Add to ORKGWe present a single-scattering approximation for infrared radiative transfer in limb geometry in the Martian atmosphere. It is based on the assumption that the upwelling internal radiation field is dominated by a surface with a uniform brightness temperature. It allows the calculation of the scattering source function for individual aerosol types, mixtures of aerosol types, and mixtures of gas and aerosol. The approximation can be applied in a Curtis-Godson radiative transfer code and is used for operational retrievals from Mars Climate Sounder measurements. Radiance comparisons with a multiple scattering model show good agreement in the mid- and far-infrared although the approximate model tends to underestimate the radiances in realistic c...
A multi-layer radiative transfer model of the atmosphere of Mars, the UVIS simulation, has been crea...
International audienceDust cycle is one of the most important in the Martian climate system. Martian...
Satellite and rover remote sensing of planetary regolith surfaces, in the form of thermal infrared e...
We present a single-scattering approximation for infrared radiative transfer in limb geometry in the...
A Planetary Fourier Spectrometer (PFS) onboard a future Mars mission will record a big amount of dat...
Synthetic infrared radiation spectra of Mars which can be measured by an orbiting Planetary Fourier ...
[1] We combine a robust multiple-scattering radiative transfer algorithm with the Thermal Emission S...
Interpretation of the vast data flow from the recent and ongoing Mars missions requires extensive mo...
The properties of aerosol dust on Mars may be deduced from photometric observations of its atmospher...
One of the key radiative agents in the atmosphere of Mars is the suspended dust particles. A new ana...
International audienceA general parameterization is proposed in this study to calculate, in a Mars-l...
Output datasets for Figures (fig. 1 to 9) for the intercomparison of radiative transfer algorithms f...
We present an advanced light-scattering model to retrieve the optical constants of three Martian dus...
We present a new comprehensive radiative transfer model to study the solar irradiance that reaches t...
Data-sets of figures (1 to 10) for the Comparison of radiative transfer schemes for the calculation ...
A multi-layer radiative transfer model of the atmosphere of Mars, the UVIS simulation, has been crea...
International audienceDust cycle is one of the most important in the Martian climate system. Martian...
Satellite and rover remote sensing of planetary regolith surfaces, in the form of thermal infrared e...
We present a single-scattering approximation for infrared radiative transfer in limb geometry in the...
A Planetary Fourier Spectrometer (PFS) onboard a future Mars mission will record a big amount of dat...
Synthetic infrared radiation spectra of Mars which can be measured by an orbiting Planetary Fourier ...
[1] We combine a robust multiple-scattering radiative transfer algorithm with the Thermal Emission S...
Interpretation of the vast data flow from the recent and ongoing Mars missions requires extensive mo...
The properties of aerosol dust on Mars may be deduced from photometric observations of its atmospher...
One of the key radiative agents in the atmosphere of Mars is the suspended dust particles. A new ana...
International audienceA general parameterization is proposed in this study to calculate, in a Mars-l...
Output datasets for Figures (fig. 1 to 9) for the intercomparison of radiative transfer algorithms f...
We present an advanced light-scattering model to retrieve the optical constants of three Martian dus...
We present a new comprehensive radiative transfer model to study the solar irradiance that reaches t...
Data-sets of figures (1 to 10) for the Comparison of radiative transfer schemes for the calculation ...
A multi-layer radiative transfer model of the atmosphere of Mars, the UVIS simulation, has been crea...
International audienceDust cycle is one of the most important in the Martian climate system. Martian...
Satellite and rover remote sensing of planetary regolith surfaces, in the form of thermal infrared e...