Add to ORKGThe Far Infrared is a spectral domain with increasing importance for remote Sensing of the atmosphere. The aspects of absolute frequency and intensity measurements with a Fourier transform spectrometer will be discussed with respect to remote sensing of trace constituent molecules in the stratosphetre
Author Institution: Research Division, Office of Earth Science, Code YS, National Aeronautics and Sp...
The Institute of Applied Physics observes middle atmospheric trace gases, such as ozone and water v...
Spectral and geometrical resolved observations in remote sensing give information about spatial dist...
The far infrared is a spectral domain with increasing importance for remote sensing of the atmospher...
Fourier transform emission spectroscopy can make an important contribution in the observation of the...
High accuracy laboratory measurements for the spectroscopic database of atmospheric constituents wer...
Author Institution: Digilab, Inc.Some gas-phase spectra will be examined in the far-infrared region ...
Author Institution: Atmospheric Chemistry Division, P.O. Box 3000, Boulder, Colorado 80307, USAIn th...
We describe an aircraft-based Fourier-transform spectrometer (FTS) designed to measure the Earth out...
Fourier transform spectrometers developed in three distinct spectral regions in the early 1960s. Pie...
Global measurements of far infrared emission from the upper troposphere are required to test models ...
Author Institution: Herzberg Institute of Astrophysics, National Research Council of CanadaThe accur...
Global measurements of far infrared emission from the upper troposphere are required to test models ...
Spectral imaging has become a powerful new tool in environmental remote sensing from both air and sp...
Far-infrared emission spectroscopy has beendemonstrated to be a valuable method for remotesensing of...
Author Institution: Research Division, Office of Earth Science, Code YS, National Aeronautics and Sp...
The Institute of Applied Physics observes middle atmospheric trace gases, such as ozone and water v...
Spectral and geometrical resolved observations in remote sensing give information about spatial dist...
The far infrared is a spectral domain with increasing importance for remote sensing of the atmospher...
Fourier transform emission spectroscopy can make an important contribution in the observation of the...
High accuracy laboratory measurements for the spectroscopic database of atmospheric constituents wer...
Author Institution: Digilab, Inc.Some gas-phase spectra will be examined in the far-infrared region ...
Author Institution: Atmospheric Chemistry Division, P.O. Box 3000, Boulder, Colorado 80307, USAIn th...
We describe an aircraft-based Fourier-transform spectrometer (FTS) designed to measure the Earth out...
Fourier transform spectrometers developed in three distinct spectral regions in the early 1960s. Pie...
Global measurements of far infrared emission from the upper troposphere are required to test models ...
Author Institution: Herzberg Institute of Astrophysics, National Research Council of CanadaThe accur...
Global measurements of far infrared emission from the upper troposphere are required to test models ...
Spectral imaging has become a powerful new tool in environmental remote sensing from both air and sp...
Far-infrared emission spectroscopy has beendemonstrated to be a valuable method for remotesensing of...
Author Institution: Research Division, Office of Earth Science, Code YS, National Aeronautics and Sp...
The Institute of Applied Physics observes middle atmospheric trace gases, such as ozone and water v...
Spectral and geometrical resolved observations in remote sensing give information about spatial dist...