Iteration method for the inversion of simulated multiwavelength lidar signals to determine aerosol size distribution
Tao Zong-Ming (陶宗明), Zhang Yin-Chao (张寅超), Liu Xiao-Qin (刘小勤), Tan Kun (谭锟), Shao Shi-Sheng (邵石生), Hu Huan-Ling (胡欢陵), Zhang Gai-Xia (张改霞), Lü Yong-Hui (吕勇辉)
Key Laboratory of Atmospheric Optics, Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei 230031, China
Abstract A new method is proposed to derive the size distribution of aerosol from the simulated multiwavelength lidar extinction coefficients. The basis for this iteration is to consider the extinction efficiency factor of particles as a set of weighting function covering the entire radius region of a distribution. The weighting functions are calculated exactly from Mie theory. This method extends the inversion region by subtracting some extinction coefficient. The radius range of simulated size distribution is 0.1-10.0μm, the inversion radius range is 0.1-2.0μm, but the inverted size distributions are in good agreement with the simulated one.
Received: 04 March 2003
Revised: 26 September 2003
Accepted manuscript online:
Tao Zong-Ming (陶宗明), Zhang Yin-Chao (张寅超), Liu Xiao-Qin (刘小勤), Tan Kun (谭锟), Shao Shi-Sheng (邵石生), Hu Huan-Ling (胡欢陵), Zhang Gai-Xia (张改霞), Lü Yong-Hui (吕勇辉) Iteration method for the inversion of simulated multiwavelength lidar signals to determine aerosol size distribution 2004 Chinese Physics 13 409
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