Add to ORKGThe success of ground-based instruments for high contrast exoplanet imaging depends on the degree to which adaptive optics (AO) systems can mitigate atmospheric turbulence. While modern AO systems typically suffer from millisecond time lags between wavefront measurement and control, predictive wavefront control (pWFC) is a means of compensating for those time lags using previous wavefront measurements, thereby improving the raw contrast in the post-coronagraphic science focal plane. A method of predictive control based on Empirical Orthogonal Functions (EOF) has previously been proposed and demonstrated on Subaru/SCExAO. In this paper we present initial tests of this method for application to the near-infrared pyramid wavefront sensor (PYWF...
A future upgrade of the Keck II telescope's adaptive optics system will include a near-infrared pyra...
Wavefront sensing in the infrared is highly desirable for the study of M-type stars and cool red obj...
The Keck Planet Imager and Characterizer (KPIC) is an upgrade to the Keck II adaptive optics system ...
The success of ground-based instruments for high contrast exoplanet imaging depends on the degree to...
Ground-based high contrast exoplanet imaging requires state-of-the-art adaptive optics (AO) systems ...
The study of cold or obscured, red astrophysical sources can significantly benefit from adaptive opt...
A new real-time control system will be implemented within the Keck II adaptive optics system to supp...
The behavior of an adaptive optics (AO) system for ground-based high contrast imaging (HCI) dictates...
A near-infrared, high order pyramid wavefront sensor will be implemented on the Keck telescope, with...
The next generation of giant ground and space telescopes will have the light-collecting power to det...
Wavefront sensing in the infrared is highly desirable for the study of M-type stars and cool red obj...
Future space telescopes with coronagraph instruments will use a wavefront sensor (WFS) to measure an...
International audienceContext. Differentiating between a true exoplanet signal and residual speckle ...
The search for exoplanets is pushing adaptive optics (AO) systems on ground-based telescopes to thei...
International audienceAdvanced adaptive-optics (AO) systems will likely utilize pyramid wavefront se...
A future upgrade of the Keck II telescope's adaptive optics system will include a near-infrared pyra...
Wavefront sensing in the infrared is highly desirable for the study of M-type stars and cool red obj...
The Keck Planet Imager and Characterizer (KPIC) is an upgrade to the Keck II adaptive optics system ...
The success of ground-based instruments for high contrast exoplanet imaging depends on the degree to...
Ground-based high contrast exoplanet imaging requires state-of-the-art adaptive optics (AO) systems ...
The study of cold or obscured, red astrophysical sources can significantly benefit from adaptive opt...
A new real-time control system will be implemented within the Keck II adaptive optics system to supp...
The behavior of an adaptive optics (AO) system for ground-based high contrast imaging (HCI) dictates...
A near-infrared, high order pyramid wavefront sensor will be implemented on the Keck telescope, with...
The next generation of giant ground and space telescopes will have the light-collecting power to det...
Wavefront sensing in the infrared is highly desirable for the study of M-type stars and cool red obj...
Future space telescopes with coronagraph instruments will use a wavefront sensor (WFS) to measure an...
International audienceContext. Differentiating between a true exoplanet signal and residual speckle ...
The search for exoplanets is pushing adaptive optics (AO) systems on ground-based telescopes to thei...
International audienceAdvanced adaptive-optics (AO) systems will likely utilize pyramid wavefront se...
A future upgrade of the Keck II telescope's adaptive optics system will include a near-infrared pyra...
Wavefront sensing in the infrared is highly desirable for the study of M-type stars and cool red obj...
The Keck Planet Imager and Characterizer (KPIC) is an upgrade to the Keck II adaptive optics system ...