International audienceExtracting accurate photometry (and astrometry) from images taken with adaptive optics assisted instruments is particularly challenging. Current post-processing tools are not prepared to achieve high accuracy from AO data, especially in limiting cases of crowded fields and marginally resolved sources. We quantify the limitations of these tools with synthetic images, and present a proof-of-concept study showing the potential of using reconstructed PSFs from the (GL)AO system telemetry to increase the measured photometric accuracy. We show that the photometric accuracy is significantly improved with a good PSF reconstruction in considerably crowded regions. We demonstrate the need for a dedicated post-processing tool tha...
International audienceImages obtained with adaptive optics (AO) systems can be improved by using res...
Images obtained with adaptive optics (AO) systems can be improved by using restoration techniques, t...
Context. Anisoplanatic effects can cause significant systematic photometric uncertainty in the anal...
International audienceExtracting accurate photometry (and astrometry) from images taken with adaptiv...
Astronomical adaptive optics (AO) data analysis requires the knowledge of the PSF associated to the ...
International audienceThe determination of the optical point spread function (PSF) or a model thereo...
The full scientific exploitation of AO images to study resolved stellar populations is still in a na...
The full scientific exploitation of AO images to study resolved stellar populations is still in a na...
The full scientific exploitation of AO images to study resolved stellar populations is still in...
Adaptive optics (AO) allows one to derive the point spread function (PSF) simultaneously to the scie...
Determining the PSF remains a key challenge for post adaptive-optics (AO) observations regarding the...
International audienceScientific exploitation in ground-based astronomy is improved thanks to adapti...
International audienceImages obtained with adaptive optics (AO) systems can be improved by using res...
Images obtained with adaptive optics (AO) systems can be improved by using restoration techniques, t...
Context. Anisoplanatic effects can cause significant systematic photometric uncertainty in the anal...
International audienceExtracting accurate photometry (and astrometry) from images taken with adaptiv...
Astronomical adaptive optics (AO) data analysis requires the knowledge of the PSF associated to the ...
International audienceThe determination of the optical point spread function (PSF) or a model thereo...
The full scientific exploitation of AO images to study resolved stellar populations is still in a na...
The full scientific exploitation of AO images to study resolved stellar populations is still in a na...
The full scientific exploitation of AO images to study resolved stellar populations is still in...
Adaptive optics (AO) allows one to derive the point spread function (PSF) simultaneously to the scie...
Determining the PSF remains a key challenge for post adaptive-optics (AO) observations regarding the...
International audienceScientific exploitation in ground-based astronomy is improved thanks to adapti...
International audienceImages obtained with adaptive optics (AO) systems can be improved by using res...
Images obtained with adaptive optics (AO) systems can be improved by using restoration techniques, t...
Context. Anisoplanatic effects can cause significant systematic photometric uncertainty in the anal...