Experimental demonstration of bi-directional laser ranging and data communication for space gravitational wave detection

Experimental demonstration of bi-directional laser ranging and data communication for space gravitational wave detection

In this study, we designed ranging parameters and refined a loop filtering algorithm to solve the problem of parameter compatibility with the phasemeter and low ranging accuracy under bidirectional communication conditions. This enables the ranging and communication system to be integrated directly...

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Bibliographic Details
Published in:Results in physics Vol. 65; p. 107985
Main Authors: Chen, Peiquan, Zhang, Yibin, Deng, Rujie, Liu, Heshan, Luo, Ziren
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2024
Elsevier
Subjects:
Laser interferometry
Laser ranging
Space gravitational wave
Spread spectrum communication
Laser ranging
Space gravitational wave
Spread spectrum communication
Laser interferometry
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Summary:In this study, we designed ranging parameters and refined a loop filtering algorithm to solve the problem of parameter compatibility with the phasemeter and low ranging accuracy under bidirectional communication conditions. This enables the ranging and communication system to be integrated directly into the phasemeter as an auxiliary module. Experimental results compare fiber measurement lengths under different clock sources, indicating that the system achieves an ranging accuracy of 82.1 cm with an rms error of 9.14 cm. Additionally, the data communication rate reaches 19.5 kbps with a bit error rate below 10−6, all while ensuring that the implementation of the laser ranging and data communication system utilizes only 1% of the optical power to avoid introducing excessive phase noise to the scientific interferometer. •The bi-directional laser ranging and communication system is used to assist in gravitational wave detection.•The designed communication parameters are compatible with the phasemeter.•The ranging accuracy is improved based on the loop ranging algorithm.•The performance under asynchronous clock conditions meets the requirements of the Taiji project.
ISSN:2211-3797
2211-3797
DOI:10.1016/j.rinp.2024.107985