Add to ORKGAt present the commercial success of LC displays is achieved due to the high characteristics of quality: viewing angles, contrast, price, etc. For example, LC display have been used for creation of 3D images by means of forming images on the display for the left and right eye and using of polarizing glasses for the left and right eye. It allows us to see the resulting 3D image. Such a system can be implemented by means of using of a pattern phase retardation film which is placed on the display screen. The retardation film is a structured phase plate with display pixels order resolution which allows to form lines of images for the left and right eye without loss of image quality
True-3D imaging and display systems are based on physical duplication of light distribution. Hologra...
The technologies and advances in the field of three-dimensional (3D) displays within the past two de...
We developed a new coatable negative C-plate retarder for efficient optical compensation of VA LCD. ...
\u3cp\u3eThe Paintable LCD approach allows the preparation of an LCD on a single substrate by the ...
A microretarder for stereoscopic display is a film consisting of horizontal or vertical stripes with...
Mobile video and gaming are now widely used, and delivery of a glass-free 3D experience is of both r...
The main aim of the research has been to produce and evaluate a high-quality diffusion screen to dis...
To keep pace with customer demand for cost-effective flat panel displays, liquid crystal display (LC...
The light and energy-efficiency of classical liquid crystal displays is notoriously poor due to the ...
Active matrix liquid crystal displays (AMLCDs) have narrow and non-uniform viewing angle characteris...
Liquid crystals are traditionally aligned via a rubbed substrate. The rubbing creates anisotropic de...
We developed a simple and versatile imprinting technique in combination with the exposure of ultravi...
\u3cp\u3ePhoto-polymerisation of liquid crystalline di-acrylates is a very versatile method to produ...
We present a three dimensional (3D) Liquid crystal display (LCD) in a stereoscopic type using the si...
Crysoptix Ltd. has developed Thin Birefringent Films (TBFTM) retarders with negative C-plate and bia...
True-3D imaging and display systems are based on physical duplication of light distribution. Hologra...
The technologies and advances in the field of three-dimensional (3D) displays within the past two de...
We developed a new coatable negative C-plate retarder for efficient optical compensation of VA LCD. ...
\u3cp\u3eThe Paintable LCD approach allows the preparation of an LCD on a single substrate by the ...
A microretarder for stereoscopic display is a film consisting of horizontal or vertical stripes with...
Mobile video and gaming are now widely used, and delivery of a glass-free 3D experience is of both r...
The main aim of the research has been to produce and evaluate a high-quality diffusion screen to dis...
To keep pace with customer demand for cost-effective flat panel displays, liquid crystal display (LC...
The light and energy-efficiency of classical liquid crystal displays is notoriously poor due to the ...
Active matrix liquid crystal displays (AMLCDs) have narrow and non-uniform viewing angle characteris...
Liquid crystals are traditionally aligned via a rubbed substrate. The rubbing creates anisotropic de...
We developed a simple and versatile imprinting technique in combination with the exposure of ultravi...
\u3cp\u3ePhoto-polymerisation of liquid crystalline di-acrylates is a very versatile method to produ...
We present a three dimensional (3D) Liquid crystal display (LCD) in a stereoscopic type using the si...
Crysoptix Ltd. has developed Thin Birefringent Films (TBFTM) retarders with negative C-plate and bia...
True-3D imaging and display systems are based on physical duplication of light distribution. Hologra...
The technologies and advances in the field of three-dimensional (3D) displays within the past two de...
We developed a new coatable negative C-plate retarder for efficient optical compensation of VA LCD. ...