Self-calibrated atom-interferometer gyroscope by modulating atomic velocities

Atom-interferometer gyroscopes have attracted much attention for their long-term stability and extremely low drift. For such high-precision instruments, self-calibration to achieve an absolute rotation measurement is critical. In this work, we propose and demonstrate the self-calibration of an atom-...

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Veröffentlicht in:	Review of scientific instruments 2024-05, Vol.95 (5)
Hauptverfasser:	Chen, Hong-Hui, Yao, Zhan-Wei, Lu, Ze-Xi, Lu, Si-Bin, Jiang, Min, Li, Shao-Kang, Chen, Xiao-Li, Sun, Chuan, Mao, Yin-Fei, Li, Yang, Li, Run-Bing, Wang, Jin, Zhan, Ming-Sheng
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Sprache:	eng
Schlagworte:	Calibration Earth rotation Geophysics Gyroscopes Interferometers Self calibration
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creator	Chen, Hong-Hui Yao, Zhan-Wei Lu, Ze-Xi Lu, Si-Bin Jiang, Min Li, Shao-Kang Chen, Xiao-Li Sun, Chuan Mao, Yin-Fei Li, Yang Li, Run-Bing Wang, Jin Zhan, Ming-Sheng
description	Atom-interferometer gyroscopes have attracted much attention for their long-term stability and extremely low drift. For such high-precision instruments, self-calibration to achieve an absolute rotation measurement is critical. In this work, we propose and demonstrate the self-calibration of an atom-interferometer gyroscope. This calibration is realized by using the detuning of the laser frequency to control the atomic velocity, thus modulating the scale factor of the gyroscope. The modulation determines the order and the initial phase of the interference stripe, thus eliminating the ambiguity caused by the periodicity of the interferometric signal. This self-calibration method is validated through a measurement of the Earth’s rotation rate, and a relative uncertainty of 162 ppm is achieved. Long-term stable and self-calibrated atom-interferometer gyroscopes have important applications in the fields of fundamental physics, geophysics, and long-time navigation.
doi_str_mv	10.1063/5.0198240
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subjects	Calibration Earth rotation Geophysics Gyroscopes Interferometers Self calibration
title	Self-calibrated atom-interferometer gyroscope by modulating atomic velocities
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