Add to ORKGAtmospheric trace constituent measurements with higher vertical resolution than attainable with passive radiometers are discussed. Infrared differential absorption lidar (DIAL), which depends on Mie scattering from aerosols, has special advantages for tropospheric and lower stratospheric applications and has great potential importance for measurements from shuttle and aircraft. Differential absorption lidar data reduction involves comparing large amplitude signals which have small differences. The accuracy of the trace constituent concentration inferred from DIAL measurements depends strongly on the errors in determining the amplitude of the signals. Thus, the commonly used SNR expression (signal divided by noise in the absence of signal) i...
The development of sensitive heterodyne receivers (front end) in the centimeter and millimeter range...
A 163 micron (1.836 THz) radiometer developed for airplane and/or balloon platforms is described. Th...
The University of Wisconsin high spectral resolution lidar (HSRL) measures optical properties of the...
Several experiments involving spectral scanning interferometers and gas filter correlation radiomete...
A tunable diode laser heterodyne radiometer was developed for ground based measurements of atmospher...
A tunable high resolution two stage heterodyne radiometer was developed for the purpose of investiga...
An airborne differential absorption lidar (DIAL) system has been developed at the NASA Langley Resea...
The Lidar Applications Group at NASA Langley Research Center has developed a differential absorption...
To measure the concentration of a gas in the troposphere, the gas filter radiometer correlates the p...
With the advent of stable, cw infrared lasers with moderate output power capabilities in the mid 196...
In a collaboration between NASA GSFC and GWU, a low-cost, surface instrument is being developed that...
Over the past decade, NASA has played a lead role in defining the scientific objectives and technolo...
An infrared laser heterodyne system for obtaining height profiles of minor constituents of the atmos...
The monitoring of vertical profiles of ozone and related minor constituents in the atmosphere are of...
A submillimeter heterodyne radiometer uses a submillimeter laser, pumped by a CO2 laser, as a local ...
The development of sensitive heterodyne receivers (front end) in the centimeter and millimeter range...
A 163 micron (1.836 THz) radiometer developed for airplane and/or balloon platforms is described. Th...
The University of Wisconsin high spectral resolution lidar (HSRL) measures optical properties of the...
Several experiments involving spectral scanning interferometers and gas filter correlation radiomete...
A tunable diode laser heterodyne radiometer was developed for ground based measurements of atmospher...
A tunable high resolution two stage heterodyne radiometer was developed for the purpose of investiga...
An airborne differential absorption lidar (DIAL) system has been developed at the NASA Langley Resea...
The Lidar Applications Group at NASA Langley Research Center has developed a differential absorption...
To measure the concentration of a gas in the troposphere, the gas filter radiometer correlates the p...
With the advent of stable, cw infrared lasers with moderate output power capabilities in the mid 196...
In a collaboration between NASA GSFC and GWU, a low-cost, surface instrument is being developed that...
Over the past decade, NASA has played a lead role in defining the scientific objectives and technolo...
An infrared laser heterodyne system for obtaining height profiles of minor constituents of the atmos...
The monitoring of vertical profiles of ozone and related minor constituents in the atmosphere are of...
A submillimeter heterodyne radiometer uses a submillimeter laser, pumped by a CO2 laser, as a local ...
The development of sensitive heterodyne receivers (front end) in the centimeter and millimeter range...
A 163 micron (1.836 THz) radiometer developed for airplane and/or balloon platforms is described. Th...
The University of Wisconsin high spectral resolution lidar (HSRL) measures optical properties of the...