Add to ORKGTechniques for extracting boundary layer parameters from measurements of a short pulse CO2 Doppler Lidar are described. The radial velocity measurements have a range resolution of 150 m. With a pulse repetition rate of 20 Hz, it is possible to perform scannings in two perpendicular vertical planes in approx. 72 s. By continuously operating the Lidar for about an hour, one can extract stable statistics of the radial velocities. Assuming that the turbulence is horizontally homogeneous, the mean wind, its standard deviations, and the momentum fluxes were estimated. From the vertically pointing beam, the first, second, and third moments of the vertical velocity were also estimated. Spectral analysis of the radial velocities is also performed fr...
A pulsed CO2 Doppler Lidar, developed for airborne measurements of atmospheric wind fields, is descr...
Developed a new algorithm for the simulation of three dimensional homogeneous turbulent velocity fie...
The understanding of the sources, spatial distribution and temporal variability of turbulence in the...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
The method and results of lidar studies of spatiotemporal variability of wind turbulence in the atm...
We utilized a Doppler lidar to measure spectra of vertical velocity w from 390m above the surface to...
Doppler lidar and multiple Doppler radar data were obtained in a convectively mixed planetary bounda...
International audienceThe vertical profiling of CO2 turbulent fluxes in the atmospheric boundary lay...
A method of estimating dissipation rates from a vertically pointing Doppler lidar with high temporal...
Wind fields were measured with the ground-based NASA/MSFC lidar are compared with the in situ NASA R...
International audienceWe utilized a Doppler lidar to measure spectra of vertical velocity w from 390...
The results of spatiotemporal visualization of the kinetic energy of turbulence, its dissipation rat...
Atmospheric turbulence can be characterized by the Reynolds stress tensor, which consists of the sec...
Commercially available Doppler lidars have now been proven to be efficient tools for studying winds ...
We utilized a Doppler lidar to measure integral scale and coherence of vertical velocity w in the da...
A pulsed CO2 Doppler Lidar, developed for airborne measurements of atmospheric wind fields, is descr...
Developed a new algorithm for the simulation of three dimensional homogeneous turbulent velocity fie...
The understanding of the sources, spatial distribution and temporal variability of turbulence in the...
A single pulsed Doppler lidar was successfully deployed to measure air flow and turbulence over the ...
The method and results of lidar studies of spatiotemporal variability of wind turbulence in the atm...
We utilized a Doppler lidar to measure spectra of vertical velocity w from 390m above the surface to...
Doppler lidar and multiple Doppler radar data were obtained in a convectively mixed planetary bounda...
International audienceThe vertical profiling of CO2 turbulent fluxes in the atmospheric boundary lay...
A method of estimating dissipation rates from a vertically pointing Doppler lidar with high temporal...
Wind fields were measured with the ground-based NASA/MSFC lidar are compared with the in situ NASA R...
International audienceWe utilized a Doppler lidar to measure spectra of vertical velocity w from 390...
The results of spatiotemporal visualization of the kinetic energy of turbulence, its dissipation rat...
Atmospheric turbulence can be characterized by the Reynolds stress tensor, which consists of the sec...
Commercially available Doppler lidars have now been proven to be efficient tools for studying winds ...
We utilized a Doppler lidar to measure integral scale and coherence of vertical velocity w in the da...
A pulsed CO2 Doppler Lidar, developed for airborne measurements of atmospheric wind fields, is descr...
Developed a new algorithm for the simulation of three dimensional homogeneous turbulent velocity fie...
The understanding of the sources, spatial distribution and temporal variability of turbulence in the...