Context. The focal-plane contrast of exoplanet imagers is affected by non-common path aberrations (NCPAs) that the adaptive optics system cannot correct for because they occur after the wavefront has been measured. NCPA estimation is commonly based on the long-exposure science image. Phase retrieval algorithms are often used, and they mostly assume that the residual phase error right after the adaptive optics system and averaged over the integration time is zero. This assumption is not always correct, for instance when controlling the adaptive optics to maximize the focal-plane contrast at the location of an exoplanet, that is to say in an adaptive coronagraph. For such cases, we present a method to calculate the NCPA using the phase inform...
The success of ground-based, high contrast imaging for the detection of exoplanets in part depends o...
Context. Differentiating between a true exoplanet signal and residual speckle noise is a key challen...
Context. The second-generation instrument SPHERE, dedicated to high-contrast imaging, will soon be i...
Context. The focal-plane contrast of exoplanet imagers is affected by non-common path aberrations (N...
International audienceQuasi-static aberrations in coronagraphic systems are the ultimate limitation ...
Exoplanet direct imaging is a challenging goal of today’s astronomical instrumentation. Several high...
International audienceContext. Several exoplanet direct-imaging instruments (VLT-SPHERE, Gemini Plan...
International audienceContext. Spectroscopy of exoplanets is very challenging because of the high st...
Context. Direct imaging of exoplanets requires very high contrast levels, which are obtained using c...
Received ********; accepted ******** Context. Several exoplanet direct-imaging instruments (VLT-SPHE...
Non-common path aberrations (NCPA) in an adaptive optics system are static aberrations that appear d...
Phase aberrations in optical systems,which occur in various applications such as astronomy, microsco...
The success of ground-based, high contrast imaging for the detection of exoplanets in part depends o...
Context. Differentiating between a true exoplanet signal and residual speckle noise is a key challen...
Context. The second-generation instrument SPHERE, dedicated to high-contrast imaging, will soon be i...
Context. The focal-plane contrast of exoplanet imagers is affected by non-common path aberrations (N...
International audienceQuasi-static aberrations in coronagraphic systems are the ultimate limitation ...
Exoplanet direct imaging is a challenging goal of today’s astronomical instrumentation. Several high...
International audienceContext. Several exoplanet direct-imaging instruments (VLT-SPHERE, Gemini Plan...
International audienceContext. Spectroscopy of exoplanets is very challenging because of the high st...
Context. Direct imaging of exoplanets requires very high contrast levels, which are obtained using c...
Received ********; accepted ******** Context. Several exoplanet direct-imaging instruments (VLT-SPHE...
Non-common path aberrations (NCPA) in an adaptive optics system are static aberrations that appear d...
Phase aberrations in optical systems,which occur in various applications such as astronomy, microsco...
The success of ground-based, high contrast imaging for the detection of exoplanets in part depends o...
Context. Differentiating between a true exoplanet signal and residual speckle noise is a key challen...
Context. The second-generation instrument SPHERE, dedicated to high-contrast imaging, will soon be i...