Chigo Okonkwo
High Capacity Optical Transmission
Overcome the limitations imposed by the fibre鈥檚 attenuation, dispersion and non-linearities.
We are pushing the limits towards multiple Petabit/S capacities. Key topics are Space-division multiplexing techniques employing novel multi-mode/core fibers, advanced signal modulation for improved spectral efficiency, dense wavelength multiplexing, compensation of (non-linear) fibre dispersion effects, robust coherent reception using digital signal processing, and single and multi-mode wideband optical amplification schemes.
Meet some of our Researchers
News
April 10, 2025
Invisible beams of light above Eindhoven provide super-fast wireless data transfer
果冻传媒 researchers have sent the equivalent of 1.9 million Netflix series via infrared light from the roof of their building.
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![[Translate to English:]](https://assets.w3.tue.nl/w/fileadmin/_processed_/c/0/csm_van_den_Hout_Menno%20Banner%20image_ab9f5e6e34.jpg "[Translate to English:]")
February 8, 2024
The road to ultra-high-capacity optical-based Internet communications
Menno van den Hout defended his PhD thesis at the Department of Electrical Engineering on February 7th.
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More news
Online speed record: 'As if 1 billion people are watching Netflix simultaneously'
December 25, 2023
Queen M谩xima shows great interest during photonics visit at EHCI (in pictures)
February 16, 2023
Building the backbone of the information society
October 27, 2022
Advanced digital signal processing for ultra-high-capacity optical transmission
April 21, 2022
Recent Publications
Our most recent peer reviewed publications
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
P.O. Box 513Department of Electrical Engineering5600 MB EindhovenNetherlands -
Postal address
P.O. Box 513Department of Electrical Engineering5600 MB EindhovenNetherlands -
Secretary