Fang Bo, Zhao Weixiong, Xu Xuezhe, Zhou Jiacheng, Ma Xiao, Wang Shuo, Zhang Weijun, Venables Dean S, Chen Weidong
Opt Express. 2017 Oct 30;25(22):26910-26922. doi: 10.1364/OE.25.026910.
This article describes the development and field application of a portable broadband cavity enhanced spectrometer (BBCES) operating in the spectral range of 440-480 nm for sensitive, real-time, in situ measurement of ambient glyoxal (CHOCHO) and nitrogen dioxide (NO). The instrument utilized a custom cage system in which the same SMA collimators were used in the transmitter and receiver units for coupling the LED light into the cavity and collecting the light transmitted through the cavity. This configuration realised a compact and stable optical system that could be easily aligned. The dimensions and mass of the optical layer were 676 × 74 × 86 mm and 4.5 kg, respectively. The cavity base length was about 42 cm. The mirror reflectivity at λ = 460 nm was determined to be 0.9998, giving an effective absorption pathlength of 2.26 km. The demonstrated measurement precisions (1σ) over 60 s were 28 and 50 pptv for CHOCHO and NO and the respective accuracies were 5% and 4%. By applying a Kalman adaptive filter to the retrieved concentrations, the measurement precisions of CHOCHO and NO were improved to 8 pptv and 40 pptv in 21 s.
本文介绍了一种便携式宽带腔增强光谱仪(BBCES)的研制及其现场应用,该光谱仪工作在440-480nm光谱范围内,用于灵敏、实时、原位测量环境中的乙二醛(CHOCHO)和二氧化氮(NO)。该仪器采用了一种定制的笼式系统,其中发射单元和接收单元使用相同的SMA准直器,用于将LED光耦合到腔内并收集透过腔的光。这种配置实现了一个紧凑且稳定的光学系统,易于对准。光学层的尺寸和质量分别为676×74×86mm和4.5kg。腔的基部长度约为42cm。在λ=460nm处的镜面反射率测定为0.9998,有效吸收光程为2.26km。在60s内,乙二醛和二氧化氮的测量精度(1σ)分别为28和50pptv,各自的准确度分别为5%和4%。通过对反演浓度应用卡尔曼自适应滤波器,在21s内乙二醛和二氧化氮的测量精度提高到了8pptv和40pptv。
