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Chinese Science Bulletin, Volume 61 , Issue 30 : 3196-3207(2016) https://doi.org/10.1360/N972016-00394

Stereoscopic monitoring technology and applications for the atmospheric environment in China

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  • ReceivedMay 9, 2016
  • AcceptedJul 6, 2016
  • PublishedSep 22, 2016

Abstract


References

[1] Intergovernmental Panel on Climate Change. Climate Change 2007, The Physical Science, Technical Summary of the Working Group Report. New York: Cambridge University Press, 2007. Google Scholar

[2] Campbell J R, Welton E J, Spinhirne J D, et al. Micropulse lidar observations of tropospheric aerosols over northeastern South Africa during the ARREX and SAFARI 2000 dry season experiments. J Geophys Res, 2003, 108: 8497 CrossRef ADS Google Scholar

[3] Yuan S, Kan R F, He Y B, et al. Laser temperature compensation used in tunable diode laser absorption spectroscopy (in Chinese). Chin J Lasers, 2013, 40: 0515002-1–5 [袁松, 阚瑞峰, 何亚柏, 等. 可调谐半导体激光吸收光谱中激光器温度补偿. 中国激光, 2013, 40: 0515002-1–5]. Google Scholar

[4] Zhou M Q, Zhang X Y, Wang P C, et al. XCO2 satellite retrieval experiments in short-wave infrared spectrum and ground-based validation. Sci China Earth Sci, 2015, 58: 1191-1197 CrossRef Google Scholar

[5] Xie P, Liu W, Fu Q, et al. Intercomparison of NO x , SO2, O3, and aromatic hydrocarbons measured by a commercial DOAS system and traditional point monitoring techniques. Adv Atmos Sci, 2004, 21: 211-219 CrossRef ADS Google Scholar

[6] Xu J, Xie P H, Si F Q, et al. Determination of tropospheric NO2 by airborne multi axis differential optical absorption spectroscopy (in Chinese). Acta Phys Sin, 2012, 61: 024204 [徐晋, 谢品华, 司福祺, 等. 机载多轴差分吸收光谱技术获取对流层NO2垂直柱浓度的研究. 物理学报, 2012, 61: 024204]. Google Scholar

[7] Dae W H, Gwi S H, Jin S H, et al. Application of the open path FTIR with COL1SB to measurements of ozone and VOCs in the urban area. Atmos Environ, 2004, 38: 5567–5576. Google Scholar

[8] Groß S, Tesche M, Freudenthaler V, et al. Characterization of Saharan dust, marine aerosols and mixtures of biomass-burning aerosols and dust by means of multi-wavelength depolarization and Raman lidar measurements during SAMUM 2. Tellus B, 2011, 63: 706-724 CrossRef ADS Google Scholar

[9] Wang F, Wu Q, Huang Q X, et al. Simultaneous measurement of 2-dimensional H2O concentration and temperature distribution in premixed methane/air flame using TDLAS-based tomography technology. Optics Commun, 2015, 345: 53–56. Google Scholar

[10] Wang Y, Xie P H, Si F Q, et al. A rapid method to derive horizontal distributions of trace gases and aerosols near the surface using multi- axis differential optical absorption spectroscopy. Atmos Meas Tech, 2013, 13: 2571–2586. Google Scholar

[11] Wang Y, Li A, Xie P H, et al. Measuring tropospheric vertical distribution and vertical column density of NO2 by multi-axis differential optical absorption spectroscopy (in Chinese). Acta Phys Sin, 2013, 6262: 476–477 [王杨, 李昂, 谢品华, 等. 多轴差分吸收光谱技术测量NO2对流层垂直分布及垂直柱浓度. 物理学报, 2013, 6262: 476–477]. Google Scholar

[12] Wang Y, Thomas W, Li A. Research of classification of cloud and aerosol using multi-axis differential optical absorption spectroscopy (in Chinese). Acta Phys Sin, 2014, 63: 110708 [王杨, Thomas W, 李昂, 等. 多轴差分吸收光谱技术的云和气溶胶类型鉴别方法研究. 物理学报, 2014, 63: 110708]. Google Scholar

[13] Harbeck S, Emirik Ö F, Gürol I, et al. Understanding the VOC sorption processes on fluoro alkyl substituted phthalocyanines using ATR FT-IR spectroscopy and QCM measurements. Sensors Actuators B-Chem, 2013, 176: 838-849 CrossRef Google Scholar

[14] Fan G Q, Zhang T S, Fu Y B, et al. Temporal and spatial distribution characteristics of ozone based on differential absorption lidar in Beijing (in Chinese). Chin J Lasers, 2014, 41: 1014003-1–6 [范广强, 张天舒, 付毅宾, 等. 差分吸收激光雷达监测北京灰霾天臭氧时空分布特征. 中国激光, 2014, 41: 1014003-1–6]. Google Scholar

[15] Lü L H, Liu W Q, Zhang T S, et al. A new micro-Pulse Lidar for atmospheric horizontal visibility measurement (in Chinese). Chin J Lasers, 2014, 41: 0908005-1–5 [吕立慧, 刘文清, 张天舒, 等. 新型微脉冲激光雷达测量大气水平能见度. 中国激光, 2014, 41: 0908005-1–5. Google Scholar

[16] Chen Z Y, Liu W Q, Heese B, et al. Aerosol optical properties observed by combined Raman-elastic backscatter lidar in winter 2009 in Pearl River Delta, south China. J Geophys Res, 2014, 119: 2335–2352. Google Scholar

[17] Wandinger U. Air mass modification over Europe: EARLINET aerosol observations from Wales to Belarus. J Geophys Res, 2004, 109: D24205 CrossRef ADS Google Scholar

[18] Amiridis V, Balis D S, Kazadzis S, et al. Four-year aerosol observations with a Raman lidar at Thessaloniki, Greece, in the framework of European Aerosol Research Lidar Network (EARLINET). J Geophys Res, 2005, 110: D21203 CrossRef ADS Google Scholar

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