Lunar Orbit VLBI Experiment Ground Validation System

China is planning to launch a relay satellite in the coming years with a payload for the Earth-Moon Very-Long-Baseline Interferometer (VLBI) observation research and scientific applications, known as the Lunar Orbit VLBI Experiment (LOVEX) system. This system will perform the lunar orbit VLBI experi...

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Bibliographic Details
Published in:IEEE transactions on instrumentation and measurement 2023-01, Vol.72, p.1-1
Main Authors: Shang-Guan, Wei-Hua, Zhao, Rong-Bing, Wang, Jin-Qing, Wang, Zhi-Chao, Liu, Qing-Hui, Hong, Xiao-Yu, Wang, Guang-Li, Zheng, Wei-Min, Zhang, Xiu-Zhong, Shuai, Tao, Yan, Zhen, Huang, Yi-Dan, Lu, Xue-Jiang, Yu, Lin-Feng, Jiang, Yong-Bin, Zhang, Chao, Ma, Mao-Li, Zhong, Wei-Ye, Zhu, Ren-Jie, Wang, Wen-Bin, Zhang, Juan, Xia, Bo, Zhang, Chu-Yuan
Format: Article
Language:English
Subjects:
antenna
Astrometry
Bandwidth
Calibration
Frequency conversion
Frequency converters
Hydrogen masers
lunar orbit VLBI experiment ground validation system
Lunar orbits
Moon
Orbit determination
Orbits
Planetary orbits
radio telescope
Radio telescopes
Relay satellites
software correlation
Space vehicles
space VLBI
Spacecraft orbits
Telescopes
Tianwen-1 Mars probe
Very long base interferometry
Very long baseline interferometry (VLBI)
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Summary:China is planning to launch a relay satellite in the coming years with a payload for the Earth-Moon Very-Long-Baseline Interferometer (VLBI) observation research and scientific applications, known as the Lunar Orbit VLBI Experiment (LOVEX) system. This system will perform the lunar orbit VLBI experiments for in the world, and will improve the accuracy of planetary spacecraft orbit determination and the scientific observation capabilities of astrophysics and astrometry. Prior to launch, key technologies of the system must be verified, so we have established a LOVEX ground validation system with similar performance to the LOVEX system. The LOVEX ground validation system consists of a 4.5-meter ring-focus antenna, X-band receiver, frequency converter and digital backend, hydrogen maser, and monitoring and control software. Using this system, we have successfully conducted VLBI differential observation experiments with the Shanghai 65m radio telescope and Beijing 50m radio telescope. The experimental results show that, after calibration with NRAO150, the standard deviations of delay error of Tianwen-1 is within 0.5 ns, consistent with the theoretical timing accuracy, verifying the feasibility of the LOVEX time delay calibration.
ISSN:0018-9456
1557-9662
DOI:10.1109/TIM.2023.3282288