The study of exoplanets has been a very active topic in the past years. Despite the indirect nature of most detections to date, those already provide us with a wealth of information on the properties of these exoplanetary systems, like their mass, size, and orbital elements. However, the direct detection of the light emitted or reflected by those planets provides some even more precious information. Coronagraphic instruments that would allow this are generally limited by the wavefront quality at their input, which prevents them from reaching their theoretical performance. Conversely, techniques employing observables designed to be robust to those aberrations are limited by photon noise. These two methods are made incompatible because corona...
International audienceThe final performance of current and future instruments dedicated to exoplanet...
High resolution observations of the sky are made using techniques that fall into two wide categories...
Only 3% of known exoplanets have been directly detected up to now for several reasons. First, they a...
Exoplanet imaging has two intrinsic limitations, namely the small angular separation between the sta...
This research focuses on high contrast multispectral imaging in the view of directly detecting and c...
This thesis aims to optimize high-contrast imaging performance in visible and near infrared for exop...
L’imagerie d’exoplanètes est limitée par deux obstacles intrinsèques : le faible écart angulaire ent...
This thesis is dedicated to the ground-based exoplanet detection and it has been developed in the co...
The science of exoplanets is today a primary research area in astronomy. Their direct observation fr...
La détection des exoplanètes et de l’environnement d’étoiles jeunes tel que les disques de débris fa...
Out of the 1800 exoplanets detected to date, only 50 were by direct imaging. However, by allowing th...
High contrast imaging of exoplanets is currently an upsurging science. Images of exoplanets carry in...
International audienceThe final performance of current and future instruments dedicated to exoplanet...
High resolution observations of the sky are made using techniques that fall into two wide categories...
Only 3% of known exoplanets have been directly detected up to now for several reasons. First, they a...
Exoplanet imaging has two intrinsic limitations, namely the small angular separation between the sta...
This research focuses on high contrast multispectral imaging in the view of directly detecting and c...
This thesis aims to optimize high-contrast imaging performance in visible and near infrared for exop...
L’imagerie d’exoplanètes est limitée par deux obstacles intrinsèques : le faible écart angulaire ent...
This thesis is dedicated to the ground-based exoplanet detection and it has been developed in the co...
The science of exoplanets is today a primary research area in astronomy. Their direct observation fr...
La détection des exoplanètes et de l’environnement d’étoiles jeunes tel que les disques de débris fa...
Out of the 1800 exoplanets detected to date, only 50 were by direct imaging. However, by allowing th...
High contrast imaging of exoplanets is currently an upsurging science. Images of exoplanets carry in...
International audienceThe final performance of current and future instruments dedicated to exoplanet...
High resolution observations of the sky are made using techniques that fall into two wide categories...
Only 3% of known exoplanets have been directly detected up to now for several reasons. First, they a...