Department of Electrical Engineering

Electro-Optical Communication

We have a vision of a globe-spanning ubiquitous optical network, a sustainable and reliable communication infrastructure for users and devices around the world.

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Our goal: virtually unlimited bandwidth without congestion, anytime, anywhere, for any service

Our research vision requires ultra-broadband, ultra-long-reach transmission links, fully-transparent, ultra-fast nodes for routing signal streams, flexible, high-density optical interconnect solutions and high-capacity links – including wireless links – to the end user. It also necessitates functions for autonomously mapping users’ location and service requirements to the network’s resources. Sustainability is a leading theme in our research.

Optical communication, based on optical fiber and free-space optical beams, is the technology that can make this vision a reality. It is the technology underlying the explosion of bandwidth and bandwidth-related services that we now all take for granted and which enables us to connect users, homes, cities, countries and continents to form the physical layer for the World Wide Web.

Mission

Virtually unlimited bandwidth without congestion, anytime, anywhere for any service.

News

Full-stack
May 27, 2026
Six European semicon projects set to start at ºÚÁϸ£ÀûÍø
ºÚÁϸ£ÀûÍø expertise in chip research in high demand across Europe.
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April 20, 2026
EU awards €4.5 million MSCA Doctoral Network grant in spatiotemporal photonic technologies
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More news
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From Lab to Laser: How Eindhoven Helped Build the Foundation of Quantum Technology
March 23, 2026
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Integrating post-quantum cryptography and DPU acceleration in modern networks
February 5, 2026
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The missing link to computing at the speed of light
February 2, 2026
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Implementing post-quantum cryptography for future-proof communication systems
December 18, 2025
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Education

Check out our .

In practically all our research projects there are ample opportunities to do your Bachelor's or Master's projects. For a current overview, please have a look at the links to the ºÚÁϸ£ÀûÍø marketplace. For more detailed information or an appointment, please contact the secretary: secretariaat.eco@tue.nl. 

 

 

Our Research Labs

Work with us!

Open positions

Please check out the  for opportunities within our group. 

 

Meet some of our Researchers

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Facilities

The High Capacity Optical Transmission Lab facilitates research on innovative optical fibers and signal processing techniques to enable transmission of ultra-high capacity.

The Optical Networks Lab commands unique testing facilities specifically required for testing optical interconnect modules.

LIGHT: THE ESSENTIAL INGREDIENT FOR FUTURE TECHNOLOGY

The exponential increase in data traffic is becoming unsustainable. At the present pace, information technologies will soon be responsible for more than 10% of global electricity consumption. Photonics – the technology that uses light to carry information – can come to the rescue, by providing low-energy, high-speed data transmission throughout the internet and within data centers. Additionally, photonics can enable novel applications of light in sensing and computing, with large potential impact on healthcare, agro-food and smart mobility. However, these promises can only be realized if increasingly complex photonic chips can be produced at a low cost. ºÚÁϸ£ÀûÍø performs fundamental and applied research aimed at making this dream come true.

Recent Publications

Our most recent peer reviewed publications

Contact

  • Visiting address

    Flux, floor 9
    Groene Loper 19
    5612 AP Eindhoven
    Netherlands

  • Visiting address

    Flux, floor 9
    Groene Loper 19
    5612 AP Eindhoven
    Netherlands

  • Postal address

    P.O. Box 513
    Department of Electrical Engineering
    5600 MB Eindhoven
    Netherlands

  • Postal address

    P.O. Box 513
    Department of Electrical Engineering
    5600 MB Eindhoven
    Netherlands

  • Secretary