[3] Zhang X Y. Aerosol over China and their climate effect[J]. Advances in Earth Science, 22, 12-16(2007).
[4] Chyacutelek P, Coakley J A. Aerosols and climate[J]. Science, 183, 75-77(1974).
[6] Fierz-Schmidhauser R, Zieger P, Gysel M et al. Measured and predicted aerosol light scattering enhancement factors at the high alpine site Jungfraujoch[J]. Atmospheric Chemistry and Physics, 10, 2319-2333(2010).
[9] Svenningsson B, Hansson H C, Wiedensohler A et al. Hygroscopic growth of aerosol particles and its influence on nucleation scavenging in cloud: experimental results from Kleiner Feldberg[J]. Journal of Atmospheric Chemistry, 19, 129-152(1994).
[11] Liu X G, Gu J W, Li Y P et al[J]. modeling, implications on visibility. Atmospheric Research, 132/133, 91-101(2013).
[13] Liu X G, Zhang Y H. Modelling research on the aerosol scattering hygroscopic growth factor based on measurement-Taking 2006 CAREBeijing campaign for example[J]. China Environmental Science, 29, 1243-1248(2009).
[14] Liu X G, Zhang Y H. Research on the measurement of aerosol hygroscopic growth factor in Guangzhou City[J]. China Environmental Science, 29, 1128-1133(2009).
[15] Cui L, Ni C J, Sun H H et al. Hygroscopic growth properties of particles in Chengdu and its correction methodology[J]. Acta Scientiae Circumstantiae, 36, 3938-3943(2016).
[16] Yang Y S, Ni C J, Deng Y et al. Characteristics of atmospheric extinction coefficient and its components in winter in Chengdu[J]. Acta Scientiae Circumstantiae, 39, 1425-1432(2019).
[17] Tao J H, Wang Z F, Xu Q et al. Particulate matter mass extinction hygroscopic growth model in Beijing[J]. Journal of Remote Sensing, 19, 12-24(2015).
[18] Koschmieder H. Theorie der horizontalen Sichtweite[J]. Beitrage zur Physik der freien Atmosphare, 33-53(1924).
[19] Wang Z F, Chen L F, Tao J H et al. Satellite-based estimation of regional particulate matter (PM) in Beijing using vertical-and-RH correcting method[J]. Remote Sensing of Environment, 114, 50-63(2010).
[20] Chen Y N, Zhao P S, He D et al. Characteristics and parameterization for atmospheric extinction coefficient in Beijing[J]. Environmental Science, 36, 3582-3589(2015).
[21] Zhu H, Wang Y Q, Tao J H et al. Analysis of aerosol hygroscopic growth based on meteorological factors: a case study of Zhejiang Province[J]. Climatic and Environmental Research, 24, 186-198(2019).
[22] Kotchenruther R A, Hobbs P V. Humidification factors of aerosols from biomass burning in Brazil[J]. Journal of Geophysical Research: Atmospheres, 103, 32081-32089(1998).
[23] Magi B I, Hobbs P V. Effects of humidity on aerosols in southern Africa during the biomass burning season[J]. Journal of Geophysical Research: Atmospheres, 108, 8495(2003).
[24] Kasten F. Visibility forecast in the phase of pre-condensation[J]. Tellus, 21, 631-635(1969).
[25] Song C H, Park M E, Lee K H et al. An investigation into seasonal and regional aerosol characteristics in East Asia using model-predicted and remotely-sensed aerosol properties[J]. Atmospheric Chemistry and Physics, 8, 6627-6654(2008).
[26] Chen J, Zhao C S, Ma N et al. Aerosol hygroscopicity parameter derived from the light scattering enhancement factor measurements in the North China Plain[J]. Atmospheric Chemistry and Physics, 14, 8105-8118(2014).
[27] Liu F, Tan Q W, Jiang X et al. Effect of relative humidity on particulate matter concentration and visibility during winter in Chengdu[J]. Environmental Science, 39, 1466-1472(2018).