A new method for air quality observation based on ultraviolet laser

SPIE/SIOM Pacific Rim Laser Damage Pub Date : 2019-07-08 DOI:10.1117/12.2539999

Siying Chen, Baowei Li, He Chen, Yinchao Zhang, Pan Guo, Xunbao Rui, Ting Li

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Abstract

A lidar based on UV laser is developed to observe air quality in Beijing. The initial laser wavelength is 1064 nm, and an emission wavelength of 355 nm is obtained after the second-harmonic generation and third-harmonic generation. The output energy is 30 mJ/pulse, and the pulse width is 7 ns. Echo signals are collected by a 304.8 mm diameter Newtonian telescope. With high-power ultraviolet laser excitation, the intensity of atmospheric pollutants is studied by the laserinduced fluorescence (LIF). The Mie scattering is detected simultaneously and both signals are detected by the photomultiplier tubes (PMT). The system is calibrated by a series of experiments. The aerosol extinction coefficient retrieved by Mie signal from this system agrees well with that from another lidar with a laser wavelength of 532 nm. The fluorescence efficiency of atmospheric pollutants are obtained by calculating the fluorescence-to-Mie ratio (FMR). The time and spatial resolution of the system are 5 s and 7.5 m, respectively. The continuous change of air quality over a period of time is studied by the mean value of FMR. Many observations are carried out under different air quality conditions, and the experimental results are in good agreement with the results of the ground observation station. In summary, this method based on UV laser is feasible in the field of atmospheric remote sensing and have potential applications in the field of air quality monitoring.

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一种基于紫外激光的空气质量观测新方法

研制了一种基于紫外激光的激光雷达，用于监测北京地区的空气质量。初始激光波长为1064nm，经过二次谐波和三次谐波产生后，得到355nm的发射波长。输出能量为30 mJ/脉冲，脉冲宽度为7 ns。回波信号由直径304.8 mm的牛顿望远镜采集。在高功率紫外激光激发下，利用激光诱导荧光(LIF)技术研究了大气污染物的强度。利用光电倍增管(PMT)同时检测Mie散射信号。该系统通过一系列实验进行校准。该系统的Mie信号反演的气溶胶消光系数与另一台波长为532 nm的激光雷达的消光系数吻合较好。通过计算荧光-米氏比(FMR)，得到大气污染物的荧光效率。系统的时间分辨率为5 s，空间分辨率为7.5 m。利用FMR均值研究了一段时间内空气质量的连续变化。在不同空气质量条件下进行了多次观测，实验结果与地面观测站的观测结果吻合较好。综上所述，基于紫外激光的方法在大气遥感领域是可行的，在空气质量监测领域具有潜在的应用前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SPIE/SIOM Pacific Rim Laser Damage

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