基于扫描偏振激光雷达观测的冰云平面冰晶取向研究

V. Noel, K. Sassen
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引用次数: 121

摘要

本文通过对扫描偏振激光雷达观测资料的分析,对卷云和中层云中冰晶的方向进行了研究。通过将线性退极化比和背散射强度的角度相关测量值拟合到倾斜角度为高斯分布的理论模型中,推断出晶体在连续高度水平上偏离水平面的最大角度。平均偏差角与后向散射的角度变化有关。对所谓的pary定向柱的罕见观测也被给出,以突出不同的激光雷达角度的后向散射行为。对于平面晶体,发现了两种依赖于云温度的取向模式。高空冷云(30°C)的最大偏差角为1.0°,而较暖的中层云(20°C)的最大偏差角平均为2.0°。这种差异是由粒子形状和下落姿态的变化引起的,这些变化取决于温度,可能涉及到从简单的板块到更广泛的摆动枝晶在更高温度下的转变。偏振激光雷达扫描显然非常适合研究云层中的冰晶方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study of Planar Ice Crystal Orientations in Ice Clouds from Scanning Polarization Lidar Observations
This paper presents a study of the orientation of ice crystals in cirrus and midlevel clouds, based on the analysis of several cases of scanning polarization lidar observations. The maximum angle that crystals deviate from the horizontal plane is inferred at consecutive altitude levels by fitting angle-dependent measurements of the linear depolarization ratio and backscattered intensities to a theoretical model with a Gaussian distribution of tilt angles. The average deviation angle is linked to the angular variation of backscatter. A rare observation of so-called Parry-oriented columns is also given to highlight the different backscattering behavior with lidar angle. For planar crystals, two orientation modes are found that depend on cloud temperature. High-level cold (30°C) clouds show a maximum deviation angle of 1.0°, whereas for warmer (20°C) midlevel clouds this angle averages 2.0°. This difference is caused by variations in particle shape and fall attitude that depend on temperature, likely involving a transition from simple plates to more widely fluttering dendrites at the warmer temperatures. Polarization lidar scans are clearly uniquely suited for the study of ice crystal orientations in clouds.
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