High-Power DFB Diode Laser-Based CO-QEPAS Sensor: Optimization and Performance

机译：基于大功率DFB二极管激光器的CO-QEPAS传感器：优化和性能

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摘要

A highly sensitive carbon monoxide (CO) trace gas sensor based on quartz-enhanced photoacoustic spectroscopy (QEPAS) was demonstrated. A high-power distributed feedback (DFB), continuous wave (CW) 2.33 μm diode laser with an 8.8 mW output power was used as the QEPAS excitation source. By optimizing the modulation depth and adding an optimum micro-resonator, compared to a bare quartz tuning fork (QTF), a 10-fold enhancement of the CO-QEPAS signal amplitude was achieved. When water vapor acting as a vibrational transfer catalyst was added to the target gas, the signal was further increased by a factor of ~7. A minimum detection limit (MDL) of 11.2 ppm and a calculated normalized noise equivalent absorption (NNEA) coefficient of 1.8 × 10⁻⁵ cm⁻¹W/√Hz were obtained for the reported CO-QEPAS sensor.

机译：演示了基于石英增强光声光谱法（QEPAS）的高灵敏度一氧化碳（CO）痕量气体传感器。高功率分布反馈（DFB），连续波（CW）2.33μm二极管激光器（输出功率为8.8 mW）被用作QEPAS激发源。与裸石英音叉（QTF）相比，通过优化调制深度并添加最佳的微谐振器，CO-QEPAS信号幅度提高了10倍。当将作为振动传递催化剂的水蒸气添加到目标气体中时，信号进一步增加了约7倍。获得的最小检出限（MDL）为11.2 ppm，并且计算出的归一化噪声当量吸收（NNEA）系数为1.8×10 ^{-5 cm ^{-1 W /√Hz用于报告的CO-QEPAS传感器。}}

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期刊名称 Sensors (Basel Switzerland)
作者
Yufei Ma; Yao Tong; Ying He; Xin Yu; Frank K. Tittel;
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作者单位

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年(卷),期 2018(18),1
年度 2018
页码 122
总页数 8
原文格式 PDF
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关键词
QEPAS carbon monoxide high power diode laser gas sensor;

机译：QEPAS;一氧化碳;大功率二极管激光器;气体传感器;
入库时间 2022-08-17 12:49:52

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专利

1. CW DFB RT diode laser-based sensor for trace-gas detection of ethane using a novel compact multipass gas absorption cell [J] . Karol Krzempek, Mohammad Jahjah, Rafal Lewicki, Applied physics . 2013,第4期

机译：基于CW DFB RT二极管激光的传感器，使用新型紧凑型多程气体吸收池检测乙烷中的痕量气体
2. Optimization of 780 nm DFB diode lasers for high-power narrow linewidth emission [J] . T.-P. Nguyen, M. Schiemangk, S. Spiessberger, Applied physics . 2012,第4期

机译：优化780 nm DFB二极管激光器以实现大功率窄线宽发射
3. Thermal Performance Analysis and Optimization of Microjet Cooling of High-Power Light-Emitting Diodes [J] . Afzal Husain, Sun-Min Kim, Jun-Hee Kim, Journal of Thermophysics and Heat Transfer . 2013,第2期

机译：大功率发光二极管微射流冷却的热性能分析和优化
4. Blue high-power InGaN semiconductor laser diodes: Design optimization of laser bars and single emitters for best performance and reliability [C] . Harald Koenig, Sven Gerhard, Muhammad Ali, Conference on High-Power Diode Laser Technology . 2020

机译：蓝色大功率InGaN半导体激光二极管：优化激光条和单发射器，以实现最佳性能和可靠性
5. Study of phase-locked diode laser array and DFB/DBR surface emitting laser diode [D] . Hsin, Wei. 1990

机译：锁相二极管激光阵列和DFB / DBR表面发射二极管的研究
6. Immunity to Laser Power Variation in a DFB Diode Laser Based Optical Gas Sensor Using a Division Process [O] . Hengtai Chang, Jun Chang, Qingjie Huang, 2015

机译：在基于DFB二极管激光器的光学气体传感器中使用分工过程来抵抗激光器功率变化
7. High-Power DFB Diode Laser-Based CO-QEPAS Sensor: Optimization and Performance [O] . Yufei Ma, Yao Tong, Ying He, 2018

机译：基于高功率DFB二极管激光的CO-QEpas传感器：优化和性能
8. CW Performance of an InGaAs-GaAs-AlGaAs Laterally-Coupled Distributed Feedback (LC-DFB) Ridge Laser Diode [R] . Martin, R. D. , Forouhar, S. , Keo, S. , 1995

机译：InGaas-Gaas-alGaas横向耦合分布反馈（LC-DFB）脊形激光二极管的CW性能

High-Power DFB Diode Laser-Based CO-QEPAS Sensor: Optimization and Performance

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