[1] I COLBECK, M LAZARIDIS. Aerosols and environmental pollution. Naturwissenschaften, 97, 117-131(2010).
[2] R CEOLATO, M J BERG. Aerosol light extinction and backscattering: A review with a lidar perspective. Journal of Quantitative Spectroscopy & Radiative Transfer, 262, 107492(2021).
[3] Y J KAUFMAN, D TANRE, O BOUCHER. A satellite view of aerosols in the climate system. Nature, 419, 215-223(2002).
[4] U POSCHL. Atmospheric aerosols: Composition, transformation, climate and health effects. Angewandte Chemie-International Edition, 44, 7520-7540(2005).
[5] Yun QIU, Lingjun LI, Lei JIANG et al. Analysis of a pollution process in the Beijing-Tianjin-Hebei region based on satellite and surface observations. Environmental Science, 40, 1111-1119(2019).
[6] Yu SONG, Xiaoyan TANG, Chen FANG et al. Source apportionment on fine particles in Beijing. Environmental Science, 23, 11-16(2002).
[7] Rujin HUANG, Yanlin ZHANG, Carlo BOZZETTI et al. High secondary aerosol contribution to particulate pollution during haze events in China. Nature, 514, 218-222(2014).
[8] Aohan TANG, Jingxian ZHAO, Wenxuan HAN et al. Progress on studies of the chemical characteristics of haze in Beijing. Journal of China Agricultural University, 18, 185-191(2013).
[9] Renchang YAN, Shaocai YU, Qingyu ZHANG et al. A heavy haze episode in Beijing in February of 2014: Characteristics, origins and implications. Atmospheric Pollution Research, 6, 867-876(2015).
[10] Kai QIN, Lixin WU, Mansing WONG et al. Trans-boundary aerosol transport during a winter haze episode in China revealed by ground-based Lidar and CALIPSO satellite. Atmospheric Environment, 141, 20-29(2016).
[11] Hao YANG, Chenbo XIE, Zhiyuan FANG et al. Joint observations of vertical distribution of aerosols in Hefei area by spaceborne and ground-based lidars. Chinese Journal of Lasers, 48, 0110001(2021).
[12] Min TAN, Chenbo XIE, Bangxin WANG et al. Correlation study on boundary layer height and particulate matter concentration at Beijing in winter 2014. Infrared and Laser engineering, 47, 0717007(2018).
[14] Zhiyuan FANG, Hao YANG, Ye CAO et al. Study of persistent pollution in Hefei during winter revealed by ground-based LiDAR and the CALIPSO Satellite. Sustainability, 13, 1-14(2021).
[15] Chaoyang ZHANG, Lin SU, Liangfu CHEN. Retrieval and analysis of aerosol lidar ratio at several typical regions in china. Chinese Journal of Lasers, 40, 0513002(2013).
[16] D M WINKER, M A VAUGHAN, A OMAR et al. Overview of the CALIPSO mission and CALIOP data processing algorithms. Journal of Atmospheric and Oceanic Technology, 26, 2310-2323(2009).
[17] L A REMER, Y J KAUFMAN, D TANRE et al. The MODIS aerosol algorithm, products, and validation. Journal of the Atmospheric Sciences, 62, 947-973(2005).
[18] Ying ZHANG, Zhengqiang LI. Remote sensing of atmospheric fine particulate matter (PM2.5) mass concentration near the ground from satellite observation. Remote Sensing of Environment, 160, 252-262(2015).
[19] Xiaoming WANG, Tian YUN, Zhiyong ZHANG et al. Analysis on synoptic and climatic features of temperature inversion under different conditions of geographical environment in winter. Meteorological Monthly, 35, 91-97(2009).
[20] G ROLPH, A STEIN, B STUNDER. Real-time Environmental applications and display system: READY. Environmental Modelling & Software, 95, 210-228(2017).
[22] Zongming TAO, Yinchao ZHANG, Xiaoqin LIU et al. Iteration method for the inversion of simulated multiwavelength lidar signals to determine aerosol size distribution. Chinese Physics, 13, 409-412(2004).
[23] H D HALLEN, C PHILBRICK. Russell: Lidar detection of small aerosol size distribution(2018).
[24] Xiaobin XU. Observational study advances of haze and photochemical pollution in China. Journal of Applied Meteorolgical Science, 27, 604-619(2016).
[25] Yuesi WANG, Li YAO, Lili WANG et al. Mechanism for the formation of the January 2013 heavy haze pollution episode over central and eastern China. Science China-Earth Sciences, 57, 14-25(2014).
