A theoretical approach is used to quantify the information available to retrieve cloudphysical properties from data taken by a ground-based spectrometer measuring scatteredsunlight in the near-infrared wavelength region. Three wavelength regions between 0.9and 1.7 mm, each containing water vapor, liquid, and ice absorption features, are examinedusing a differential optical absorption spectroscopy optimal estimation retrieval technique.Cloud properties that can be retrieved include path-integrated liquid water path andpath-integrated ice water path (PLWP and PIWP), cloud liquid and ice temperatures, andthe second moment of the photon path distribution. The accuracy of these cloud propertyretrievals is estimated for a variety of simulated con...
A multilevel spectral radiative transfer model is used to develop simple but accurate parameterizati...
[1] Radiative transfer modeling through cloudy atmospheres requires accurate measurement of the clou...
In this article, liquid water cloud microphysical properties are retrieved by a combination of micro...
A new methodology to retrieve cloud optical properties using hyperspectral infrared measurements wil...
A new methodology to retrieve cloud optical properties using hyper-spectral infrared measurements is...
Ice clouds account for significant uncertainties in our understanding of the current climate as well...
A methodology to retrieve cloud optical properties using high spectral resolution (HSR) infrared (IR...
The liquid water path (LWP) in mixed clouds is restored based on remote measurements of spectral bri...
International audienceA data set of approximately 60,000 airborne measurements of angular scattering...
International audienceThis article presents a novel methodology dedicated to retrieving the optical ...
This paper describes a method for using interferometer measurements of downwelling thermal radiation...
We critically review and improve a simple method to extract year-round records of cloud optical thic...
A novel new approach to retrieve cloud microphysical properties from mixed-phase clouds is presented...
The amplitude and spectral shape of shortwave radiation are used to retrieve aerosol and cloud prope...
Aerosols and clouds play important roles in the climate system through their radiative effects and t...
A multilevel spectral radiative transfer model is used to develop simple but accurate parameterizati...
[1] Radiative transfer modeling through cloudy atmospheres requires accurate measurement of the clou...
In this article, liquid water cloud microphysical properties are retrieved by a combination of micro...
A new methodology to retrieve cloud optical properties using hyperspectral infrared measurements wil...
A new methodology to retrieve cloud optical properties using hyper-spectral infrared measurements is...
Ice clouds account for significant uncertainties in our understanding of the current climate as well...
A methodology to retrieve cloud optical properties using high spectral resolution (HSR) infrared (IR...
The liquid water path (LWP) in mixed clouds is restored based on remote measurements of spectral bri...
International audienceA data set of approximately 60,000 airborne measurements of angular scattering...
International audienceThis article presents a novel methodology dedicated to retrieving the optical ...
This paper describes a method for using interferometer measurements of downwelling thermal radiation...
We critically review and improve a simple method to extract year-round records of cloud optical thic...
A novel new approach to retrieve cloud microphysical properties from mixed-phase clouds is presented...
The amplitude and spectral shape of shortwave radiation are used to retrieve aerosol and cloud prope...
Aerosols and clouds play important roles in the climate system through their radiative effects and t...
A multilevel spectral radiative transfer model is used to develop simple but accurate parameterizati...
[1] Radiative transfer modeling through cloudy atmospheres requires accurate measurement of the clou...
In this article, liquid water cloud microphysical properties are retrieved by a combination of micro...