In this frame, Thales Alenia Space, Thales, G&H and Leo Space Photonics R&D demonstrated the generation and transmission of optical communication signals carrying data at 25 Gbps in a controlled environment at a record breaking optical power of 97 W opening the way to 100W-class transmissions. This was achieved by splitting a modulated optical signal into two paths, each amplified through an individual state-of-the-art G&H high power amplifier, and then coherently combining the two amplifier outputs. This was an opportunity not only to demonstrate high and very high optical power generation but also to prove the possibility to transmit telecom signals at very high power while maintaining data integrity, a necessary condition for use in free-space optical links over long distances.
Following the outdoor trials of free-space optical links in Summer 2022, which notably demonstrated a record transmission at 1 Tbps over an atmospheric optical path of 53 km, the laboratory test campaign performed in Thales facilities concludes the VERTIGO project with a new record.
Capitalizing on the results of the VERTIGO project, the next step will be to target a full-scale coherent laser link between a geostationary satellite at an altitude around 36.000 km and a ground station.
Next generation satellite systems will play a key role to bridge the digital divide and offer broadband connectivity for all by 2025. In this context, optical feeder links are considered as a very promising technology to meet the future VHTS system requirements. VERTIGO ambitions to pave the way towards very high throughput satellite systems and contribute to maintain EU technological leading edge and industry competitiveness.
About the H2020 VERTIGO project
VERTIGO (Very High Throughput Satellite-Ground Optical link) is a H2020 collaborative project, launched on June 1st 2019 and completed at the beginning of 2023, demonstrating concepts allowing for a significant capacity increase of feeder links through the use of state-of-the-art optical technologies. VERTIGO address the key enabling technologies (high optical power generation, high efficiency waveforms, atmospheric impairments mitigation) for the implementation of high-throughput optical links and assess them in ground indoor and outdoor demonstrations thanks to a fully complementary consortium composed of CREONIC GmbH, ETH Zürich, Fraunhofer HHI, G&H, LEO Space Photonics R&D, ONERA, Thales Alenia Space in France and Switzerland and Thales Research & Technology.
This project received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 822030.