[1] Bing XIE, Hua ZHANG. Main research progress on atmospheric ozone. Science Technology and Engineering, 14, 106-114(2014).

[2] Hongxing ZHANG, Xu SUN, Yuhui YAO等. Distribution characteristics of surface ozone pollution and its harmful effects on plants in summer in Beijing. Acta Zoologica Sinica, 34, 4756-4765(2014).

[3] Feng LIU, Yongguan ZHU, Xiaoke WANG. Ground ozone pollution and its eco-environmental effects in China. Journal of Ecological Environment, 17, 1674-1679(2008).

[4] X ZHOU, C LUO. Ozone valley over Tibetan Plateau. Annual Report of CAMS, 8, 505-506(1995).

[5] Saihua JIN, Chenglin WANG, Huaqiang LIU等. Study on the change of total ozone in the northeast of Qinghai Tibet Plateau in recent ten years. Environmental Monitoring and Early Warning, 3, 5-12(2011).

[6] J ENGEL-COX, OANH N T KIM, DONKELAAR AVAN et al. Toward the next generation of air quality monitoring： Particulate Matter. Atmospheric Environment, 80, 584-590(2013).

[7] Liangfu CHEN, Jinhua TAO, Zifeng WANG等. Progress in satellite remote sensing monitoring of air quality. Acta Atmospheric and Environmental Optics, 10, 117-125(2015).

[8] Jinqiang ZHANG, Yuejian XUAN, Mingyuan LIU等. Atmospheric ozone sonde： technical indicators and comparative analysis. Progress in Meteorological Science and Technology, 5, 35-44(2015).

[9] Tu TAN, Zhensong CAO, Guishi WANG等. Study on 4.4 μm mid infrared laser heterodyne spectroscopy detection technology. Spectroscopy and Spectral Analysis, 35, 1516-1519(2015).

[10] H FUKUNISHI, S OKANO, M TAGUCHI et al. Laser heterodyne spectrometer using a liquid nitrogen cooled tunable diode laser for remote measurements of atmospheric O₃ and N₂O. Applied Optics, 29, 2722-2728(1990).

[11] D WEIDMANN, W J REBURN, K M SMITH. Retrieval of atmospheric ozone profiles from an infrared quantum cascade laser heterodyne radiometer： results and analysis. Applied Optics, 46, 7162-7171(2007).

[12] T R TSAI, R A ROSE, D WEIDMANN et al. Atmospheric vertical profiles of O₃， N₂O， CH₄， CCl₂F₂， and H₂O retrieved from external-cavity quantum-cascade laser heterodyne radiometer measurements. Applied Optics, 51, 8779-8792(2012).

[13] Jinqiang ZHANG, Zhenhui WANG, Hongbin CHEN等. Analysis of total atmospheric ozone observed by ground-based and spaceborne instruments. Climate and Environment Research, 22, 177-190(2017).

[14] Xingji LU, Zhensong CAO, Yinbo HUANG等. 3.53 μm laser heterodyne solar spectrum measurement system. Optical Precision Engineering, 26, 1846-1854(2018).

[15] Jingjing WANG, Chunyan SUN, Guishi WANG et al. A fibered near-infrared laser heterodyne radiometer for simultaneous remote sensing of atmospheric CO₂ and CH₄. Optics and Lasers in Engineering, 129, 106083(2020).

[16] Hao DENG, Mingxing LI, Yabai HE et al. Laser heterodyne spectroradiometer assisted by self-calibrated wavelength modulation spectroscopy for atmospheric CO₂ column absorption measurements. Spectrochimica Acta Part A： Molecular and Biomolecular Spectroscopy, 230, 118071(2020).

[17] Chunyan SUN, Guishi WANG, Gongdong ZHU等. Atmospheric CO₂ column concentration retrieval based on high resolution laser heterodyne spectroscopy and evaluation method of systematic measurement error. Acta Physica Sinica, 69, 87-95(2020).

[18] E L WILSON, M L MCLINDEN, J H MILLER et al. Miniaturized laser heterodyne radiometer for measurements of CO₂ in the atmospheric column. Applied Physics B, 114, 385-393(2014).

[19] N E HUANG, Z SHEN, S R LONG et al. The empirical mode decomposition and the Hilbert spectrum for nonlinear and non-stationary time series analysis. Proceedings Mathematical Physical & Engineering Sciences, 454, 903-995(1998).

[20] Wenbo WANG, Xiaodong ZHANG, Xiangli WANG. Empirical mode decomposition denoising method based on principal component analysis. Acta Electronica Sinica, 41, 1425-1430(2013).

[21] Xingji LU. Spectral measurement of greenhouse gases by laser heterodyne spectrometer and retrieval algorithm(2019).

[22] Wei XIONG, Hailiang SHI, Nenghai YU. Study on a new method for measuring linear function of spatial heterodyne interference spectrometer. Spectroscopy and Spectral Analysis, 35, 267-271(2015).

[23] Xingji LU, Zhensong CAO, Tu TAN等. Study on instrument linear function of laser heterodyne spectrometer. Acta Physica Sinica, 68, 136-142(2019).