Highly Birefringence Photonic Crystal Fiber: A New Frontier to Optical Pressure Sensor

2020 Emerging Technology in Computing, Communication and Electronics (ETCCE) Pub Date : 2020-12-21 DOI:10.1109/ETCCE51779.2020.9350880

Tanvir Ahmad, M. Abidin, N. Saidin

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Abstract

Photonic Crystal Fiber (PCF) is one of the latest inventions in the field of fiber optics where research concentrates on one of the emerging field in PCF family which is sensor. Most of the PCF are fabricated with lots of airholes arranged in a structured way with four or five or six layers of airholes surrounded the central region of the fiber. The primary focus of the study is to design a relatively simple structure PCF sensor which requires less design complexity and easy for fabrication. The proposed design in the study has three different pairs of airholes with different diameter which has similarity with conventional PANDA type fiber. Birefringence used as the prime factor in this research to detect pressure. For achieving high birefringence, the geometry of symmetry breaking of the fiber structure method is applied here. Breaking more symmetry brings more birefringence. The sensing analysis using birefringence is covered in the study and it provides a meaningful response wavelength shifting from operating wavelength. From the design proposed in the study, birefringence achieved is as high as 1.4×10−2 which is highest as far as known. The maximum sensitivity achieved for a certain design parameter is 38.95 nm/MPa for 1mm long PCF.

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高双折射光子晶体光纤:光学压力传感器的新前沿

光子晶体光纤(PCF)是光纤领域的最新发明之一，其研究重点是光子晶体光纤家族中的新兴领域之一——传感器。大多数PCF是由大量的气孔以一种结构化的方式排列而成的，四层或五层或六层气孔围绕着纤维的中心区域。研究的重点是设计一种结构相对简单的PCF传感器，其设计复杂度较低且易于制造。本研究提出的设计具有三对不同直径的不同气孔，与传统的PANDA型纤维相似。在本研究中，双折射被用作检测压力的主要因素。为了实现高双折射，本文采用了光纤结构法的对称破缺几何原理。打破更多的对称性会带来更多的双折射。研究涵盖了双折射的传感分析，它提供了一个有意义的响应波长从工作波长偏移。从本研究提出的设计来看，实现的双折射高达1.4×10−2，是目前已知的最高双折射。对于1mm长的PCF，在一定的设计参数下获得的最大灵敏度为38.95 nm/MPa。

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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2020 Emerging Technology in Computing, Communication and Electronics (ETCCE)

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