Sensors (Feb 2024)

High-Precision Atom Interferometer-Based Dynamic Gravimeter Measurement by Eliminating the Cross-Coupling Effect

  • Yang Zhou,
  • Wenzhang Wang,
  • Guiguo Ge,
  • Jinting Li,
  • Danfang Zhang,
  • Meng He,
  • Biao Tang,
  • Jiaqi Zhong,
  • Lin Zhou,
  • Runbing Li,
  • Ning Mao,
  • Hao Che,
  • Leiyuan Qian,
  • Yang Li,
  • Fangjun Qin,
  • Jie Fang,
  • Xi Chen,
  • Jin Wang,
  • Mingsheng Zhan

DOI
https://doi.org/10.3390/s24031016
Journal volume & issue
Vol. 24, no. 3
p. 1016

Abstract

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A dynamic gravimeter with an atomic interferometer (AI) can perform absolute gravity measurements with high precision. AI-based dynamic gravity measurement is a type of joint measurement that uses an AI sensor and a classical accelerometer. The coupling of the two sensors may degrade the measurement precision. In this study, we analyzed the cross-coupling effect and introduced a recovery vector to suppress this effect. We improved the phase noise of the interference fringe by a factor of 1.9 by performing marine gravity measurements using an AI-based gravimeter and optimizing the recovery vector. Marine gravity measurements were performed, and high gravity measurement precision was achieved. The external and inner coincidence accuracies of the gravity measurement were ±0.42 mGal and ±0.46 mGal after optimizing the cross-coupling effect, which was improved by factors of 4.18 and 4.21 compared to the cases without optimization.

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