In the context of the development by EUMETSAT of a new generation of meteorological satellites, we have built the new σ-IASI-as (where "as" stands for "all sky") radiative transfer code. Unlike its predecessor σ-IASI, the code is able to calculate both clear and cloudy sky radiances, as well as their Jacobians with respect to any desired geophysical parameter. In addition, σ-IASI-as can perform calculations to simulate the extinction effect of the most common types of atmospheric aerosols and of clouds via ab-initio Mie calculations. We briefly describe the analytical scheme on which the model is based, and have a glance to its potentialities illustrating some sample calculations. Overall, the new model is a complete and fast radiative tran...
Accurate solar irradiance data are not only of particular importance for the assessment of the radia...
The new Heliosat‑4 method estimates the downwelling shortwave irradiance received at ground level in...
This paper presents a radiative transfer model that has been developed to accurately predict the atm...
In the context of the development by EUMETSAT of a new generation of meteorological satellites, we h...
The radiative transfer code σ-IASI [Amato et al. 2002] consists of a monochromatic radiative transfe...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
Atmospheric radiative transfer plays a central role in understanding global climate change and anthr...
The interaction of clouds with solar and terrestrial radiation is one of the most important topics o...
This thesis describes a new procedure for computing irradiances for the Earth's atmosphere including...
CD-ROMInternational audienceSolar radiation is modified in its way downwards by the content of the a...
The Monte Carlo (MC) method is an effective approach to simulate the radiative transfer in an inhomo...
International audienceAccurate solar irradiance data are not only of particular importance for the a...
Radiation is the ultimate source of energy that drives our weather and climate. It is also the funda...
Accurate solar irradiance data are not only of particular importance for the assessment of the radia...
The new Heliosat‑4 method estimates the downwelling shortwave irradiance received at ground level in...
This paper presents a radiative transfer model that has been developed to accurately predict the atm...
In the context of the development by EUMETSAT of a new generation of meteorological satellites, we h...
The radiative transfer code σ-IASI [Amato et al. 2002] consists of a monochromatic radiative transfe...
This paper describes an improved, faster, implementation of the σ-IASI model, with a new parameteriz...
This paper describes a new fast line-by-line radiative transfer scheme which computes top of the atm...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
Atmospheric radiative transfer plays a central role in understanding global climate change and anthr...
The interaction of clouds with solar and terrestrial radiation is one of the most important topics o...
This thesis describes a new procedure for computing irradiances for the Earth's atmosphere including...
CD-ROMInternational audienceSolar radiation is modified in its way downwards by the content of the a...
The Monte Carlo (MC) method is an effective approach to simulate the radiative transfer in an inhomo...
International audienceAccurate solar irradiance data are not only of particular importance for the a...
Radiation is the ultimate source of energy that drives our weather and climate. It is also the funda...
Accurate solar irradiance data are not only of particular importance for the assessment of the radia...
The new Heliosat‑4 method estimates the downwelling shortwave irradiance received at ground level in...
This paper presents a radiative transfer model that has been developed to accurately predict the atm...