光声光谱学
化学
放大器
生物医学中的光声成像
光声效应
激光器
光谱学
拉曼光谱
检出限
共振(粒子物理)
二极管
分析化学(期刊)
光电子学
激发
信号(编程语言)
光学
功率(物理)
光纤
纤维
甲烷
拉曼散射
亥姆霍兹谐振器
光纤激光器
激光功率缩放
可调谐激光器
谐振器
作者
Chu Zhang,Xiaorong Sun,Ying He,Shunda Qiao,Lixian Liu,Andreas Mandelis,Yufei Ma
标识
DOI:10.1021/acs.analchem.5c05475
摘要
In this paper, a highly sensitive methane (CH 4 ) and ammonia (NH 3 ) dual-gas photoacoustic spectroscopy (PAS) gas sensor based on a dual-path high-spot-density multipass cell (MPC) and dual-frequency photoacoustic cell (PAC) was demonstrated for the first time. A dual-path MPC mathematical model was established to achieve multiple independent rings and 223 excitations of dual gases. In order to integrate with the MPC more conveniently, the designed dual-frequency PAC was used to excite the Helmholtz resonance mode. A Raman fiber amplifier (RFA) and an erbium-doped fiber amplifier (EDFA) were employed to amplify the output power of the two diode lasers to enhance the excitation intensity. The experimental results indicated that when the output power was set as 50 and 300 mW, respectively, the 2 f signals for CH 4 and NH 3 detection with the high-spot-density MPC showed 41.91-fold and 41.30-fold enhancements compared to the system without MPC, demonstrating significant performance improvement. The minimum detection limits (MDLs) of CH 4 and NH 3 were found to be 65 and 374 ppb, respectively, when the average time of the CH 4 /NH 3 –PAS dual-gas sensor was 1000 s.
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