摘要
为了更准确地分析空域无源光纤腔衰荡乙炔体积分数检测系统,建立了考虑系统噪声的气体体积分数传感理论模型。采用该模型对空域无源光纤腔衰荡乙炔体积分数检测系统的性能进行了仿真和讨论。结果表明,利用空域无源光纤腔衰荡传感技术,通过测量衰荡距离,可实现灵敏度高达56.226 km^(-1)的乙炔体积分数的测量,稳定性达0.47%,检测极限达260.577×10^(-6),且稳定性和检测极限还可通过减少光纤腔的固有腔损耗得到进一步的提高。此研究对于体积分数传感系统的优化设计应用具有理论指导意义。
In order to analyze space-domain passive fiber cavity ring-down acetylene gas volume fraction detection system more accurately,a theoretical model of gas volume fraction sensing system considering system noise was established in this paper.The performance of space-domain passive fiber cavity ring-down acetylene gas volume fraction detection system was simulated and discussed by using this model.Simulation results show that,by using the space-domain passive fiber cavity ring-down sensing technology,the acetylene volume fraction can be monitored by measuring the ring-down distance and the sensitivity of 56.226 km^(-1) is achieved,the corresponding stability and detection limit can reach 0.47%and 260.577×10^(-6),which can be further improved by reducing the inherent cavity loss of the fiber cavity.This research has theoretical significance for the optimization design of volume fraction sensing system.
作者
闵锐
成纯富
贺洁
MIN Rui;CHENG Chunfu;HE Jie(School of Science,Hubei University of Technology,Wuhan 430068,China)
出处
《激光技术》
CAS
CSCD
北大核心
2023年第3期366-371,共6页
Laser Technology
基金
国家自然科学基金资助项目(61805075,61475044)。
关键词
传感器技术
体积分数
空域无源光纤腔衰荡传感系统
频移干涉
灵敏度
sensor technique
volume fraction
space-domain passive fiber cavity ring-down sensing system
frequency-shifted interferometry
sensitivity
