During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport across the Atlantic was analyzed by a set of ground based, in-situ and airborne instruments, including a 2- m coherent DWL (Doppler wind lidar) mounted onboard the DLR Falcon 20 research aircraft. An overview of the measurements of aerosol backscatter and extinction, horizontal and vertical winds retrieved from the DWL are presented together with a brief description of the applied methods. The retrieved measurements provide direct observation of Saharan dust transport mechanisms across the Atlantic as well as island induced lee waves in the Barbados region
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for coherent Doppler wind lidars (DWLs) calibration is shown in this work. Concurrent...
A novel method for coherent Doppler wind lidars (DWLs) calibration is shown in this work. Concurrent...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment conducted between the 10 of June and the 15 of July 2013, the t...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for coherent Doppler wind lidars (DWLs) calibration is shown in this work. Concurrent...
A novel method for coherent Doppler wind lidars (DWLs) calibration is shown in this work. Concurrent...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment, conducted during June/July 2013, the Saharan dust transport ac...
During the SALTRACE field experiment conducted between the 10 of June and the 15 of July 2013, the t...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for calibration and quantitative aerosol optical property retrieval from Doppler wind...
A novel method for coherent Doppler wind lidars (DWLs) calibration is shown in this work. Concurrent...
A novel method for coherent Doppler wind lidars (DWLs) calibration is shown in this work. Concurrent...