Add to ORKGRetrievals of atmospheric composition from near-infrared measurements require measurements of airmass to better than the desired precision of the composition. The oxygen bands are obvious choices to quantify airmass since the mixing ratio of oxygen is fixed over the full range of atmospheric conditions. The OCO-2 mission is currently retrieving carbon dioxide concentration using the oxygen A-band for airmass normalization. The 0.25\% accuracy desired for the carbon dioxide concentration has pushed the required state-of-the-art for oxygen spectroscopy. To measure O$_2$ A-band cross-sections with such accuracy through the full range of atmospheric pressure requires a sophisticated line-shape model (Rautian or Speed-Dependent Voigt) with ...
The oxygen A-band (760 nm) is used in a number of remote sensing applications due to the precisely k...
The oxygen A-band (760 nm) is used in a number of remote sensing applications due to the precisely k...
NASA's Orbiting Carbon Observatory missions OCO-2 and OCO-3 require spectroscopic parameterization o...
Retrievals of atmospheric composition from near-infrared measurements require measurements of airmas...
Retrievals of atmospheric composition from near-infrared measurements require measurements of airmas...
Retrievals of atmospheric composition from near-infrared measurements require measurements of airmas...
Composition measurements from remote sensing platforms require knowledge of air mass to better than ...
Composition measurements from remote sensing platforms require knowledge of air mass to better than ...
Because of the constant mixing ratio of molecular oxygen (\chem{O_2}) within the Earth’s atmosphere,...
Molecular oxygen (O$_{2}$) has a well-known and uniform molar fraction within the Earth’s atmosphere...
Because of the constant mixing ratio of molecular oxygen (\chem{O_2}) within the Earth’s atmosphere,...
The oxygen A band is used for numerous atmospheric experiments, but spectral line parameters that su...
Accurate spectroscopic models are required for remote sensing missions that use spectroscopic method...
Molecular oxygen (O$_{2}$) has a well-known and uniform molar fraction within the Earth’s atmosphere...
Accurate spectroscopic models are required for remote sensing missions that use spectroscopic method...
The oxygen A-band (760 nm) is used in a number of remote sensing applications due to the precisely k...
The oxygen A-band (760 nm) is used in a number of remote sensing applications due to the precisely k...
NASA's Orbiting Carbon Observatory missions OCO-2 and OCO-3 require spectroscopic parameterization o...
Retrievals of atmospheric composition from near-infrared measurements require measurements of airmas...
Retrievals of atmospheric composition from near-infrared measurements require measurements of airmas...
Retrievals of atmospheric composition from near-infrared measurements require measurements of airmas...
Composition measurements from remote sensing platforms require knowledge of air mass to better than ...
Composition measurements from remote sensing platforms require knowledge of air mass to better than ...
Because of the constant mixing ratio of molecular oxygen (\chem{O_2}) within the Earth’s atmosphere,...
Molecular oxygen (O$_{2}$) has a well-known and uniform molar fraction within the Earth’s atmosphere...
Because of the constant mixing ratio of molecular oxygen (\chem{O_2}) within the Earth’s atmosphere,...
The oxygen A band is used for numerous atmospheric experiments, but spectral line parameters that su...
Accurate spectroscopic models are required for remote sensing missions that use spectroscopic method...
Molecular oxygen (O$_{2}$) has a well-known and uniform molar fraction within the Earth’s atmosphere...
Accurate spectroscopic models are required for remote sensing missions that use spectroscopic method...
The oxygen A-band (760 nm) is used in a number of remote sensing applications due to the precisely k...
The oxygen A-band (760 nm) is used in a number of remote sensing applications due to the precisely k...
NASA's Orbiting Carbon Observatory missions OCO-2 and OCO-3 require spectroscopic parameterization o...