EO·Atlas
Doppler wind lidar
Direct-detection (or coherent) Doppler wind lidar measures the Doppler frequency shift of laser light backscattered from molecules and aerosols at successive altitudes to derive line-of-sight wind speed profiles. Acquisition: frequency-resolved backscatter via interferometer (Fizeau/Fabry-Perot edge). Retrieval: horizontal wind component vs altitude. Example instrument: Aeolus/ALADIN (355 nm direct-detection DWL).
Doppler wind lidar retrieves atmospheric wind speed profiles by measuring the frequency shift imparted by moving scatterers on laser light backscattered from aerosol particles and air molecules. Two detection architectures are used: direct-detection systems resolve the Doppler shift spectrally using a high-resolution interferometer, while coherent systems mix the return with a local oscillator reference. Both architectures deliver line-of-sight wind components that are projected to horizontal wind profiles through instrument geometry.
ESA's Aeolus satellite, carrying the ALADIN instrument, operated as a spaceborne Doppler wind lidar from August 2018 to July 2023.[1] ALADIN operates at 355 nm UV with two spectrometers in parallel: a Fizeau interferometer on the Mie channel for aerosol-laden layers, and a dual-filter Fabry-Perot on the Rayleigh channel for clear-air molecular signal. Pulse energy is approximately 80 mJ. The instrument points 35 degrees off nadir, perpendicular to the orbital track, sampling 24 altitude layers from the surface to 30 km.[2][3] Assimilation experiments at ECMWF demonstrated measurable positive impact on numerical weather prediction skill, particularly in the tropics and the southern hemisphere where radiosonde coverage is sparse.[4]
Core data products are profiles of the horizontal line-of-sight wind component, serving NWP assimilation, climate reanalysis, and validation of general circulation model wind fields.
- [1]ALADIN Overview - ESA Earth Onlineagency doc2026-06-05ALADIN: 355 nm UV direct-detection DWL; Fizeau interferometer (Mie/aerosol channel); dual-filter Fabry-Perot (Rayleigh/molecular channel); 24 layers surface to 30 km; 35 deg off-nadir pointing 90 deg from orbit track
- [2]Airborne Demonstrator for Direct-Detection Doppler Wind Lidar ALADIN Part I: Instrument Design - JTECH 2009peer reviewed2026-06-05Peer-reviewed instrument design paper; 80 mJ at 355 nm; Fizeau + Fabry-Perot dual spectrometer; direct-detection (not coherent) architecture; Rayleigh and Mie Doppler shift retrieval
- [3]Five years of Aeolus wind profiling: global coverage and data quality - EGUsphere 2025peer reviewed2026-06-05Post-mission assessment; global wind profile data quality, NWP impact demonstrated at ECMWF, mission 2018-2023
- [4]Aeolus (ADM-Aeolus) - eoPortalcommunity2026-06-05Mission profile: launched Aug 2018, 320 km SSO dusk-dawn orbit, 1360 kg, mission ended 2023; first and only spaceborne DWL to date