Raman lidar in operational meteorology

Asia-Pacific Remote Sensing Pub Date : 2018-10-24 DOI:10.1117/12.2501987

B. V. Simeonov, T. Dinoev, I. Serikov, S. Bobrovnikov, Alexander Hafele, G. Martucci, Daniel Leuenbergerd, B. Calpini

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Abstract

Water vapor and temperature spatial distribution and their temporal evolution are among the most important parameters in numerical weather forecasting and climate models. The operational relative humidity/temperature profiling in meteorology is carried out mostly by radio sondes. Sondes provide profiles with high vertical resolution but suffer from systematic errors and low temporal resolution. The temporal resolution is also a limitation for the now-casting, which has become more and more important for meteorological alerts and for the aviation. Recently, some of national meteorological services have introduced Raman lidars for additional operational humidity/temperature profiling. The lidars allow monitoring of water vapor mixing ratio and temperature with high vertical and temporal resolutions. Here the design and measurement results from the Raman Lidar for Meteorological Observation (RALMO) developed by the Ecole Polytechnique Féderal de Lausanne (EPFL) and operated by MeteoSwiss is presented as an illustration of the potential of Raman lidars in operational meteorology. The first applications of lidar data in numerical weather forecasting is also discussed.

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业务气象学中的拉曼激光雷达

水汽和温度的空间分布及其时间演变是数值天气预报和气候模式中最重要的参数之一。气象学的相对湿度/温度剖面主要由无线电探空仪进行。探空仪提供高垂直分辨率剖面，但存在系统误差和低时间分辨率。在气象预警和航空预报中，时间分辨率越来越重要，但时间分辨率也限制了预报的准确性。最近，一些国家气象部门已经引进了拉曼激光雷达，用于额外的操作湿度/温度分析。激光雷达可以监测水汽混合比和温度，具有很高的垂直和时间分辨率。这里介绍由瑞士洛桑理工学院(EPFL)开发并由MeteoSwiss运营的拉曼激光气象观测雷达(RALMO)的设计和测量结果，以说明拉曼激光雷达在业务气象方面的潜力。本文还讨论了激光雷达数据在数值天气预报中的首次应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Asia-Pacific Remote Sensing

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