Add to ORKGAn airborne high spectral resolution lidar (HSRL) based on an iodine absorption filter and a high--power frequency--doubled Nd:YAG laser has been developed to measure backscatter and extinction coefficients of aerosols and clouds. The instrument was operated aboard the DLR Falcon 20 research aircraft during the Saharan Mineral Dust Experiment (SAMUM) in May/June 2006 to measure optical properties of Saharan dust. A detailed description of the lidar system, the analysis of its data products and measurements of backscatter and extinction coefficients of Saharan dust are presented. The system errors are discussed and airborne HSRL results are compared to ground based Raman lidar and sun photometer measurements
In this work, a novel lidar technique to perform high-spectral-resolution measurements of the atmosp...
Ready for launch by the end of 2016, the Doppler lidar mission AEOLUS from the European Space Agency...
Ready for launch by the end of 2016, the Doppler lidar mission AEOLUS from the European Space Agency...
An airborne high spectral resolution lidar (HSRL) based on an iodine absorption filter and a high-po...
Aerosols directly influence the fluxes of solar and terrestrial radiation within the atmosphere by ...
We are in the process of developing a nadir-viewing, aircraft-based high spectral resolution lidar (...
We are in the process of developing a nadir-viewing, aircraft-based high spectral resolution lidar (...
The high spectral resolution lidar (HSRL) method based on an iodine absorption filter and a frequenc...
High spectral resolution lidar (HSRL) are known to offer capabilities of separating attenuated aeros...
High spectral resolution lidar (HSRL) are known to offer capabilities of separating attenuated aeros...
International audienceHigh spectral resolution lidar (HSRL) are known to offer capabilities of separ...
In this work, a novel lidar technique to perform high-spectral-resolution measurements of the atmosp...
International audienceA high spectral resolution (HSR) measurement capability in the ultraviolet has...
International audienceA high spectral resolution (HSR) measurement capability in the ultraviolet has...
International audienceA high spectral resolution (HSR) measurement capability in the ultraviolet has...
In this work, a novel lidar technique to perform high-spectral-resolution measurements of the atmosp...
Ready for launch by the end of 2016, the Doppler lidar mission AEOLUS from the European Space Agency...
Ready for launch by the end of 2016, the Doppler lidar mission AEOLUS from the European Space Agency...
An airborne high spectral resolution lidar (HSRL) based on an iodine absorption filter and a high-po...
Aerosols directly influence the fluxes of solar and terrestrial radiation within the atmosphere by ...
We are in the process of developing a nadir-viewing, aircraft-based high spectral resolution lidar (...
We are in the process of developing a nadir-viewing, aircraft-based high spectral resolution lidar (...
The high spectral resolution lidar (HSRL) method based on an iodine absorption filter and a frequenc...
High spectral resolution lidar (HSRL) are known to offer capabilities of separating attenuated aeros...
High spectral resolution lidar (HSRL) are known to offer capabilities of separating attenuated aeros...
International audienceHigh spectral resolution lidar (HSRL) are known to offer capabilities of separ...
In this work, a novel lidar technique to perform high-spectral-resolution measurements of the atmosp...
International audienceA high spectral resolution (HSR) measurement capability in the ultraviolet has...
International audienceA high spectral resolution (HSR) measurement capability in the ultraviolet has...
International audienceA high spectral resolution (HSR) measurement capability in the ultraviolet has...
In this work, a novel lidar technique to perform high-spectral-resolution measurements of the atmosp...
Ready for launch by the end of 2016, the Doppler lidar mission AEOLUS from the European Space Agency...
Ready for launch by the end of 2016, the Doppler lidar mission AEOLUS from the European Space Agency...