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High sensitivity gas detection using Hollow Core Photonic Bandgap Fibres designed for mid-IR operation

机译：使用为中红外操作设计的中空光子带隙光纤进行高灵敏度气体检测

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We report on the use of novel low loss Hollow Core Photonic Bandgap Fibres (HC-PBGFs) operating in the mid-IR for broadband absorption measurements of low-level concentrations of Acetylene and Ethane gas around 3 and 3.3 µm, respectively. The availability of improved HC-PBGFs operating in the 3–3.6 µm wavelength range with ∼0.05–0.1 dB/m loss enables accessing the strongest fundamental ro-vibrational bands (e.g. C-H, O-H, N-H), thus opening up the possibility of absorption based gas sensing with much higher sensitivity than has been demonstrated to date utilizing fibres optimized for near-IR operation. We present for the first time spectroscopic absorption measurements of CH at ∼3.05 µm (2.5 vol% concentration) and of CH at 3.35 µm (50 ppmV concentration) using HC-PBGF cells. Results indicate that sub-ppm sensitivities can easily be achieved using fiber lengths of a few meters and simple detection schemes.

机译：我们报告了在中红外工作的新型低损耗中空空心光子带隙光纤（HC-PBGF）在宽带吸收中分别测量3和3.3 µm左右低浓度乙炔和乙烷气体的使用。改进的HC-PBGF在3–3.6 µm波长范围内工作，损耗为〜0.05–0.1 dB / m，可提供最强的基本振动频带（例如CH，OH，NH），从而为吸收开辟了可能性基于气体的传感技术，其灵敏度远高于迄今已证明的为近红外操作而优化的光纤。我们首次使用HC-PBGF细胞对〜3.05 µm（浓度为2.5％（体积））的CH和3.35 µm（浓度为50 ppmV）的CH进行光谱吸收测量。结果表明，使用几米长的光纤和简单的检测方案可以轻松实现亚ppm级的灵敏度。

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《IEEE Sensors》|2014年|891-894|共4页
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Petrovich Marco N.; Wheeler Natalie V.; Heidt Alexander M.; Baddela Naveen K.; Reza Sandoghchi S.; Chen Yong; Poletti Francesco; Richardson David J.;
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Absorption; Loss measurement; Optical fiber amplifiers; Optical fiber sensors; Wavelength measurement; Acetylene; Broadband Absorption Sensing; Chemical Sensing; Ethane; Hollow Core Bandgap Fibers; Microstructured Fibers; Mid Infrared;

机译：吸收;损耗测量;光纤放大器;光纤传感器;波长测量;乙炔;宽带吸收传感;化学传感;乙烷;中空带隙光纤;微结构光纤;中红外;

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1. Multi-Line Fit Model for the Detection of Methane at ν₂ + 2ν₃ Band using Hollow-Core Photonic Bandgap Fibres [J] . Ana M. Cubillas, Jose M. Lazaro, Jose M. Lopez-Higuera, Sensors . 2009,第1期

机译：中空光子带隙光纤在ν_{2 +2ν_{3 波段检测甲烷的多线拟合模型}}
2. Advanced confocal microscope using single hollow-core photonic bandgap fibre design [J] . D.H. Kim, J.U. Kang, I.K. Ilev Electronics Letters . 2007,第11期

机译：使用单中空光子带隙光纤设计的高级共焦显微镜
3. A High Sensitivity Chemical Vapor Sensor Based on Bandgap Shift Using a Hollow-Core Photonic Bandgap Fiber [J] . Chongke Ji, Chun-Liu Zhao, Juan Kang, Sensor Letters: A Journal Dedicated to all Aspects of Sensors in Science, Engineering, and Medicine . 2012,第7期

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4. High sensitivity methane and ethane detection using low-loss mid-IR hollow-core photonic bandgap fibers [C] . M. N. Petrovich, A. M. Heidt, N. V. Wheeler, International Conference on Optical Fibre Sensors . 2014

机译：使用低损耗中红外空心光子带隙光纤对甲烷和乙烷进行高灵敏度检测
5. Probing Nonlinear Optical Instabilities in Gas-Filled Hollow-Core Photonic Crystal Fibre =Untersuchung nichtlinearer optischer Instabilit?ten in gasgefüllten mikrostrukturierten Hohlkernfasern [D] . Suresh, Mallika Irene. 2020

机译：气体填充中空芯光子晶体纤维探测非线性光学稳定性=对气体填充微结构芯纤维中的非线性光学稳定性的研究
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

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7. High sensitivity gas sensing using hollow core photonic bandgap fibres designed for operation at mid-IR wavelengths [O] . Chen Yong, Petrovich M.N., Wheeler N.V., 100

机译：使用空心光子带隙光纤进行高灵敏度气体传感，设计用于中红外波长

High sensitivity gas detection using Hollow Core Photonic Bandgap Fibres designed for mid-IR operation

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