Ansmann A, Bosenberg J
Appl Opt. 1987 Aug 1;26(15):3026-32. doi: 10.1364/AO.26.003026.
An evaluation scheme is given to calculate the water vapor content from data obtained by differential absorption lidar (DIAL), taking into account that the Rayleigh scattered part of the return signal shows considerable spectral broadening in contrast to the Mie scattered part. To correct for errors caused by this effect, information on the aerosol backscattering properties is necessary. Sensitivity analysis performed by model calculations show that it can be retrieved with sufficient accuracy from the off-line signal in the same way as for backscatter lidar. It can be expected that water vapor retrieval will be possible with good accuracy even in the most critical cases, where steep gradients in aerosol backscattering exist in the upper troposphere.
给出了一种评估方案,用于根据差分吸收激光雷达(DIAL)获取的数据计算水汽含量,同时考虑到与米氏散射部分相比,返回信号的瑞利散射部分呈现出相当大的光谱展宽。为了校正由此效应引起的误差,需要有关气溶胶后向散射特性的信息。通过模型计算进行的敏感性分析表明,可以以与后向散射激光雷达相同的方式从离线信号中以足够的精度检索到它。可以预期,即使在对流层上部存在气溶胶后向散射陡峭梯度的最关键情况下,也能够以良好的精度反演水汽。