Suppression of Double Rayleigh Scattering-Induced Excess Noise in Remotely Interrogated Fiber-Optic Interferometric Sensors

G. A. Cranch; A. Dandridge; C. K. Kirkendall

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Suppression of Double Rayleigh Scattering-Induced Excess Noise in Remotely Interrogated Fiber-Optic Interferometric Sensors

机译：远程询问光纤干涉传感器中双瑞利散射引起的多余噪声的抑制

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This letter describes experimental observations of excess noise due to coherent double Rayleigh scattering in the input fiber of a remotely interrogated fiber-optic interferometric sensor. This noise source is generally only observable when a high coherence length laser is used to interrogate the sensor and the fiber length connecting the sensor is in excess of ～10 km. We present a simplified model to explain how this noise source affects the sensor resolution and demonstrate a method based on laser source modulation to reduce this noise by ～20 dB in a fiber-optic Michelson interferometric sensor with a 25-km input fiber, at frequencies less than 10 kHz.

机译：这封信描述了在远程询问的光纤干涉传感器的输入光纤中由于相干双瑞利散射引起的多余噪声的实验观察结果。通常只有在使用高相干长度激光探询传感器并且连接传感器的光纤长度超过〜10 km时，才能观察到此噪声源。我们提供了一个简化模型来解释该噪声源如何影响传感器分辨率，并演示了一种基于激光源调制的方法，该方法可以在输入频率为25 km的光纤迈克尔逊干涉式传感器中以频率将噪声降低约20 dB。小于10 kHz。

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来源
《IEEE Photonics Technology Letters》 |2003年第11期|p.1582-1584|共3页
作者
G. A. Cranch; A. Dandridge; C. K. Kirkendall;
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作者单位

Naval Research Laboratory, Washington, DC 20375 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类光电子技术、激光技术;
关键词
Fiber-optic interferometric sensor; noise; optical hydrophone; Rayleigh scattering;

机译：光纤干涉传感器;噪声;光学水听器;瑞利散射;

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专利

1. Large-scale remotely interrogated arrays of fiber-optic interferometric sensors for underwater acoustic applications [J] . Cranch G.A., Nash P.J., Kirkendall C.K. IEEE sensors journal . 2003,第1期

机译：适用于水下声学应用的大规模干涉式光纤干涉传感器阵列
2. Large-Scale Remotely Pumped and Interrogated Fiber-Optic Interferometric Sensor Array [J] . G. A. Cranch, C. K. Kirkendall, K. Daley, IEEE Photonics Technology Letters . 2003,第11期

机译：大规模远程泵浦和询问光纤干涉传感器阵列
3. Common-Mode Noise Suppression Technique in Interferometric Fiber-Optic Sensors [J] . Liu Fei, Xie Shangran, Gu Lijuan, Journal of Lightwave Technology . 2019,第21期

机译：干涉式光纤传感器中的共模噪声抑制技术
4. Interrogation of a fiber-optic interferometric sensor over 166km using a remotely pumped EDFA and distributed Raman amplification [C] . Geoffrey A. Cranch, Clay K. Kirkendall, SPIE-The International Society for Optical Engineering, European Workshop on Optical Fibre Sensors . 2004

机译：使用远程泵送的EDFA和分布式拉曼放大器询问光纤干涉传感器超过166km
5. High-Sensitivity Thermally Stable Interferometric Acoustic Sensors and Fiber-Optic Sensor Networks for Remote Sensing Applications [D] . Akkaya, Onur Can. 2012

机译：用于遥感应用的高灵敏度热稳定的干涉式声学传感器和光纤传感器网络
6. Silicone Rubber Based Highly Sensitive Fiber-Optic Fabry–Perot Interferometric Gas Pressure Sensor [O] . Xin Cheng, Jitendra Narayan Dash, Dinusha Serandi Gunawardena, 2020

机译：硅胶基橡胶高敏感光纤法布里 - 珀罗干涉气体压力传感器
7. Two-Port Noise Suppression in Dual-Polarization Interferometric Fiber-Optic Gyroscope [O] . Pei Li, Yulin Li, Fangyuan Chen, 2019

机译：双偏振干涉纤维 - 光学陀螺仪中的双端口噪声抑制

Suppression of Double Rayleigh Scattering-Induced Excess Noise in Remotely Interrogated Fiber-Optic Interferometric Sensors

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