Convergence of Electronics and Photonics Technologies for Enabling Terahertz Applications
Duration: 01.02.2016 — 31.01.2020
On the project
CELTA: Convergence of Electronics and Photonics Technologies for Enabling Terahertz Applications aims to produce the next generation of researchers who will enable Europe to take a leading role in the multidisciplinary area of utilizing Terahertz technology for applications involving components and complete systems for sensing, instrumentation, imaging, spectroscopy, and communications. All these technologies are key to tackle important solutions in a large number of focus areas relevant for the societal challenges identified in the Horizon2020 work programme. To achieve this objective, CELTA is comprised of eleven leading research institutions and assembled a comprehensive research training programme for all the fifteen early stage researchers (ESRs). CELTA integrates multidisciplinary scientific expertise, complementary skills, and experience working in academia and industry to empower ESRs to work in interdisciplinary teams, integrate their activities, share expertise, and promote a vision of a converged co-design and common engineering language between electronics and photonics for Terahertz technologies. Therefore, CELTA will introduce the strategy of converged electronics and photonics co-design in its research program and makes a special effort on establishing a common engineering language in its training program across the electronics, photonics and applications disciplines. We believe this common engineering language and converged codesign is mandatory to make the next logical step towards efficient and innovation solutions that can reach the market. The detailed compendium of lectures on state-of-the art technology, soft skills and entrepreneurship is accompanied by a research programme that focuses on THz key technologies. CELTA ESRs will develop three demonstrators: beam steering technology for communication applications, a photonic vector analyser for spectroscopy and materials characterization, and a THz imager for sensing applications.
Informatics and information systems, terahertz, photonics, imaging, electronics
Raida Zbyněk, prof. Dr. Ing.
- principal person responsible (2016-02-01 - not assigned)
Department of Radioengineering
- (2016-02-01 - 2020-01-31)
- (2016-02-01 - not assigned)
Evropská unie - Horizon 2020
- whole funder
WARMOWSKA, D.; MAREK, M.; RAIDA, Z. MATLAB-based Multi-objective Optimization of Broadband Circularly Polarized Antennas. In Proceedings of LAPC 2017. 2017. p. 1-5. ISBN: 978-1-78561-699-0.
WARMOWSKA, D.; ATIA ABDALMALAK, K.; GARCÍA MUÑOZ, L.; RAIDA, Z. A Compact Circularly Polarized High-Gain Antenna Array for Ka-band CubeSats Applications. Grenada: IEEE, 2019. p. 1-2.
WARMOWSKA, D.; ATIA ABDALMALAK, K.; GARCÍA MUÑOZ, L.; RAIDA, Z. High-gain, Circularly-polarized THz Antenna with Proper Modeling of Structures with Thin Metallic Walls. IEEE Access. IEEE Access. IEEE Access, 2020. p. 1-10. ISSN: 2169-3536.
WARMOWSKA, D.; JUMAAH, A.; AL-DAFFAIE, S.; YILMAZOGLU, O.; RAIDA, Z. Manufacture of a Corporate-Feed Multilayer Terahertz Antenna Array in Silicon Technology. Incheon: IEEE, 2019. p. 1-2.
WARMOWSKA, D.; RAIDA, Z.: International conference on electromagnetics in advanced applications. Cartagena (10.09.2018)