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Article Dans Une Revue Atmospheric Measurement Techniques Année : 2013

0.355-micrometer direct detection wind lidar under testing during a field campaign in consideration of ESA's ADM-Aeolus mission

Résumé

The atmospheric wind field information is a key issue to numerical weather prediction (NWP) and climate studies. The Atmospheric Dynamic Mission-Aeolus is cur- rently developed by the European Space Agency (ESA) to launch a wind sensing Doppler lidar in mid-2015. The high spectral resolution lidar concept is using backscattered laser signals from molecules and particles to provide accurate hor- izontal wind velocity measurements in the depth of atmo- sphere. The Aeolus lidar, so-called ALADIN, will operate in UV at 0.355 μm. The combination of air molecules and UV laser light is intended to provide wind data evenly distributed everywhere in the lower atmosphere (below 30 km altitude). The goal of the ESA's Aeolus mission is to enhance the present meteorological observations system over sparse wind data regions, and more importantly to provide direct wind in- formation in the tropics where no geostrophic wind can be derived from mass fields obtained from passive radiometer satellite. The 0.355 μm lidar concept was under testing dur- ing a field campaign conducted at the Haute-Provence Obser- vatory, France, in 1999. Several active remote sensors were deployed on the site, and it was the opportunity to address the self-consistency of wind measurements made by differ- ent lidars, a 72 MHz radar, and conventional balloon radio soundings. The paper presents the comparison of different remote sensors using two criteria: Pearson cross-correlation coefficient and root mean square error. The methodology dis- cussed here may be useful in future ESA Aeolus validation campaigns involving different kinds of instruments.
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Dates et versions

hal-00951696 , version 1 (07-05-2015)

Identifiants

Citer

Simone Lolli, A. Delaval, C. Loth, Anne Garnier, P. H. Flamant. 0.355-micrometer direct detection wind lidar under testing during a field campaign in consideration of ESA's ADM-Aeolus mission. Atmospheric Measurement Techniques, 2013, 6, pp.3349-3358. ⟨10.5194/amt-6-3349-2013⟩. ⟨hal-00951696⟩
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