Add to ORKGAfter its launch in autumn 2018, the spaceborne wind lidar ALADIN (Atmospheric LAser Doppler INstrument) on-board ESA's Earth Explorer satellite Aeolus will allow for global observation of atmospheric wind profiles. Being the first ever satellite-borne Doppler wind lidar instrument, ALADIN will significantly contribute to the improvement in numerical weather prediction by providing one component of the wind vector along the instrument's line-of-sight (LOS) from ground throughout the troposphere up to the lower stratosphere. The vertical resolution is 0.25 km to 2 km depending on altitude, while the precision in wind speed is envisaged to be between 1 m/s to 3 m/s
Since the successful launch of ESA's Earth Explorer mission Aeolus in August 2018, atmospheric wind ...
Already three weeks after the successful launch of Aeolus in August 2018, atmospheric return signal...
The Atmospheric LAser Doppler Instrument (ALADIN) on-board Aeolus was the first European lidar and t...
The spaceborne wind lidar ALADIN shall provide vertical wind profiles within the ESA Earth Explorer ...
In preparation of ESA's upcoming Earth Explorer mission Aeolus which strives for the global observat...
Almost 20 years after its selection as an Earth Explorer Core Mission of ESA’s Living Planet Program...
Soon after its successful launch in August 2018, the spaceborne wind lidar ALADIN (Atmospheric LAser...
Since the successful launch of ESA's Earth Explorer mission Aeolus in August 2018, atmospheric wind ...
Knowledge of vertical wind profiles on a global scale is a priority need to improve the quality of n...
Knowledge of vertical wind profiles on a global scale is a priority need to improve the quality of n...
The launch of the Aeolus mission by the European Space Agency (ESA) is planned for early 2018. The s...
In August 2018, the first-ever spaceborne wind lidar – Aeolus – was launched and has since then bee...
Launched on 22 August 2018, Aeolus is the first satellite mission to measure atmospheric wind profil...
Soon after its successful launch in August 2018, the spaceborne wind lidar ALADIN (Atmospheric LAs...
Since the successful launch of ESA's Earth Explorer mission Aeolus in August 2018, atmospheric wind ...
Since the successful launch of ESA's Earth Explorer mission Aeolus in August 2018, atmospheric wind ...
Already three weeks after the successful launch of Aeolus in August 2018, atmospheric return signal...
The Atmospheric LAser Doppler Instrument (ALADIN) on-board Aeolus was the first European lidar and t...
The spaceborne wind lidar ALADIN shall provide vertical wind profiles within the ESA Earth Explorer ...
In preparation of ESA's upcoming Earth Explorer mission Aeolus which strives for the global observat...
Almost 20 years after its selection as an Earth Explorer Core Mission of ESA’s Living Planet Program...
Soon after its successful launch in August 2018, the spaceborne wind lidar ALADIN (Atmospheric LAser...
Since the successful launch of ESA's Earth Explorer mission Aeolus in August 2018, atmospheric wind ...
Knowledge of vertical wind profiles on a global scale is a priority need to improve the quality of n...
Knowledge of vertical wind profiles on a global scale is a priority need to improve the quality of n...
The launch of the Aeolus mission by the European Space Agency (ESA) is planned for early 2018. The s...
In August 2018, the first-ever spaceborne wind lidar – Aeolus – was launched and has since then bee...
Launched on 22 August 2018, Aeolus is the first satellite mission to measure atmospheric wind profil...
Soon after its successful launch in August 2018, the spaceborne wind lidar ALADIN (Atmospheric LAs...
Since the successful launch of ESA's Earth Explorer mission Aeolus in August 2018, atmospheric wind ...
Since the successful launch of ESA's Earth Explorer mission Aeolus in August 2018, atmospheric wind ...
Already three weeks after the successful launch of Aeolus in August 2018, atmospheric return signal...
The Atmospheric LAser Doppler Instrument (ALADIN) on-board Aeolus was the first European lidar and t...