Zemax-Based Optimum Structural Design of Probe of an Optical-Fiber Sensor

Q4 Engineering

Transactions of Nanjing University of Aeronautics and Astronautics Pub Date : 2018-05-18 DOI:10.16356/j.1005-1120.2018.02.309

Hang Tianyuan, W. Xiaolei, Liu Feng, Ye Song, Cheng Zhentao

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Abstract

Bubble plumes are important during the process of air-sea exchange, and optical-fiber phase detection is a suitable way to observe bubble plumes entrained by breaking waves. This paper designs a new optical-fiber probe (OFP) made of sapphire to overcome the limitations of existing materials (e.g., high brittleness, poor corrosion resistance, and narrow bandwidth) and thereby enhance the detection performance of the OFP by improving its structure. Based on total internal reflection and light refraction, a simulation model of the probe is established in the Zemax optical design software to optimize the probe tip and matching mode of the two probe tips. The results show that the optimum OFP tip is a conical sapphire one with a cone angle of 35°. Tests are then conducted on a bespoke OFP sensor, the results of which are consistent with those predicted theoretically. The simulation results lay the foundation for the integrated design of OFP sensors and the optimization of their internal optics. The findings could also be applied to OFPs with multiple tips.

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基于zemax的光纤传感器探头结构优化设计

气泡羽流在海气交换过程中非常重要，光纤相位检测是观测破碎波携带气泡羽流的合适方法。本文设计了一种由蓝宝石制成的新型光纤探针（OFP），以克服现有材料的局限性（如高脆性、耐腐蚀性差和带宽窄），从而通过改进其结构来提高OFP的检测性能。基于全内反射和光折射，在Zemax光学设计软件中建立了探针的仿真模型，以优化探针尖端和两个探针尖端的匹配模式。结果表明，最佳的OFP尖端是锥形蓝宝石尖端，锥角为35°。然后在定制的OFP传感器上进行测试，其结果与理论预测的结果一致。仿真结果为OFP传感器的集成设计及其内部光学器件的优化奠定了基础。这些发现也可以应用于具有多个提示的OFP。

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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来源期刊

Transactions of Nanjing University of Aeronautics and Astronautics Engineering-Aerospace Engineering

CiteScore

1.20

自引率

0.00%

发文量