One of the primary scientific limitations of adaptive optics (AO) has been the incomplete knowledge of the point spread function (PSF), which has made it difficult to use AO for accurate photometry and astrometry in both crowded and sparse fields, for extracting intrinsic morphologies and spatially resolved kinematics, and for detecting faint sources in the presence of brighter sources. To address this we initiated a program to determine and demonstrate PSF determination for science observations obtained with Keck AO. This paper aims to give a broad view of the progress achieved in implementing this capability for Keck AO science observations.The concept and the implementation are briefly described. The design and development of prototype o...
International audienceContext. Adaptive optics (AO) systems greatly increase the resolution of large...
Accepted for publication in A&A; 6 pages, 3 figuresInternational audienceContext. The knowledge of t...
Adaptive optics (AO) allows one to derive the point spread function (PSF) simultaneously to the scie...
One of the primary scientific limitations of adaptive optics (AO) has been the incomplete knowledge ...
There is great interest in the adaptive optics (AO) science community to overcome the limitations im...
We present the final development of our point spread function reconstruction algorithm for the Keck-...
We discuss in this paper the last results of our adaptive optics point spread function reconstructio...
International audienceScientific exploitation in ground-based astronomy is improved thanks to adapti...
We present in this paper an analysis of our preliminary results for point spread function reconstruc...
International audienceContext. Modeling the optical point spread function (PSF) is particularly chal...
Astrometric precision and knowledge of the point spread function are key ingredients for a wide rang...
International audienceThe determination of the optical point spread function (PSF) or a model thereo...
Context. Adaptive optics (AO) systems greatly increase the resolution of large telescopes, but produ...
Context. Modeling the optical point spread function (PSF) is particularly challenging for adaptive o...
International audienceContext. Adaptive optics (AO) systems greatly increase the resolution of large...
Accepted for publication in A&A; 6 pages, 3 figuresInternational audienceContext. The knowledge of t...
Adaptive optics (AO) allows one to derive the point spread function (PSF) simultaneously to the scie...
One of the primary scientific limitations of adaptive optics (AO) has been the incomplete knowledge ...
There is great interest in the adaptive optics (AO) science community to overcome the limitations im...
We present the final development of our point spread function reconstruction algorithm for the Keck-...
We discuss in this paper the last results of our adaptive optics point spread function reconstructio...
International audienceScientific exploitation in ground-based astronomy is improved thanks to adapti...
We present in this paper an analysis of our preliminary results for point spread function reconstruc...
International audienceContext. Modeling the optical point spread function (PSF) is particularly chal...
Astrometric precision and knowledge of the point spread function are key ingredients for a wide rang...
International audienceThe determination of the optical point spread function (PSF) or a model thereo...
Context. Adaptive optics (AO) systems greatly increase the resolution of large telescopes, but produ...
Context. Modeling the optical point spread function (PSF) is particularly challenging for adaptive o...
International audienceContext. Adaptive optics (AO) systems greatly increase the resolution of large...
Accepted for publication in A&A; 6 pages, 3 figuresInternational audienceContext. The knowledge of t...
Adaptive optics (AO) allows one to derive the point spread function (PSF) simultaneously to the scie...