Add to ORKGThe stringent requirements for both the frequency stability and power reference represent a challenging task for Integrated Path Differential Absorption Lidars (IPDA) to measure greenhouse gas columns from satellite or aircraft. Currently, the German-French methane mission MERLIN (Methan Remote Lidar Mission) is prepared. At the same time CHARM-F, an aircraft installed system has been developed at DLR as an airborne demonstrator for a spaceborne greenhouse gas mission. The concepts and realization of these important sub-systems are discussed
In 2015, the new airborne lidar CHARM-F for the measurement of the greenhouse gases carbon dioxide a...
CHARM-F is the new airborne four-wavelengths lidar for simultaneous soundings of atmospheric CO2 and...
CHARM-F is a new four-wavelengths lidar for simultaneous soundings of atmospheric CO2 and CH4. It is...
The stringent requirements for both the frequency stability and power reference represent a challeng...
The stringent requirements for energy reference measurement represent a challenging task for integra...
The Integrated Path Differential Absorption Lidar (IPDA) technique using hard target reflection the ...
Installed onboard the German research aircraft HALO, the integrated-path differential-absorption (IP...
Installed onboard the German research aircraft HALO, the integrated-path differential-absorption (IP...
In 2015, the new airborne lidar CHARM-F for the measurement of the greenhouse gases carbon dioxide a...
Highly accurate measurements of atmospheric carbon dioxide (CO2) and methane (CH4) by a space-borne ...
Carbon dioxide (CO2) and methane (CH4) are the most important of the greenhouse gases that are direc...
CHARM-F (CO2 and CH4 Atmospheric Remote Monitoring - Flugzeug) is DLR’s new airborne Integrated Path...
In order to measure the two most important anthropogenic greenhouse gases CO2 and CH4 by means of th...
Emissions from strong point sources, primarily large power plants, are a major portion of the total ...
Active remote sensing techniques using lidar show much promise to provide accurate measurements of t...
In 2015, the new airborne lidar CHARM-F for the measurement of the greenhouse gases carbon dioxide a...
CHARM-F is the new airborne four-wavelengths lidar for simultaneous soundings of atmospheric CO2 and...
CHARM-F is a new four-wavelengths lidar for simultaneous soundings of atmospheric CO2 and CH4. It is...
The stringent requirements for both the frequency stability and power reference represent a challeng...
The stringent requirements for energy reference measurement represent a challenging task for integra...
The Integrated Path Differential Absorption Lidar (IPDA) technique using hard target reflection the ...
Installed onboard the German research aircraft HALO, the integrated-path differential-absorption (IP...
Installed onboard the German research aircraft HALO, the integrated-path differential-absorption (IP...
In 2015, the new airborne lidar CHARM-F for the measurement of the greenhouse gases carbon dioxide a...
Highly accurate measurements of atmospheric carbon dioxide (CO2) and methane (CH4) by a space-borne ...
Carbon dioxide (CO2) and methane (CH4) are the most important of the greenhouse gases that are direc...
CHARM-F (CO2 and CH4 Atmospheric Remote Monitoring - Flugzeug) is DLR’s new airborne Integrated Path...
In order to measure the two most important anthropogenic greenhouse gases CO2 and CH4 by means of th...
Emissions from strong point sources, primarily large power plants, are a major portion of the total ...
Active remote sensing techniques using lidar show much promise to provide accurate measurements of t...
In 2015, the new airborne lidar CHARM-F for the measurement of the greenhouse gases carbon dioxide a...
CHARM-F is the new airborne four-wavelengths lidar for simultaneous soundings of atmospheric CO2 and...
CHARM-F is a new four-wavelengths lidar for simultaneous soundings of atmospheric CO2 and CH4. It is...