Adaptive optics is concerned with the correction of phase distortions in wavefronts which degrade the quality of images produced by optical systems. It was originally developed for both astronomy and the military, where the Earth's atmosphere causes distortions, although other uses are now being developed. As ground based telescopes become increasingly large the size and complexity of adaptive optics systems also increase, creating "extreme adaptive optics”. This thesis deals with such an adaptive optics system. A novel self referenced phase shifting interferometer based on a liquid crystal (LC) waveplate is presented which can measure high spatial frequency phase distortions. This is then coupled to a LC spatial light modulator wavefront c...
In this work a novel point diffraction interferometer based on a variable liquid crystal wave plate ...
We propose a closed-loop adaptive optical arrangement based on a single spatial light modulator that...
Large aperture astronomical telescopes have a resolution that is limited by the effects of the Earth...
High-resolution phase-contrast wave-front sensors based on phase spatial light modulators and microm...
A wavefront correction system was produced using a phase conjugating method based on a point diffrac...
We present a liquid crystal method of correcting the phase of an aberrated wavefront using a spatial...
Because atmospheric turbulence causes distortions in stellar wavefronts, passive ground based telesc...
''Extreme'' adaptive optics systems are optimized for ultra-high-contrast applications, such as grou...
The direct detection and imaging of exoplanets requires the use of high-contrast adaptive optics (AO...
We present a promising approach to the extremely fast sensing and correction of small wavefront erro...
International audienceWe describe new results obtained with the integrated Mach-Zehnder (iMZ) self r...
The direct detection and imaging of exoplanets requires the use of high-contrast adaptive optics (AO...
Phase-shifting interferometry has many advantages, and the phase shifting nature of the Liquid Cryst...
A new instrument, the liquid crystal point diffraction interferometer (LCPDI), has been developed fo...
The limitations of current stellar interferometers is their low sensitivity, and the next generation...
In this work a novel point diffraction interferometer based on a variable liquid crystal wave plate ...
We propose a closed-loop adaptive optical arrangement based on a single spatial light modulator that...
Large aperture astronomical telescopes have a resolution that is limited by the effects of the Earth...
High-resolution phase-contrast wave-front sensors based on phase spatial light modulators and microm...
A wavefront correction system was produced using a phase conjugating method based on a point diffrac...
We present a liquid crystal method of correcting the phase of an aberrated wavefront using a spatial...
Because atmospheric turbulence causes distortions in stellar wavefronts, passive ground based telesc...
''Extreme'' adaptive optics systems are optimized for ultra-high-contrast applications, such as grou...
The direct detection and imaging of exoplanets requires the use of high-contrast adaptive optics (AO...
We present a promising approach to the extremely fast sensing and correction of small wavefront erro...
International audienceWe describe new results obtained with the integrated Mach-Zehnder (iMZ) self r...
The direct detection and imaging of exoplanets requires the use of high-contrast adaptive optics (AO...
Phase-shifting interferometry has many advantages, and the phase shifting nature of the Liquid Cryst...
A new instrument, the liquid crystal point diffraction interferometer (LCPDI), has been developed fo...
The limitations of current stellar interferometers is their low sensitivity, and the next generation...
In this work a novel point diffraction interferometer based on a variable liquid crystal wave plate ...
We propose a closed-loop adaptive optical arrangement based on a single spatial light modulator that...
Large aperture astronomical telescopes have a resolution that is limited by the effects of the Earth...