Terahertz waves have unique fundamental features
We investigate photonic techniques for the generation, detection and processing of ultra-high frequency electro-magnetic waves in the sub-THz to THz domain (i.e. 100 GHz and beyond). Due to the extremely high optical carrier frequencies used in fibre optic communication, optical techniques (such as optical heterodyning) are well positioned to readily generate and process THz waves.
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Paving the way for 6G Networking-European ALLEGRO project to design a novel end-to-end sliceable, reliable, and secure architecture for next-generation optical networks
May 15, 2023
Enhancing optical and millimeter wave radio networks with game theory
January 16, 2023
Analog Radio-over-Fiber for Millimeter-Wave 5G/6G Mobile Communications
October 28, 2022
Building a Dutch Terahertz Research community - 2nd Dutch Symposium on Terahertz Science and Technology
June 16, 2022
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Recent Publications
Our most recent peer reviewed publications
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Entropically secure encryption with faster key expansion
Quantum Information Processing (2024) -
Falcon/Kyber and Dilithium/Kyber Network Stack on Nvidia’s Data Processing Unit Platform
IEEE Access (2024) -
Quantum-resistant Transport Layer Security
Computer Communications (2024) -
From classical to quantum machine learning: survey on routing optimization in 6G software defined networking
Frontiers in Communications and Networks (2023) -
Graphene-Coupled Highly Efficient THz Photomixer
(2023)
Contact
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Visiting address
Flux, floor 9Groene Loper 195612 AP EindhovenNetherlands -
Visiting address
Flux, floor 9Groene Loper 195612 AP EindhovenNetherlands -
Postal address
Department of Electrical EngineeringP.O. Box 5135600 MB EindhovenNetherlands -
Postal address
Department of Electrical EngineeringP.O. Box 5135600 MB EindhovenNetherlands -
General informationTHS_info@ tue.nl