Idelfonso Tafur Monroy

Terahertz Photonic Systems

Terahertz waves have unique fundamental features for a wide range of applications, which are emerging at increasing pace not only in the domain of wireless communication, but also in remote sensing, probing of materials and scanning.

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.

News

January 16, 2023

Enhancing optical and millimeter wave radio networks with game theory

Doruk Sahinel completed research on game theory and radio networks as part of a dual degree agreement with Technische Universität Berlin and defended his PhD...

October 28, 2022

Analog Radio-over-Fiber for Millimeter-Wave 5G/6G Mobile Communications

Javier Perez Santacruz defended his PhD thesis at the department of Electrical Engineering on October 28th.

More news

Building a Dutch Terahertz Research community - 2nd Dutch Symposium on Terahertz Science and Technology

June 16, 2022

Microscopy with millimeter waves

June 14, 2021

Radio from laser light

November 30, 2020

Unique testbed in Eindhoven paves the way for unhackable 'quantum internet'

October 12, 2020

Our Research Fields

Research Field

Edge computing and AI

Research Field

Game Theory

Research Field

Optical beamforming network based on PIC for future mm-wave 5G/6G mobile communications

Research Field

Photonic integrated quantum key distribution

Research Field

Quantum Machine Learning for 6G networking

Research Field

SDN and Control Plane

Projects

Research project

5G for cooperative & connected automated MOBIility on X-border corridors

Research project

5G PHOS

5G STEP FWD

Research project

Het ontwikkelen van nationale quantum communicatienetwerken op basis van Quantum Key Distribution en meer complexe quantum communicatie technologieën Bnr. 1300031695

Research project

Connected Corridor for Driving Automation

Meet some of our Researchers

Full Professor

Recent Publications

See all publications

Our most recent peer reviewed publications

Contact

Visiting address

Flux, floor 9

Groene Loper 19

5612 AP Eindhoven

Netherlands

+31 (0)40 247 5504
Postal address

Department of Electrical Engineering

P.O. Box 513

5600 MB Eindhoven

Netherlands
General information

THS_info@tue.nl

Terahertz Photonic Systems

Terahertz waves have unique fundamental features

News

Our Research Fields

Edge computing and AI

Game Theory

Optical beamforming network based on PIC for future mm-wave 5G/6G mobile communications

Photonic integrated quantum key distribution

Quantum Machine Learning for 6G networking

SDN and Control Plane

Projects

5G for cooperative & connected automated MOBIility on X-border corridors

5G PHOS

5G STEP FWD

Het ontwikkelen van nationale quantum communicatienetwerken op basis van Quantum Key Distribution en meer complexe quantum communicatie technologieën Bnr. 1300031695

Connected Corridor for Driving Automation

Meet some of our Researchers

Idelfonso Tafur Monroy

Shihab Al-Daffaie

Simon Rommel

Recent Publications

Novel antenna-coupled terahertz photodetector with graphene nanoelectrodes

Optical phase-locked loop phase noise in 5G mm-wave OFDM ARoF systems

The Role of Opto-Electronic Co-Integration for 6G Systems and Networks

Securing Communication with Quantum Key Distribution

Bidirectional ARoF fronthaul over multicore fiber for beyond 5G mm-wave communications

Contact

Visiting address

Postal address