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Realization of Hollow-Core Photonic-Crystal Fiber Optic Gyro Based on Low-Noise Multi-Frequency Lasers with Intermediate-Frequency Difference

机译：基于中频差的低噪声多频激光器实现空心磁光晶体陀螺仪

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摘要

Mainly focusing on the demand for a novel resonator optic gyro based on a hollow-core photonic-crystal fiber (HC-RFOG), we achieve a multi-frequency lasers generation with low relative phase noise via an acousto-optic modulation of light from a single laser diode. We design a homologous heterodyne digital optical phase-locked loop (HHD-OPLL), based on which we realize the low-noise multi-frequency lasers (LNMFLs) with an intermediate frequency difference. The noise between the lasers with a 20 MHz difference is 0.036 Hz, within the bandwidth of 10 Hz, in a tuning range of 120 kHz, approximately 40 dB lower than that produced without the HHD-OPLL. Finally, based on the LNMFLs, an HC-RFOG is realized and a bias stability of 5.8 °/h is successfully demonstrated.

机译：我们主要针对基于空心光子晶体光纤（HC-RFOG）的新型谐振器光学陀螺仪的需求，通过声光调制来自半导体激光器的光，实现了相对相位噪声低的多频激光器。单激光二极管。我们设计了一个同质外差数字光学锁相环（HHD-OPLL），在此基础上，我们实现了具有中频差的低噪声多频激光器（LNMFL）。在120 Hz的调谐范围内，相差20 MHz的激光器之间的噪声为0.036 Hz，在10 Hz的带宽内，比没有HHD-OPLL的噪声低40 dB。最后，基于LNMFL，实现了HC-RFOG，并成功证明了5.8°/ h的偏置稳定性。

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期刊名称 Sensors (Basel Switzerland)
作者
Hongchen Jiao; Lishuang Feng; Qingjun Zhang; Jie Liu; Tao Wang; Ning Liu; Chunqi Zhang; Xindong Cui; Xiaoning Ji;
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作者单位

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年(卷),期 2020(20),10
年度 2020
页码 -1
总页数 10
原文格式 PDF
正文语种
中图分类
关键词
fiber optic sensor; resonator fiber optic gyro; fiber resonator; hollow-core photonic-crystal fiber; optical phase-locked loop;

机译：光纤传感器;谐振器陀螺仪;光纤谐振器;空心光子晶体光纤;锁相环;

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专利

1. Transmissive single-beam-splitter resonator optic gyro based on a hollow-core photonic-crystal fiber [J] . Jiao Hongchen, Feng Lishuang, Wang Junjie, Optics Letters . 2017,第15期

机译：基于空心光子光子晶体纤维的透射单束分配器谐振器光学陀螺
2. Laser-cooled atoms inside a hollow-core photonic-crystal fiber [J] . M. Bajcsy, S. Hofferberth, T. Peyronel, Physical Review, A. Atomic, molecular, and optical physics . 2011,第6aPta2期

机译：空心光子晶体光纤中的激光冷却原子
3. Laser ablation of dental tissues with picosecond pulses of 1.06-μm radiation transmitted through a hollow-core photonic-crystal fiber [J] . Stanislav O. Konorov, Vladimir P. Mitrokhin, Andrei B. Fedotov, Applied Optics . 2004,第11期

机译：通过空心光子晶体光纤传输的1.06-μm辐射的皮秒脉冲对牙齿组织进行激光消融
4. LASER GYROS FREQUENCY BIASING AND FIBER OPTIC GYROS PHASE BIASING: SIMILARITIES AND DIFFERENCES [C] . N.I. Krobka, D.A. Turkin Saint Petersburg International Conference on Integrated Navigation Systems . 2017

机译：激光陀螺频率偏置和光纤陀螺阶段偏置：相似性和差异
5. Gas discharge in hollow-core fibers and its application in waveguide gas lasers. [D] . Shi, Xin. 2009

机译：中空纤维中的气体放电及其在波导气体激光器中的应用。
6. All-Fiber Tunable Pulsed 1.7 μm Fiber Lasers Based on Stimulated Raman Scattering of Hydrogen Molecules in Hollow-Core Fibers [O] . Wenxi Pei, Hao Li, Wei Huang, 2021

机译：全纤维可调脉冲1.7μm光纤激光器基于刺激拉曼散射在空心芯纤维中的氢分子散射
7. Realization of Hollow-Core Photonic-Crystal Fiber Optic Gyro Based on Low-Noise Multi-Frequency Lasers with Intermediate-Frequency Difference [O] . Hongchen Jiao, Lishuang Feng, Qingjun Zhang, 2020

机译：基于低噪声多频激光具有中频差的空心光子光子晶光学陀螺仪的实现

Realization of Hollow-Core Photonic-Crystal Fiber Optic Gyro Based on Low-Noise Multi-Frequency Lasers with Intermediate-Frequency Difference

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