A numerical and experimental study of the remote long-period grating fiber sensor with Raman Amplification

2015 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference (IMOC) Pub Date : 2015-11-01 DOI:10.1109/IMOC.2015.7369123

Thiago V. N. Coelho, M. J. Pontes, J. L. Santos, A. D. dos Santos, Daniel D. Silveira, Vinicius N. H. Silva, A. P. Lopez Barbero, F. Delgado, Presley X. Neto

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引用次数: 3

Abstract

In this paper, we analyze numerically and experimentally a remote optical sensor system based on Raman Amplification, composed by one long period grating operating as a sensor head separated by 50 km from the optical source and the interrogation unit composed by two fiber Bragg gratings. Since the active components of the system and the sensor head are separated over such a large distance, it is necessary to consider optical amplification to strengthen the optical signal. The use of Raman amplification allows reaching the desirable gain bandwidth by changing the pump lasers parameters such as the power, number of pumps and spectral position. We present the obtained measurement results of the environmental temperature for two different setups that was analyzed a priori by the numerical model. We show that the power ratio between the two central wavelengths of the FBG has a linear relation with the change of LPG resonance with temperature.

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远距离拉曼放大长周期光栅光纤传感器的数值与实验研究

本文对一种基于拉曼放大的远程光学传感器系统进行了数值和实验分析，该系统由一个长周期光栅作为传感器头，与光源相距50 km，由两个光纤布拉格光栅组成的询问单元组成。由于系统的有源元件与传感器头的距离较远，因此需要考虑光放大来增强光信号。利用拉曼放大可以通过改变泵浦激光器的参数(如功率、泵浦数量和光谱位置)来达到理想的增益带宽。本文给出了两种不同装置的环境温度测量结果，并通过数值模型进行了先验分析。结果表明，光纤光栅两个中心波长之间的功率比与LPG共振随温度的变化呈线性关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 SBMO/IEEE MTT-S International Microwave and Optoelectronics Conference (IMOC)

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