Methane sensing using multiple-coupling gaps in hollow-core photonic bandgap fibers

机译：在空心芯光子带隙纤维中使用多耦合间隙的甲烷感测

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Gas detection and gas sensing based on hollow core photonic bandgap fiber (HC-PBF) is a very promising technique due to the long interaction light-gas lengths that are achievable. However, long path-lengths also imply higher gas filling times of the hollow fiber and higher response times of the detection systems what can constitute a serious practical inconvenience. In this paper, the high sensitivity is maintained but the sensor response time is reduced by using multiplecoupling fiber gaps. The results and conclusions extracted from a systematic experimental study (comparing the spectra and filling time of different HC-PBF lengths and different number of coupling gaps) are presented and discussed. Finally, the maximum number of gaps allowed in the system is modelled.

机译：基于中空核心光子带隙纤维（HC-PBF）的气体检测和气体检测是由于可实现的长的相互作用光气长度而具有非常有前途的技术。然而，长路径长度也暗示中空纤维的气体填充时间较高，并且检测系统的响应时间更高，可以构成严重的实际不便。在本文中，维持高灵敏度，但通过使用多加弓光纤间隙来减少传感器响应时间。提出并讨论了从系统实验研究中提取的结果和结论（比较了不同HC-PBF长度的光谱和耦合间隙的填充时间）。最后，系统中允许的最大间隙数为模拟。

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《International Conference on Optical Fiber Sensors》|2008年||共4页
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作者
J. M. Lazaro; A. M. Cubillas; M. Silva-Lopez; 0. M. Conde; M. Petrovich; J. M. Lopez-Higuera;
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中图分类 N-532;
关键词
Hollow-core photonic bandgap fibers; Multi-coupling gaps; Near-infrared Spectroscopy; Gas sensing; Methane;

机译：空心芯光子带隙纤维;多耦合间隙;近红外光谱;气体传感;甲烷;

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专利

1. AN ALL-FIBER GAS SENSING SYSTEM USING HOLLOW-CORE PHOTONIC BANDGAP FIBER AS GAS CELL [J] . Hui Ding, Xianli Li, Junhong Cui, Instrumentation science & technology: Designs and applications for chemistry, biotechnology, and environmental science . 2011,第1期

机译：使用中空光子带隙光纤作为气体池的全纤维气体传感系统
2. AN ALL-FIBER GAS SENSING SYSTEM USING HOLLOW-CORE PHOTONIC BANDGAP FIBER AS GAS CELL [J] . Hui Dinga* Xianli Lia Junhong Cuia Le Yanga, Shaofei Donga Instrumentation Science & Technology . 2011,第1期

机译：以空心光子带隙光纤作为气体池的全纤维气体传感系统
3. Sensing with hollow-core photonic bandgap fibers [J] . W Jin, H F Xuan, H L Ho Measurement Science & Technology . 2010,第9期

机译：空心光子带隙光纤的传感
4. Methane sensing using multiple-coupling gaps in hollow-core photonic bandgap fibers [C] . J. M. Lazaro, A. M. Cubillas, M. Silva-Lopez, International Conference on Optical Fibre Sensors . 2008

机译：使用空心光子带隙光纤中的多重耦合间隙进行甲烷检测
5. Photonic bandgap fibers for transverse strain sensing. [D] . Van Vickle, Patrick Stephen. 2008

机译：用于横向应变传感的光子带隙光纤。
6. Multi-Line Fit Model for the Detection of Methane at ν2 + 2ν3 Band using Hollow-Core Photonic Bandgap Fibres [O] . Ana M. Cubillas, Jose M. Lazaro, Olga M. Conde, 2009

机译：中空光子带隙光纤在ν2+2ν3波段检测甲烷的多线拟合模型
7. Methane sensing using multiple-coupling gaps in hollow-core photonic bandgap fibers [O] . Lázaro Urrutia, José Miguel, Cubillas de Cos, Ana María, Silva López, Manuel, 2008

机译：使用空心光子带隙光纤中的多重耦合间隙进行甲烷检测

Methane sensing using multiple-coupling gaps in hollow-core photonic bandgap fibers

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