International audienceThe next generation of Extremely Large Telescope (24 to 39m diameter) will suffer from the so-called "pupil fragmentation" problem. Due to their pupil shape complexity (segmentation, large spiders ...), some differential pistons may appear between some isolated part of the full pupil during the observations. Although classical AO system will be able to correct for turbulence effects, they will be blind to this specific telescope induced perturbations. Hence, such differential piston, a.k.a petal modes, will prevent to reach the diffraction limit of the telescope and ultimately will represent the main limitation of AO-assisted observation with an ELT. In this work we analyse the spatial structure of these petal modes an...
International audienceThe next generation of Giant Fragmented Telescopes will allow the study of fai...
The 2020s are to see the first light of Extremely Large Telescopes (ELTs), and together with it a re...
The next generation of giant ground and space telescopes will have the light-collect-ing power to de...
International audienceThe next generation of Extremely Large Telescope (24 to 39m diameter) will suf...
The next generation of Extremely Large Telescope (24 to 39m diameter) will suffer from the so-called...
The next generation of Extremely Large Telescope (24 to 39m diameter) will suffer from the so-called...
The astronomical community is paving the way for extremely large telescopes, with notably the ELT, a...
La communauté astronomique prépare l’arrivée des télescopes géants avec notamment l’ELT, télescope e...
International audienceAs already noticed in other telescopes, the presence of large telescope spider...
One of the challenges faced by the adaptive optics systems on extremely large telescopes, such as th...
Context. The pyramid was proven to be a highly sensitive and versatile wave-front sensor (WFS) and h...
Atmospheric turbulence is an important limit to high angularresolution in astronomy. Interferometry ...
Images observed at ground-based telescopes are blurred by Earth’s atmosphere. Adaptive optics syste...
International audienceThe next generation of Giant Fragmented Telescopes will allow the study of fai...
The 2020s are to see the first light of Extremely Large Telescopes (ELTs), and together with it a re...
The next generation of giant ground and space telescopes will have the light-collect-ing power to de...
International audienceThe next generation of Extremely Large Telescope (24 to 39m diameter) will suf...
The next generation of Extremely Large Telescope (24 to 39m diameter) will suffer from the so-called...
The next generation of Extremely Large Telescope (24 to 39m diameter) will suffer from the so-called...
The astronomical community is paving the way for extremely large telescopes, with notably the ELT, a...
La communauté astronomique prépare l’arrivée des télescopes géants avec notamment l’ELT, télescope e...
International audienceAs already noticed in other telescopes, the presence of large telescope spider...
One of the challenges faced by the adaptive optics systems on extremely large telescopes, such as th...
Context. The pyramid was proven to be a highly sensitive and versatile wave-front sensor (WFS) and h...
Atmospheric turbulence is an important limit to high angularresolution in astronomy. Interferometry ...
Images observed at ground-based telescopes are blurred by Earth’s atmosphere. Adaptive optics syste...
International audienceThe next generation of Giant Fragmented Telescopes will allow the study of fai...
The 2020s are to see the first light of Extremely Large Telescopes (ELTs), and together with it a re...
The next generation of giant ground and space telescopes will have the light-collect-ing power to de...