Novel high-precision micro-gyroscope based on cavity optomechanical system-Reference-Cited by-同舟云学术

Novel high-precision micro-gyroscope based on cavity optomechanical system

Published:2023-10-23 Issue:11 Volume:53 Page:114209
ISSN:1674-7275
Container-title:SCIENTIA SINICA Physica, Mechanica & Astronomica
language:en
Short-container-title:Sci. Sin.-Phys. Mech. Astron.

Author:

YAN Xing,HUANG WenYi,LI Zhe,CHEN Kai,DENG GuangWei,WEN GuangJun,HUANG YongJun

Publisher

Science China Press., Co. Ltd.

Link

https://engine.scichina.com/doi/pdf/1F68D45BE22B45C9931A0A4AF3C05F16

Reference44 articles.

1. Ding H G, Wang S R, Huang Q A, et al. Research and development of micro inertial instruments (in Chinese). J Chin Inert Technol, 2001, 9: 46–49 [丁衡高, 王寿荣, 黄庆安, 等. 微惯性仪表技术的研究与发展. 中国惯性技术学报, 2001, 9: 46–49].

2. Yang W H, Shi C J, Qin H W, et al. Design of vehicle MIMU based on MEMS sensor (in Chinese). Transd Microsyst Technol, 2013, 32: 121–124 [杨文华, 石存杰, 秦洪武, 等. 基于MEMS传感器的车载微惯性测量单元设计. 传感器与微系统, 2013, 32: 121–124].

3. Zhou Y L, Jia Y C, Zhang X. 795-nm high-temperature and high-power operating vertical-cavity surface-emitting laser and application in atomic gyroscope (in Chinese). Acta Phys Sin, 2022, 71:

4. Huang Y J, Li X W, Wu J B, et al. Research progress on new micro-opto-electro-mechanical system inertial measurement technology (in Chinese). Navig Position Tim, 2022, 3: 1–13 [黄勇军, 李昕蔚, 吴江波, 等. 新型微光机电系统惯性测量技术研究进展. 导航定位与授时, 2022, 3: 1–13].

5. Cao H L. Dual-mass Linear Vibration Silicon Based MEMS Gyroscope (in Chinese). Beijing: National Defense Industry Press, 2020 [曹慧亮. 双质量线振动硅微机械陀螺仪. 北京: 国防工业出版社, 2020].