Add to ORKGA comparative lidar-dustsonde experiment was conducted in San Angelo, Texas, in May 1974 in order to estimate the uncertainties in stratospheric-aerosol backscatter for the NASA Langley 48-inch lidar system. The lidar calibration and data-analysis procedures are discussed. Results from the Texas experiment indicate random and systematic uncertainties of 35 and 63 percent, respectively, in backscatter from a background stratospheric-aerosol layer at 20 km
An experimental survey flight to determine the spatial distribution and aerosol characteristics of t...
We have performed a three-year series of routine lidar measurements at preselected times. The measur...
Theoretical and experimental studies of the feasibility of using DIfferential SCatter (DISC) lidar t...
During the first year two areas of work were emphasized, analysis of aerosol data to provide improve...
The Aerosol/Lidar Science Group of the Remote Sensing Branch engages in experimental and theoretical...
During an 18-month period, 30 nighttime observations of stratospheric aerosols were made using a gro...
The extraction of particle backscattering from incoherent lidar measurements poses some problems. In...
A coordinated flight mission to determine the spatial distribution and aerosol characteristics of th...
Experimental and theoretical studies were performed of atmospheric aerosol backscatter and atmospher...
A ground based lidar system located at NASA Langley Research Center in Hampton, Va., was used to obt...
We report the recovery and processing methodology of the first ever multi-year lidar dataset of the ...
A systematic approach to analyzing lidar data collected at NOAA's Mauna Loa Observatory (MLO) was de...
International audienceWe have examined the 532-nm aerosol backscatter coefficient measurements by th...
Aerosol concentrations and size distributions in the middle and upper troposphere over the remote Pa...
In the past year, NOAA has measured and analyzed another year's worth of backscatter over Boulder, C...
An experimental survey flight to determine the spatial distribution and aerosol characteristics of t...
We have performed a three-year series of routine lidar measurements at preselected times. The measur...
Theoretical and experimental studies of the feasibility of using DIfferential SCatter (DISC) lidar t...
During the first year two areas of work were emphasized, analysis of aerosol data to provide improve...
The Aerosol/Lidar Science Group of the Remote Sensing Branch engages in experimental and theoretical...
During an 18-month period, 30 nighttime observations of stratospheric aerosols were made using a gro...
The extraction of particle backscattering from incoherent lidar measurements poses some problems. In...
A coordinated flight mission to determine the spatial distribution and aerosol characteristics of th...
Experimental and theoretical studies were performed of atmospheric aerosol backscatter and atmospher...
A ground based lidar system located at NASA Langley Research Center in Hampton, Va., was used to obt...
We report the recovery and processing methodology of the first ever multi-year lidar dataset of the ...
A systematic approach to analyzing lidar data collected at NOAA's Mauna Loa Observatory (MLO) was de...
International audienceWe have examined the 532-nm aerosol backscatter coefficient measurements by th...
Aerosol concentrations and size distributions in the middle and upper troposphere over the remote Pa...
In the past year, NOAA has measured and analyzed another year's worth of backscatter over Boulder, C...
An experimental survey flight to determine the spatial distribution and aerosol characteristics of t...
We have performed a three-year series of routine lidar measurements at preselected times. The measur...
Theoretical and experimental studies of the feasibility of using DIfferential SCatter (DISC) lidar t...