Context. Understanding the total flux and polarization signals of Earth-like planets and their spectral and temporal variability is essential for the future characterization of such exoplanets. Aims. We provide computed total (F) and linearly (Q and U) and circularly (V) polarized fluxes, and the degree of polarization P of sunlight that is reflected by a model Earth, to be used for instrument designs, optimizing observational strategies, and/or developing retrieval algorithms. Methods. We modeled a realistic Earth-like planet using one year of daily Earth-observation data: cloud parameters (distribution, optical thickness, top pressure, and particle effective radius), and surface parameters (distribution, surface type, and albedo). The Sto...
Aims. We present modeled flux and linear polarization signals of starlight that is reflected by spat...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
Since the first telescopes were invented, scientists all over the Earth began to explore the univers...
International audienceContext. Understanding the total flux and polarization signals of Earth-like p...
International audienceContext. Understanding the total flux and polarization signals of Earth-like p...
Context. Understanding the total flux and polarization signals of Earth-like planets and their spect...
International audienceContext. Understanding the total flux and polarization signals of Earth-like p...
Context. Understanding the total flux and polarization signals of Earth-like planets and their spect...
Context. An exoplanet’s habitability will depend strongly on the presence of liquid water. Flux and/...
Context. An exoplanet’s habitability will depend strongly on the presence of liquid water. Flux and/...
Context. Numerical simulations of starlight that is reflected by Earth-like exoplanets predict habit...
Context. Numerical simulations of starlight that is reflected by Earth-like exoplanets predict habit...
ontext. Numerical simulations of starlight that is reflected by Earth-like exoplanets predict habita...
Context. Terrestrial-type exoplanets in or near stellar habitable zones appear to be ubiquitous. It ...
Aims. We present modeled flux and linear polarization signals of starlight that is reflected by spat...
Aims. We present modeled flux and linear polarization signals of starlight that is reflected by spat...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
Since the first telescopes were invented, scientists all over the Earth began to explore the univers...
International audienceContext. Understanding the total flux and polarization signals of Earth-like p...
International audienceContext. Understanding the total flux and polarization signals of Earth-like p...
Context. Understanding the total flux and polarization signals of Earth-like planets and their spect...
International audienceContext. Understanding the total flux and polarization signals of Earth-like p...
Context. Understanding the total flux and polarization signals of Earth-like planets and their spect...
Context. An exoplanet’s habitability will depend strongly on the presence of liquid water. Flux and/...
Context. An exoplanet’s habitability will depend strongly on the presence of liquid water. Flux and/...
Context. Numerical simulations of starlight that is reflected by Earth-like exoplanets predict habit...
Context. Numerical simulations of starlight that is reflected by Earth-like exoplanets predict habit...
ontext. Numerical simulations of starlight that is reflected by Earth-like exoplanets predict habita...
Context. Terrestrial-type exoplanets in or near stellar habitable zones appear to be ubiquitous. It ...
Aims. We present modeled flux and linear polarization signals of starlight that is reflected by spat...
Aims. We present modeled flux and linear polarization signals of starlight that is reflected by spat...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
Since the first telescopes were invented, scientists all over the Earth began to explore the univers...