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Time Transfer by Laser Link - T2L2: Current status and future experiments

T2L2 (Time Transfer by Laser Link), developed by both CNES and OCA permits the synchronization of remote ultra stable clocks over intercontinental distances. The principle is derived from laser telemetry technology with dedicated space equipment deigned to record arrival time of laser pulses at the...

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Bibliographic Details
Main Authors: Samain, E., Albanese, D., Courde, C., Djeroud, K., Bourez, M. Laaz, Leon, S., Mariey, H., Martinot-Lagarde, G., Oneto, J. L., Paris, J., Pierron, M., Exertier, P., Viot, H., Guillemot, Ph, Laurent, Ph, Pierron, F., Rovera, D., Torre, J.-M., Abgrall, M., Achkar, J.
Format: Conference Proceeding
Language:English
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Summary:T2L2 (Time Transfer by Laser Link), developed by both CNES and OCA permits the synchronization of remote ultra stable clocks over intercontinental distances. The principle is derived from laser telemetry technology with dedicated space equipment deigned to record arrival time of laser pulses at the satellite. Using laser pulses instead of radio frequency signals, T2L2 permits to realize some links between distant clocks with a time stability of a few picoseconds and accuracy better than 100 ps. The T2L2 space instrument is in operation onboard the satellite Jason 2 since June 2008. Several campaigns were done to demonstrate both the ultimate time accuracy and time stability capabilities. It includes some experiments implemented in co-location to directly compare T2L2 time transfer residuals with the direct link between stations, and some ground to ground time transfer between ultra stable clocks. Important works have been done, between OCA and OP, to accurately compare T2L2 with microwave time transfer GPS and TWSTFT. These comparisons are based on laser station calibrations with a dedicated T2L2 calibration station designed to accurately set the optical reference of the laser station within the PPS reference of the microwave systems. Other experiments are also planned in the future: 3D localization with the lunar space vehicle LRO, T2L2 coverage extension over the Pacific Ocean (Tahiti), DORIS comparison and a third international campaign.
ISSN:2327-1914
DOI:10.1109/FCS.2011.5977854