提高apoed光纤光栅测温灵敏度的研究

IF 1.1 4区物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY

Physics of Wave Phenomena Pub Date : 2023-08-30 DOI:10.3103/S1541308X23040039

Himadri Nirjhar Mandal, Soumya Sidhishwari

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引用次数: 0

摘要

设计了一种apodized光纤布拉格光栅(FBG)，以获得反射光谱上最小数量的侧瓣，从而有效地估计温度灵敏度。裸FBG不能在复杂环境中作为温度传感的合适选择，因为它由二氧化硅组成，其热膨胀系数非常低。为了提高光纤光栅的温度灵敏度，在设计的光电光栅上涂覆了热膨胀系数高于二氧化硅的各种材料。在这项模拟工作中，钛、镍、金、铜、银、铝、铅、铟、聚碳酸酯、PMMA和聚酰胺被涂覆在去电FBG上，以估计在25至75°C的温度范围内增强的灵敏度。仿真结果表明，聚酰胺涂层光纤光栅对温度的敏感性高于其他涂层材料。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Sensitivity Enhancement of Apodized Fiber Bragg Grating for Temperature Measurement

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Sensitivity Enhancement of Apodized Fiber Bragg Grating for Temperature Measurement

An apodized Fiber Bragg Grating (FBG) is designed to obtain minimal quantity of side lobes on the reflection spectrum for effective estimation of temperature sensitivity. Bare FBG cannot be implemented as a suitable option for sensing of temperature in a complex environment because it is composed of silica, which has a very low thermal expansion coefficient. Different kinds of materials having thermal expansion coefficients higher than silica are coated on designed apodized FBG to improve the sensitivity of temperature for the FBG. In this simulation work, titanium, nickel, gold, copper, silver, aluminum, lead, indium, polycarbonate, PMMA, and polyamide are coated on the apodized FBG to estimate the enhanced sensitivity for the temperature range of 25 to 75°C. The simulation results illustrated that the sensitivity of temperature for polyamide-coated FBG is highest than other coating materials.

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来源期刊

Physics of Wave Phenomena PHYSICS, MULTIDISCIPLINARY-

CiteScore

2.50

自引率

21.40%

发文量

审稿时长

>12 weeks

期刊介绍： Physics of Wave Phenomena publishes original contributions in general and nonlinear wave theory, original experimental results in optics, acoustics and radiophysics. The fields of physics represented in this journal include nonlinear optics, acoustics, and radiophysics; nonlinear effects of any nature including nonlinear dynamics and chaos; phase transitions including light- and sound-induced; laser physics; optical and other spectroscopies; new instruments, methods, and measurements of wave and oscillatory processes; remote sensing of waves in natural media; wave interactions in biophysics, econophysics and other cross-disciplinary areas.