We propose a closed-loop adaptive optical arrangement based on a single spatial light modulator that simultaneously works as a correction unit and as the key element of a wavefront sensor. This is possible by using a liquid crystal on silicon display whose active area is divided into two halves that are respectively programmed for sensing and correction. We analyze the performance of this architecture to implement an adaptive optical system. Results showing a closed-loop operation are reported, as well as a proof of concept for dealing with aberrations comparable to those typically found in human eyes
The acquisition of high resolution images is essential for the early detection of eye diseases. To a...
We present a prototype of an adaptive intraocular lens based on a modal liquid-crystal spatial phase...
International audienceWavefront sensors encode phase information of an incoming wavefront into an in...
We propose a closed-loop adaptive optical arrangement based on a single spatial light modulator that...
Through the application of adaptive correction, both the permanent and changing aberrations of the e...
We present a liquid crystal method of correcting the phase of an aberrated wavefront using a spatial...
We describe the practical implementation of a closed-loop adaptive-optics system incorporating a nov...
Aberrations degrade the performance of optical systems in terms of resolution and signal-to-noise ra...
Adaptive optics is concerned with the correction of phase distortions in wavefronts which degrade th...
Until recently, the phrase adaptive optics generally conjured images of large deformable mirrors bei...
Results are presented of the properties of a liquid crystal wavefront corrector for adaptive optics....
The use of adaptive lenses instead of deformable mirrors can simplify the implementation of an adapt...
A simple control loop system was built for the purpose of optimized compensation of wavefront aberra...
Holographic optical tweezers allow the creation of multiple optical traps in 3D configurations throu...
Large aperture astronomical telescopes have a resolution that is limited by the effects of the Earth...
The acquisition of high resolution images is essential for the early detection of eye diseases. To a...
We present a prototype of an adaptive intraocular lens based on a modal liquid-crystal spatial phase...
International audienceWavefront sensors encode phase information of an incoming wavefront into an in...
We propose a closed-loop adaptive optical arrangement based on a single spatial light modulator that...
Through the application of adaptive correction, both the permanent and changing aberrations of the e...
We present a liquid crystal method of correcting the phase of an aberrated wavefront using a spatial...
We describe the practical implementation of a closed-loop adaptive-optics system incorporating a nov...
Aberrations degrade the performance of optical systems in terms of resolution and signal-to-noise ra...
Adaptive optics is concerned with the correction of phase distortions in wavefronts which degrade th...
Until recently, the phrase adaptive optics generally conjured images of large deformable mirrors bei...
Results are presented of the properties of a liquid crystal wavefront corrector for adaptive optics....
The use of adaptive lenses instead of deformable mirrors can simplify the implementation of an adapt...
A simple control loop system was built for the purpose of optimized compensation of wavefront aberra...
Holographic optical tweezers allow the creation of multiple optical traps in 3D configurations throu...
Large aperture astronomical telescopes have a resolution that is limited by the effects of the Earth...
The acquisition of high resolution images is essential for the early detection of eye diseases. To a...
We present a prototype of an adaptive intraocular lens based on a modal liquid-crystal spatial phase...
International audienceWavefront sensors encode phase information of an incoming wavefront into an in...