The angular resolution for ground-based observations is limited by the atmospherie turbulence which deforms randomly the light's wavefront of an astronomical object. Adaptive optics has been developed to correct this deformation in real time. The correction, however, is often only partial and deconvolution of the image is important in order to do accurate photometry. The first part of this thesis presents the estimation of the point spread function for the adaptive optics system ADONIS of the 3.6m ESO telescope. The variability of the atmospheric conditions makes it difficult to calibrate it properly by observing a point-like source. For this reason, I used the method developed for the adaptive optics system PUEO which estimates the point s...
Abstract. This paper aims to help prospective observers estimate the likely performance of adaptive ...
Severely Iimited by atmospheric turbulence, large ground based telescopes are not capable of attaini...
High angular resolution imaging of ground-based telescopes is severely limited by optical aberration...
The angular resolution for ground-based observations is limited by the atmospherie turbulence which ...
Adaptive Optics (AO) has been developed to compensate the wavefront deformation due to the atmosphe...
Imaging resolution is severely reduced in astronomy due to the atmospheric turbulence. The resulting...
Atmospheric turbulence is an important limit to high angularresolution in astronomy. Interferometry ...
La résolution des images astronomiques est sévèrement dégradée par la turbulence atmosphérique. La r...
The science of exoplanets is today a primary research area in astronomy. Their direct observation fr...
Modern ground-based telescopes rely on Adaptive Optics (AO) systems, which compensate for atmospheri...
Atmospheric turbulence limits the quality of stellar images obtained from the ground with a telescop...
The observation of the Sun at high angular resolution is of great importance in astronomy. In this c...
Exoplanet imaging has two intrinsic limitations, namely the small angular separation between the sta...
Today, adaptive optics (AO) is installed on all very large astronomical telescopes. It allows to ove...
The challenge in building astronomical telescopes is to obtain the clearest possible image of a dis...
Abstract. This paper aims to help prospective observers estimate the likely performance of adaptive ...
Severely Iimited by atmospheric turbulence, large ground based telescopes are not capable of attaini...
High angular resolution imaging of ground-based telescopes is severely limited by optical aberration...
The angular resolution for ground-based observations is limited by the atmospherie turbulence which ...
Adaptive Optics (AO) has been developed to compensate the wavefront deformation due to the atmosphe...
Imaging resolution is severely reduced in astronomy due to the atmospheric turbulence. The resulting...
Atmospheric turbulence is an important limit to high angularresolution in astronomy. Interferometry ...
La résolution des images astronomiques est sévèrement dégradée par la turbulence atmosphérique. La r...
The science of exoplanets is today a primary research area in astronomy. Their direct observation fr...
Modern ground-based telescopes rely on Adaptive Optics (AO) systems, which compensate for atmospheri...
Atmospheric turbulence limits the quality of stellar images obtained from the ground with a telescop...
The observation of the Sun at high angular resolution is of great importance in astronomy. In this c...
Exoplanet imaging has two intrinsic limitations, namely the small angular separation between the sta...
Today, adaptive optics (AO) is installed on all very large astronomical telescopes. It allows to ove...
The challenge in building astronomical telescopes is to obtain the clearest possible image of a dis...
Abstract. This paper aims to help prospective observers estimate the likely performance of adaptive ...
Severely Iimited by atmospheric turbulence, large ground based telescopes are not capable of attaini...
High angular resolution imaging of ground-based telescopes is severely limited by optical aberration...