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Main Authors: Zhou, Yang, Wang, Wenzhang, Ge, Guiguo, Li, Jinting, Zhang, Danfang, He, Meng, Tang, Biao, Zhong, Jiaqi, Zhou, Lin, Li, Runbing, Mao, Lin, Che, Hao, Qian, Leiyuan, Li, Yang, Qin, Fangjun, Fang, Jie, Chen, Xi, Wang, Jin, Zhan, Mingsheng
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.09260
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author Zhou, Yang
Wang, Wenzhang
Ge, Guiguo
Li, Jinting
Zhang, Danfang
He, Meng
Tang, Biao
Zhong, Jiaqi
Zhou, Lin
Li, Runbing
Mao, Lin
Che, Hao
Qian, Leiyuan
Li, Yang
Qin, Fangjun
Fang, Jie
Chen, Xi
Wang, Jin
Zhan, Mingsheng
author_facet Zhou, Yang
Wang, Wenzhang
Ge, Guiguo
Li, Jinting
Zhang, Danfang
He, Meng
Tang, Biao
Zhong, Jiaqi
Zhou, Lin
Li, Runbing
Mao, Lin
Che, Hao
Qian, Leiyuan
Li, Yang
Qin, Fangjun
Fang, Jie
Chen, Xi
Wang, Jin
Zhan, Mingsheng
contents 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 AI sensors 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 are 0.42 mGal and 0.46 mGal, which were improved by factors of 4.18 and 4.21 by optimizing the cross-coupling effect.
format Preprint
id arxiv_https___arxiv_org_abs_2312_09260
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle High precision atom interferometer-based dynamic gravimeter measurement by eliminating the cross-coupling effect
Zhou, Yang
Wang, Wenzhang
Ge, Guiguo
Li, Jinting
Zhang, Danfang
He, Meng
Tang, Biao
Zhong, Jiaqi
Zhou, Lin
Li, Runbing
Mao, Lin
Che, Hao
Qian, Leiyuan
Li, Yang
Qin, Fangjun
Fang, Jie
Chen, Xi
Wang, Jin
Zhan, Mingsheng
Applied Physics
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 AI sensors 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 are 0.42 mGal and 0.46 mGal, which were improved by factors of 4.18 and 4.21 by optimizing the cross-coupling effect.
title High precision atom interferometer-based dynamic gravimeter measurement by eliminating the cross-coupling effect
topic Applied Physics
url https://arxiv.org/abs/2312.09260