Add to ORKGLidar is ready to make an important contribution to tropospheric chemistry research with a variety of spaceborne measurements that complement the measurements from passive instruments. Lidar can now be considered for near-term and far-term space missions dealing with a number of scientifically important issues in tropospheric chemistry. The evolution in the lidar missions from space are addressed and details of these missions are given. The laser availability for space missions based upon the technical data is assessed
The Lidar In-space Technology Experiment (LITE) is a multi-wavelength backscatter lidar developed by...
Spectroscopic measurements are required to define the spectral background and provide the detailed s...
Lidar, an acronym for light detection and ranging, represents a class of instruments that utilize la...
Over the past decade, NASA has played a lead role in defining the scientific objectives and technolo...
It was recommended that gas filter correlation radiometry and high-resolution interferometry be expl...
Airborne lasers and telescopes for satellite studies on atmospheric properties and optical space com...
The term aerosols, as used here, refers to the haze, smoke, and dust that appear in the troposphere....
The development and characteristics of a lidar system for atmospheric measurements are discussed. Th...
A system for the remote sensing of atmospheric pressure and temperature is described. Resonant lines...
Computer simulations of the differential absorption lidar technique in a space craft for the purpose...
Lidar has enabled advances in the knowledge of the Solar System through geophysical and atmospheric ...
The purpose and principles of spaceborne lidar are described, giving particular attention to candida...
There are currently three operational lidar systems orbiting the Earth, the Moon and the planet Merc...
Several experiments involving spectral scanning interferometers and gas filter correlation radiomete...
AbstractActive optical (Laser/Lidar) measurement techniques are critical for the future National Aer...
The Lidar In-space Technology Experiment (LITE) is a multi-wavelength backscatter lidar developed by...
Spectroscopic measurements are required to define the spectral background and provide the detailed s...
Lidar, an acronym for light detection and ranging, represents a class of instruments that utilize la...
Over the past decade, NASA has played a lead role in defining the scientific objectives and technolo...
It was recommended that gas filter correlation radiometry and high-resolution interferometry be expl...
Airborne lasers and telescopes for satellite studies on atmospheric properties and optical space com...
The term aerosols, as used here, refers to the haze, smoke, and dust that appear in the troposphere....
The development and characteristics of a lidar system for atmospheric measurements are discussed. Th...
A system for the remote sensing of atmospheric pressure and temperature is described. Resonant lines...
Computer simulations of the differential absorption lidar technique in a space craft for the purpose...
Lidar has enabled advances in the knowledge of the Solar System through geophysical and atmospheric ...
The purpose and principles of spaceborne lidar are described, giving particular attention to candida...
There are currently three operational lidar systems orbiting the Earth, the Moon and the planet Merc...
Several experiments involving spectral scanning interferometers and gas filter correlation radiomete...
AbstractActive optical (Laser/Lidar) measurement techniques are critical for the future National Aer...
The Lidar In-space Technology Experiment (LITE) is a multi-wavelength backscatter lidar developed by...
Spectroscopic measurements are required to define the spectral background and provide the detailed s...
Lidar, an acronym for light detection and ranging, represents a class of instruments that utilize la...