Non-contact laser-based test method for vibration performance parameters of hemispherical resonator

Ning Wang; Guoxing Yi; Zhennan Wei; Yiwei Sun; Lishan Yuan

doi:10.1117/12.3023717

18 March 2024 Non-contact laser-based test method for vibration performance parameters of hemispherical resonator

Ning Wang, Guoxing Yi, Zhennan Wei, Yiwei Sun, Lishan Yuan

Proceedings Volume 13104, Advanced Fiber Laser Conference (AFL2023); 131045Z (2024) https://doi.org/10.1117/12.3023717
Event: Advanced Fiber Laser Conference (AFL2023), 2023, Shenzhen, China

Abstract

The high-precision measurement of hemispherical resonator vibration performance parameters has been an obstacle limiting the development of high-precision development of Hemispherical Resonator Gyro (HRG). In this paper, a laser-based contactless testing method for the hemispherical resonator vibration performance parameter is proposed to solve the problem of low efficiency and accuracy in the current hemispherical resonator vibration performance parameter testing method. A hemispherical resonator laser vibration measurement system is constructed, and a high-precision identification method of hemispherical resonator vibration performance parameters based on envelope analysis is proposed. Simulation and experimental results show that the free-decaying vibration signals of the hemispherical resonator can be accurately obtained by laser contactless measurement, and the vibration parameters, such as inherent frequency, frequency-split, quality-factor, as well as modal azimuthal angle of the hemispherical resonator could be identified in one-time test by fitting the obtained vibration signals with proposed nonlinear optimization identification method.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Ning Wang, Guoxing Yi, Zhennan Wei, Yiwei Sun, and Lishan Yuan "Non-contact laser-based test method for vibration performance parameters of hemispherical resonator", Proc. SPIE 13104, Advanced Fiber Laser Conference (AFL2023), 131045Z (18 March 2024); https://doi.org/10.1117/12.3023717

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KEYWORDS

Vibration

Resonators

Laser resonators

Standing waves

Doppler effect

Electrodes

Laser Doppler velocimetry

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