Add to ORKGA transmission-type nonmechanical multiple-angle beam-steering device that uses liquid-crystal blazed grating has been developed. Sixteen steering angles with a contrast ratio of 18 has been demonstrated. A detailed analysis of the liquid-crystal and poly(methyl methacrylate) blazed-grating deflector was carried out to provide guidance during the deflector’s development. A manufacturing offset compensation technique is proposed to improve the device’s performance greatly. A hybrid approach utilizing electrically generated blazed grating combined with the cascading approach described here yields in excess of 500 deflecting angles
In this study, we propose a liquid crystal (LC) beam deflector by combining dual frequency nematic L...
Beam-steering device using liquid crystal (LC) grating with field-induced twist deformation, which h...
Liquid crystal devices are being used in many non-display applications in order to construct small...
A transmission-type nonmechanical multiple-angle beam-steering device that uses liquid-crystal blaze...
A multiple-angle liquid crystal blazed grating beam deflector has been developed. It consists of a s...
A multiple-angle liquid crystal blazed grating beam deflector has been developed. It consists of a s...
We report on efficient optical beam-steering using a hot-embossed reflective blazed grating in combi...
We report on efficient optical beam-steering using a hot-embossed reflective blazed grating in combi...
The ability to perform non-mechanical optical beam steering is of critical importance in laser commu...
Optical beam deflectors based on the combination of cholesteric liquid crystals and polymer micro gr...
There is a great technological need for the development of devices capable of producing wide-angle a...
Liquid crystals are valuable materials for applications in beam steering devices. In this paper, an ...
Electrically tunable phase gratings are able to steer an incoming light beam without employing movab...
In this study, we propose a liquid crystal (LC) beam deflector by combining dual frequency nematic L...
In this project a new high performing 2D beam deflector with no movable parts will be developed. The...
In this study, we propose a liquid crystal (LC) beam deflector by combining dual frequency nematic L...
Beam-steering device using liquid crystal (LC) grating with field-induced twist deformation, which h...
Liquid crystal devices are being used in many non-display applications in order to construct small...
A transmission-type nonmechanical multiple-angle beam-steering device that uses liquid-crystal blaze...
A multiple-angle liquid crystal blazed grating beam deflector has been developed. It consists of a s...
A multiple-angle liquid crystal blazed grating beam deflector has been developed. It consists of a s...
We report on efficient optical beam-steering using a hot-embossed reflective blazed grating in combi...
We report on efficient optical beam-steering using a hot-embossed reflective blazed grating in combi...
The ability to perform non-mechanical optical beam steering is of critical importance in laser commu...
Optical beam deflectors based on the combination of cholesteric liquid crystals and polymer micro gr...
There is a great technological need for the development of devices capable of producing wide-angle a...
Liquid crystals are valuable materials for applications in beam steering devices. In this paper, an ...
Electrically tunable phase gratings are able to steer an incoming light beam without employing movab...
In this study, we propose a liquid crystal (LC) beam deflector by combining dual frequency nematic L...
In this project a new high performing 2D beam deflector with no movable parts will be developed. The...
In this study, we propose a liquid crystal (LC) beam deflector by combining dual frequency nematic L...
Beam-steering device using liquid crystal (LC) grating with field-induced twist deformation, which h...
Liquid crystal devices are being used in many non-display applications in order to construct small...