地基微波辐射计和太阳光度计反演大气水汽总量的对比研究
[1] Hogg D C, Guiraud F O, Snider J B, et al. A steerable dual-channel microwave radiometer for measurement of water vapor and liquid in the troposphere [J]. J. Appl. Meteor., 1983, 22(5): 789-806.
[2] Karmakar P K, Rahaman M, Sen A K. Measurement of atmospheric water vapour content over tropical location by dual frequency microwave radiometry [J]. Int. J. Remote Sens., 2001, 22(17): 3309-3322.
[3] Karmakar P K, Maiti M , Sett S, et al. Radiometric estimation of water vapor content over Brazil [J]. Adv. Space Res., 2011, 48(9): 1506-1514.
[4] Thome K J, B M Herman, Reagan J A, et al. Determination of precipitable water from solar transmission [J]. J. Appl. Meteor., 1992, 31(2): 157-165.
[5] Gampmany E, Bech J, Rodriguez-Marcos J, et al. A comparison of total precipitable water measurements from radiosonde and sunphotometers [J]. Atmos. Res., 2010, 97(3): 385-392.
[6] Reagan J, Thome K J, Herman B M, et al. A comparison of columnar water vapor retrievals obtained with near-IR solar radiometer and microwave radiometer measurements [J]. J. Appl. Meteor., 1993, 34(6): 1384-1391.
[7] 张玉香, 李晓静, 顾行发. 利用太阳光度计测值估算北京上空水汽含量 [J]. 遥感学报, 2006, 10(5): 749- 755.
Zhang Yuxiang, Li Xiaojing, Gu Xingfa. Estimation of water vapor amount over Beijing from sun photometer measurements [J]. Journal of Remote Sensing, 2006, 10(5): 749-755(in Chinese).
[8] 刘红燕, 王迎春, 王京丽, 等. 由地基微波辐射计测量得到的北京地区水汽特性的初步分析 [J]. 大气科学, 2009, 33(2): 388-396.
Liu Hongyan, Wang Yingchun, Wang Jingli, et al. Preliminary analysis of the characteristics of precipitable water vapor measured by the ground-based 12 channel microwave radiometer in Beijing [J]. Chinese Journal of Atmospheric Sciences, 2009, 33(2): 388-396(in Chinese).
[9] 刘朝顺, 吕达仁, 杜秉玉. 地基遥感大气水汽总量和云液态水总量的研究 [J]. 南京气象学院学报, 2006, 29(5): 606-612.
Liu Chaoshun, Lü Daren, Du Bingyu. A study on ground-based remote sensing of atmospheric integrated water vapor and cloud liquid water [J]. Journal of Nanjing Institute of Meteorology, 2006, 29(5): 606-612(in Chinese).
[10] Solheim F J, Godwin E, West Y, et al. Radiometric profiling of temperature, water vapor, and liquid water using various inversion methods [J]. Radio Sci., 1998, 33(2): 393-404.
[11] Rangasayi N H, Tomas F E, Brent N H, et al. Sun Photometric measurements of atmospheric water vapor column abundance in the 940 nm band [J]. J. Geophys. Res., 1997, 102(D4): 4343-4352.
[12] Volz F E. Economical multispectral sun photometer for measurements of aerosol extinction from 0.44 μm to 1.6 μm and precipitable water [J]. Appl. Opt., 1974, 13(8): 1732-1733.
[13] 伽丽丽, 戴聪明, 徐青山, 等. 近红外大气吸收波段太阳辐射计定标 [J]. 遥感学报, 2012, 16(5): 928- 938.
Qie Lili, Dai Congming, Xu Qingshan, et al. Calibration of near infrared absorption band for a sun-photometer [J]. Journal of Remote Sensing, 2012, 16(5): 928-938(in Chinese).
戴聪明, 魏合理. 地基微波辐射计和太阳光度计反演大气水汽总量的对比研究[J]. 大气与环境光学学报, 2013, 8(2): 146. DAI Cong-ming, WEI He-li. Comparison of Atmospheric Precipitable Water Vapor Measured by Ground-Based Microwave Radiometer and Sun-Photometer[J]. Journal of Atmospheric and Environmental Optics, 2013, 8(2): 146.
PDF全文
