Add to ORKGI present numerical simulations of intensity and degree of polarization of light reflected by Earth-like exoplanets. The results are presented as a function of wavelength, and for a few different phase angles and a few different points on the planet. At this stage the aim is to show the working code and test a few different set ups of the star-planet system in order to find preferable configurations for observations. Not surprisingly, phase angle 90◦ shows the largest degree of polarization. For beneficial wavelength regions, visual light shows a larger overall degree of polarization, while NIR shows very clear absorption patterns in the degree of polarization, making detection of the atmospheric composition possible
International audienceTerrestrial-type exoplanets in or near stellar habitable zones appear to be ub...
It is becoming clear that the atmospheres of the young, self-luminous extrasolar gi-ant planets imag...
n the James Webb Space Telescope and Extremely Large Telescopes era we expect to characterize a numb...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
Context. Reflected light from giant planets is polarized by scattering, offering the possibility of ...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
We present results of numerical simulations of flux F and degree of polarization P of light that is...
We present results of numerical simulations of flux F and degree of polarization P of light that is...
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...
Context. Terrestrial-type exoplanets in or near stellar habitable zones appear to be ubiquitous. It ...
We have developed, from scratch, a 3D radiative transfer code based on the Monte Carlo method, that ...
Previous studies have investigated the remote appearance of Earth-like exoplanets in the prospect of...
Polarimetry is widely becoming recognized as a powerful technique for enhancing the contrast between...
International audienceTerrestrial-type exoplanets in or near stellar habitable zones appear to be ub...
It is becoming clear that the atmospheres of the young, self-luminous extrasolar gi-ant planets imag...
n the James Webb Space Telescope and Extremely Large Telescopes era we expect to characterize a numb...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
Context. Reflected light from giant planets is polarized by scattering, offering the possibility of ...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
We present results of numerical simulations of flux F and degree of polarization P of light that is ...
We present results of numerical simulations of flux F and degree of polarization P of light that is...
We present results of numerical simulations of flux F and degree of polarization P of light that is...
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...
Context. Terrestrial-type exoplanets in or near stellar habitable zones appear to be ubiquitous. It ...
We have developed, from scratch, a 3D radiative transfer code based on the Monte Carlo method, that ...
Previous studies have investigated the remote appearance of Earth-like exoplanets in the prospect of...
Polarimetry is widely becoming recognized as a powerful technique for enhancing the contrast between...
International audienceTerrestrial-type exoplanets in or near stellar habitable zones appear to be ub...
It is becoming clear that the atmospheres of the young, self-luminous extrasolar gi-ant planets imag...
n the James Webb Space Telescope and Extremely Large Telescopes era we expect to characterize a numb...