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Optical-feedback cavity-enhanced absorption spectroscopy for OH radical detection at 2.8 µm using a DFB diode laser

Yang, Nana ; Fang, Bo ; Zhao, Weixiong ; Wang, Chunhui ; Cheng, Feihu ; Hu, Xiao ; Chen, Yang ; Zhang, Weijun ; Ma, Weiguang ; Zhao, Gang ; Chen, Weidong

Optics express, 2022-04, Vol.30 (9), p.15238-15249 [Periódico revisado por pares]

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Título:
Optical-feedback cavity-enhanced absorption spectroscopy for OH radical detection at 2.8 µm using a DFB diode laser
Autor: Yang, Nana ; Fang, Bo ; Zhao, Weixiong ; Wang, Chunhui ; Cheng, Feihu ; Hu, Xiao ; Chen, Yang ; Zhang, Weijun ; Ma, Weiguang ; Zhao, Gang ; Chen, Weidong
Assuntos: Physics
É parte de: Optics express, 2022-04, Vol.30 (9), p.15238-15249
Notas: ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
Descrição: We report the development of an optical-feedback cavity-enhanced absorption spectroscopy (OF-CEAS) instrument for OH detection at 2.8 μm using a DFB diode laser. Two different approaches, symmetry analysis and wavelength modulation, were performed to achieve laser frequency locking to the cavity mode. Compared with the symmetry analysis method, the wavelength modulation method continuously locked the laser frequency to the cavity mode and eliminated decoupling the laser from the cavity mode. A detection sensitivity of 1.7×10 cm was achieved in a 25 s sampling time and was about 3 times better than that of the symmetry analysis method. The corresponding OH detection limit was ∼ 2×10 molecule/cm . Further improvement can be achieved by using higher reflectivity mirrors and other high-sensitivity approaches, such as frequency modulation spectroscopy and Faraday rotation spectroscopy.
Editor: United States: Optical Society of America - OSA Publishing
Idioma: Inglês

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