Realization of a fiber optic sensor detecting the presence of a liquid

Scientific Conference on Optical and Electronic Sensors Pub Date : 2016-11-10 DOI:10.1117/12.2245777

B. Guzowski, M. Łakomski, K. Nowogrodzki

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Abstract

Over the past thirty years, optical fibers have revolutionized the telecommunication market. Fiber optics play also important roles in other numerous applications. One of these applications is fiber sensing – very fast developing area. In this paper, realization of different configurations of a fiber optic sensor detecting the presence of liquid is presented. In the presented sensor, two multimode fibers (MMF) are placed opposite each other, where the first one transmits the light radiation, while the second one is a receiver. Due to the small size of the core (50 μm diameter), they had to be precisely positioned. Therefore the optical fibers were placed in the etched channels in the silicon substrate. In order to make sensors more sensitive, ball-lensed optical fibers were used. Four different diameters of lenses were examined. Sensitivity to the presence of liquids was compared in all realized sensors. Moreover, the influence of distance between the transmitting and receiving optical fiber on the received optical power is also described in this paper. All developed sensors were tested at 1300 nm wavelength. In the last part of this paper the detailed discussion is given.

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一种检测液体存在的光纤传感器的实现

在过去的三十年里，光纤已经彻底改变了电信市场。光纤在其他众多应用中也发挥着重要作用。其中一个应用是光纤传感，这是一个发展非常迅速的领域。本文介绍了一种检测液体存在的光纤传感器的不同结构的实现。在该传感器中，两根多模光纤(MMF)相对放置，其中第一根传输光辐射，而第二根作为接收器。由于芯的尺寸很小(直径50 μm)，因此必须精确定位。因此，光纤被放置在硅衬底的蚀刻通道中。为了使传感器更灵敏，使用了球透镜光纤。研究了四种不同直径的透镜。在所有实现的传感器中比较了对液体存在的灵敏度。此外，本文还讨论了发射和接收光纤之间的距离对接收光功率的影响。所有研制的传感器都在1300 nm波长下进行了测试。在本文的最后一部分，对这一问题进行了详细的讨论。

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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Scientific Conference on Optical and Electronic Sensors

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