103) under call: "Smartare Elektroniksystem. Forsknings- och innovationsprojekt 2019". This project has a duration of 2 years and involves collaborations with Ericsson AB.
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• ESA ARTES project (No. 4000125905/18/NL/WE) for the development of "Compact Mobile Antenna For High Speed Transport Vehicles". Funded for 3 years, and it includes the participation of Forsway and ReQuTech.
• "Higher-symmetric structures for future 5G Communication Systems (High-5)", Vinnova Project (2018-01522) under call: "Smartare Elektroniksystem. Forsknings- och innovationsprojekt 2018". This project has a duration of 2 years and involves collaborations with Ericsson AB, Sunway Communications and Digital Metal.
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• "Higher-symmetric materials for 5G communications (H-Materials)", Stiftelsen Åforsk project (18-302), funded for 2 years in collaboration with Ericsson AB.
• "Towards the Future of Antennas: Transformation Optics and Surface-Wave Lenses", STINT Project (PT2014-5813), Postdoctoral Transition Grant for Internationalization. This project involves collaborations during 3 years with University of Michigan, USA, and Université Pierre et Marie Curie, France.
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MSCA Doctoral Networks:

• KTH leader of MSCA Doctoral Networks, Industrial Doctorate, 2021 (No. 101072560) on “Glide-symmetric mEtamaterials for iNnovative radIo-frequency commUnication and Sensing (GENIUS)", funded for 4 years. This project is led by Sorbonne University. Main supervisor of two PhD projects with Thales (France) and Airbus (Uk).

COST Action:

• Vice-chair of SyMAT: "Future Communications with higher-symmetric engineered artificial materials" .

Sub-contractor ESA:

• KTH Leader of ESA project (4000132899/20/NL/NR) on “User terminal hybrid antenna for constellations", funded for 2 years. This project is led by Satcube.
• KTH Leader of ESA project (No. AO/2-1772/20/NL/GLC) on “Sub terahertz geodesic lens antenna for imaging system", funded for 2 years. This project is led by University of Bordeaux.

In collaboration with Sorbonne University (led by Prof. Valerio):

• I participate in the project: "Modeling and Design of Holey Metasurfaces (HOLeYMETA)" funded by the Agence Nationale de la Recherche (ANR) - French government (ANR-16-CE24-0030).

In collaboration with Carlos III University of Madrid (led by Prof. Rajo-Iglesias):

• I participate in the project: "Desarrollo de componentes y antenas en tecnologia gap-waveguide para la mejora de prestaciones de transceptores en bandas de milimetricas" (TEC2013-44019-R).

In collaboration with National Chiao Tung University of Taiwan (led by Prof. Ng Mou Kehn):

• I participate in the project: “Asymptotic Modal Dispersion Analysis of Corrugated and Strip-Grated Surfaces for Rapid Design and Control of Plasmonic Surface-Waves Lens with Graded Refractive Indices” (MOST 103-2221-E-009 -027-).