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Towards high_x0002_performance space-grade frequency-combs

Closed

Closed

Prime contractor
Organisational Unit
Implementation progress
40%
27 July 2022

Duration: 18 months

Objective

The aim of this project is to create a demonstrator of a fully stabilized frequency-comb to pave the road towards a space-grade version. Such system is key for the next generation of timing and frequency distribution in space, as well as the next generation of Galileo satellites. Moving from electronics to photonics will significantly increase accuracy and precision of clocks in satellites enabling an increase in data transfer security, improved telecom system performance, insensitivity to jamming but also lead to more accurate tools for greenhouse gases detection.

The project will develop one of the key components to reach such “photonics precision” which is the frequency-comb. We will develop a demonstrator of a novel f-to-2f stabilization tool that would be compatible with the robust ultrafast lasers already manufactured and sold by Menhir Photonics. This solution will be demonstrated to potential customers, which will help to precisely evaluate their needs and requirements for future products (on ground and towards space missions).

The project will grant Menhir Photonics possibilities for novel unique selling propositions, enabling follow-up commercialization routes and expansion of the respective shares in the rapidly evolving photonics metrology market. While Menhir Photonics have shown their space-qualifications possibilities on their lasers, they will demonstrate an f-to-2f metrology system that is also space-compatible.

The development in this project will lead to a high reliability ground-based demonstrator, which will be designed for low-complexity, low power consumption and high robustness.

Contract number
4000138841
Programme
OSIP Idea Id
I-2022-00502
Related OSIP Campaign
Open Channel
Main application area
Science
Budget
103000€
Towards highperformance space-grade frequency-combs - Discovery Ideas Channel ETD evaluation 2022-03