Add to ORKGInternational audienceExtension of radiative transfer code MOMO and validation. Application to IAOOS project combining ground-based and space observation
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
Using our decades-long experience in radiative transfer (RT) code development for Earth science, we ...
Radiation is the ultimate source of energy that drives our weather and climate. It is also the funda...
International audienceExtension of radiative transfer code MOMO and validation. Application to IAOOS...
International audience1-D radiative transfer code MOMO (Matrix-Operator Model), has been extended fr...
The data are results from radiative transfer simulations from 390 to 1020 nm in 1nm resolution. They...
Results are summarized for a scientific project devoted to the comparison of four atmospheric radiat...
The spatial distribution of aerosol and clouds in the atmosphere leads, in a significant number of c...
(MOS) sensor on board the Indian Remote Sensing satellite (IRS-P3) launched by the Indian Space Rese...
We present EOS, a procedure for determining the outgoing longwave radiation (OLR) and top-of-atmosph...
A radiative transfer simulation technique (RTST) is described that is applied to simulate spectral s...
Introduction to the physics of atmospheric radiation and remote sensing including use of computer co...
Based on current conditions that an IBM workstation RISC/6000 320H was purchased by the end of the l...
We compute the surface and atmosphere radiation budget (SARB) and validate with simultaneous, colloc...
The quantification of atmospheric effects on the solar radiation measured by a spaceborne or airborn...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
Using our decades-long experience in radiative transfer (RT) code development for Earth science, we ...
Radiation is the ultimate source of energy that drives our weather and climate. It is also the funda...
International audienceExtension of radiative transfer code MOMO and validation. Application to IAOOS...
International audience1-D radiative transfer code MOMO (Matrix-Operator Model), has been extended fr...
The data are results from radiative transfer simulations from 390 to 1020 nm in 1nm resolution. They...
Results are summarized for a scientific project devoted to the comparison of four atmospheric radiat...
The spatial distribution of aerosol and clouds in the atmosphere leads, in a significant number of c...
(MOS) sensor on board the Indian Remote Sensing satellite (IRS-P3) launched by the Indian Space Rese...
We present EOS, a procedure for determining the outgoing longwave radiation (OLR) and top-of-atmosph...
A radiative transfer simulation technique (RTST) is described that is applied to simulate spectral s...
Introduction to the physics of atmospheric radiation and remote sensing including use of computer co...
Based on current conditions that an IBM workstation RISC/6000 320H was purchased by the end of the l...
We compute the surface and atmosphere radiation budget (SARB) and validate with simultaneous, colloc...
The quantification of atmospheric effects on the solar radiation measured by a spaceborne or airborn...
The paper illustrates the new features of the line-by-line radiative transfer model σ -IASI. The new...
Using our decades-long experience in radiative transfer (RT) code development for Earth science, we ...
Radiation is the ultimate source of energy that drives our weather and climate. It is also the funda...