Photonic crystal fiber gas sensor for using in optical network protection systems

Ali R. Naraghi, S. Olyaee, A. Najibi, E. Leitgeb
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引用次数: 10

Abstract

A new design of photonic crystal fiber based on octagonal array of air holes in the silica background is proposed for using as a sensor node in the optical network protection system of gas pipelines. The aim of our design is achieving more sensitivity and lowering the confinement loss. In addition, introducing a hollow high index ring with an air hole in the center of fiber simultaneously enhances the relative sensitivity and achieves low confinement loss. The dependence of sensing properties on the fiber parameters is numerically investigated by finite element method (FEM). We achieve the optimum design that has the relative sensitivity of 9.33% and the confinement loss of 6.8×10-4 dB/m, at wavelength of λ=1.5μm. The results prove the ability of the proposed fiber in the optical wireless sensor networks as a gas or liquid sensor nod.
用于光网络保护系统的光子晶体光纤气体传感器
提出了一种基于二氧化硅背景上气孔八角形阵列的光子晶体光纤的设计方案,用于燃气管道光网络保护系统的传感节点。我们设计的目的是实现更高的灵敏度和降低约束损耗。此外,在光纤中心引入中空的带气孔的高折射率环,在提高相对灵敏度的同时实现了较低的约束损耗。采用有限元法对光纤传感特性与光纤参数的关系进行了数值研究。在λ=1.5μm波长处,相对灵敏度为9.33%,约束损耗为6.8×10-4 dB/m。实验结果证明了该光纤在光纤无线传感器网络中作为气体或液体传感器节点的能力。
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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