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Bibliographische Detailangaben
Hauptverfasser: Chen-yang, Li, Ru-gang, Xu, Xi, Chen, Hong-bo, Sun, Su-peng, Li, Yu, Luo, Ming-qi, Huang, Xue-feng, Di, Zhao-long, Li, Wei-peng, Xiao, Xiao, Liang, Xuan, Yang, Xian-liang, Huang, Hua-jian, Yao, Jin-shui, Huang, Luo-kan, Chen, Shuai, Chen
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2504.00588
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Inhaltsangabe:
  • Time-varying gravity field survey is one of the important methods for seismic risk assessment. To obtain accurate timevarying gravity data, it is essential to establish a gravity reference, which can be achieved using absolute gravimeters. Atom gravimeters, as a recently emerging type of absolute gravimeter, have not yet been practically validated for their reliability in mobile gravity surveys. To study and evaluate the operational status and performance metrics of the A-Grav atom gravimeter under complex field conditions, the University of Science and Technology of China, Hefei National Laboratory, and the Anhui Earthquake Agency conducted a joint observation experiment using an atom gravimeter (AGrav) and relative gravimeters (CG-6) within the North China Seismic Gravity Monitoring Network. The experiment yielded the following results: 1) The standard deviations for mobile observations of the atom gravimeter is 2.1 μGal; 2)The mean differences in point values and segment differences between the atom gravimeter and the relative gravimeter at the same locations is 5.8(17.1) μGal and 4.4(11.0) μGal, respectively, with point value differences of less than 2.0 μGal compared to the FG5X absolute gravimeter at the same location; 3) The results of hybrid gravity adjustment based on absolute gravity control and the point value precision at each measurement point, with an average point value precision of 3.6 μGal. The results indicate that the A-Grav atom gravimeter has observation accuracy and precision comparable to the FG5X absolute gravimeter, demonstrating good stability and reliability in field mobile measurements, and can meet the requirements for seismic gravity monitoring. This work provides a technical reference for the practical application of atom gravimeters in control measurements and time-varying gravity monitoring for earthquakes.