Add to ORKGAerosols are responsible for the largest uncertainties in current estimates of climate forcing. These uncertainties are due in part to the limited abilities of passive sensors to retrieve aerosols in cloudy skies. We use a dataset which merges CALIOP observations together with other A-train observations to estimate aerosol radiative effects in cloudy skies as well as in cloud-free skies. The results can be used to quantify the reduction of aerosol radiative effects in cloudy skies relative to clear skies and to reduce current uncertainties in aerosol radiative effects
This paper describes an efficient and unique method for computing the shortwave direct radiative eff...
We conceptualize aerosol radiative transfer processes arising from the hypothetical coupling of a gl...
Observational constraints on the change in the radiative energy budget caused by the presence of aer...
Aerosols are responsible for the largest uncertainties in current estimates of climate forcing. Thes...
Aerosols are responsible for the largest uncertainties in current estimates of climate orcing. These...
The radiative forcing of the aerosol-radiation interaction can be decomposed into clear-sky and clou...
We describe a technique for combining CALIOP aerosol backscatter, MODIS spectral AOD (aerosol optica...
International audienceAerosols affect the Earth's energy budget directly by scattering and absorbing...
This paper describes an efficient and unique method for computing the shortwave direct radiative eff...
International audienceA four year record of MODIS spaceborne data provides a new measurement tool to...
International audienceAerosols affect the Earth's energy budget ''directly'' by scattering and absor...
Airborne particles, which include desert and soil dust, wildfire smoke, sea salt, volcanic ash, blac...
We conceptualize aerosol radiative transfer processes arising from the hypothetical coupling of a gl...
International audienceA four year record of MODIS spaceborne data provides a new measurement tool to...
All-sky direct aerosol radiative effects (DARE) play a significant yet still uncertain role in clim...
This paper describes an efficient and unique method for computing the shortwave direct radiative eff...
We conceptualize aerosol radiative transfer processes arising from the hypothetical coupling of a gl...
Observational constraints on the change in the radiative energy budget caused by the presence of aer...
Aerosols are responsible for the largest uncertainties in current estimates of climate forcing. Thes...
Aerosols are responsible for the largest uncertainties in current estimates of climate orcing. These...
The radiative forcing of the aerosol-radiation interaction can be decomposed into clear-sky and clou...
We describe a technique for combining CALIOP aerosol backscatter, MODIS spectral AOD (aerosol optica...
International audienceAerosols affect the Earth's energy budget directly by scattering and absorbing...
This paper describes an efficient and unique method for computing the shortwave direct radiative eff...
International audienceA four year record of MODIS spaceborne data provides a new measurement tool to...
International audienceAerosols affect the Earth's energy budget ''directly'' by scattering and absor...
Airborne particles, which include desert and soil dust, wildfire smoke, sea salt, volcanic ash, blac...
We conceptualize aerosol radiative transfer processes arising from the hypothetical coupling of a gl...
International audienceA four year record of MODIS spaceborne data provides a new measurement tool to...
All-sky direct aerosol radiative effects (DARE) play a significant yet still uncertain role in clim...
This paper describes an efficient and unique method for computing the shortwave direct radiative eff...
We conceptualize aerosol radiative transfer processes arising from the hypothetical coupling of a gl...
Observational constraints on the change in the radiative energy budget caused by the presence of aer...