We describe the practical implementation of a closed-loop adaptive-optics system incorporating a novel modal wave-front sensor. The sensor consists of a static binary-phase computer-generated holographic element, which generates a pattern of spots in a detector plane. Intensity differences between symmetric pairs of these spots give a direct measure of the Zernike mode amplitudes that are present in the input wave front. We use a ferroelectric liquid-crystal spatial light modulator in conjunction with a 4-f system and a spatial filter as a wave-front correction element. We present results showing a rapid increase in Strehl ratio and focal spot quality as the system corrects for deliberately introduced aberrations
A wavefront correction system was produced using a phase conjugating method based on a point diffrac...
We investigate the properties of a class of adaptive optics systems that do not employ a wave front ...
An opto-electronic technique for high-resolution wave-front phase imagingis presented and demonstrat...
We describe the practical implementation of a closed-loop adaptive-optics system incorporating a nov...
We propose a closed-loop adaptive optical arrangement based on a single spatial light modulator that...
We present a liquid crystal method of correcting the phase of an aberrated wavefront using a spatial...
The process of Zernike mode detection with a Shack-Hartmann wavefront sensor is computationally exte...
Aberrations degrade the performance of optical systems in terms of resolution and signal-to-noise ra...
A time multiplexed rectangular Zernike modal wavefront sensor based on a nematic phase-only liquid c...
Results are presented of the properties of a liquid crystal wavefront corrector for adaptive optics....
Holographic optical tweezers allow the creation of multiple optical traps in 3D configurations throu...
Confocal and multiphoton microscopes are particularly sensitive to specimen- or system-induced aberr...
The use of a multichannel wavefront sensor matched with phase Zernike functions to determine the typ...
An adaptive method for determining the type and magnitude of aberration in a wide range is proposed ...
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 investigate the properties of a class of adaptive optics systems that do not employ a wave front ...
An opto-electronic technique for high-resolution wave-front phase imagingis presented and demonstrat...
We describe the practical implementation of a closed-loop adaptive-optics system incorporating a nov...
We propose a closed-loop adaptive optical arrangement based on a single spatial light modulator that...
We present a liquid crystal method of correcting the phase of an aberrated wavefront using a spatial...
The process of Zernike mode detection with a Shack-Hartmann wavefront sensor is computationally exte...
Aberrations degrade the performance of optical systems in terms of resolution and signal-to-noise ra...
A time multiplexed rectangular Zernike modal wavefront sensor based on a nematic phase-only liquid c...
Results are presented of the properties of a liquid crystal wavefront corrector for adaptive optics....
Holographic optical tweezers allow the creation of multiple optical traps in 3D configurations throu...
Confocal and multiphoton microscopes are particularly sensitive to specimen- or system-induced aberr...
The use of a multichannel wavefront sensor matched with phase Zernike functions to determine the typ...
An adaptive method for determining the type and magnitude of aberration in a wide range is proposed ...
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 investigate the properties of a class of adaptive optics systems that do not employ a wave front ...
An opto-electronic technique for high-resolution wave-front phase imagingis presented and demonstrat...