Add to ORKGWe demonstrate a thin flat polymeric microlens for improving the aperture ratio and light efficiency of an LCD; a tunable-focus LC lens for imaging processing and switchable 2D/3D displays, and a liquid lens with large focal length tenability for beam steering and machine vision. Detailed device structure and operation mechanism of each lens will be described. © 2007 SID
A new integral image (InIm) 3D display with an adaptive liquid crystal (LC) microlens array is propo...
Non-mechanical variable lenses are important for creating compact imaging devices. Various methods e...
A three-dimensional display with eye accommodation is proposed. According to this design, by modifyi...
We demonstrate a thin flat polymeric microlens for improving the aperture ratio and light efficiency...
Three-dimensional (3D) display has become an increasingly important technology trend for information...
Mobile video and gaming are now widely used, and delivery of a glass-free 3D experience is of both r...
Abstract—Micro-optics have become the key technology in liquid crystal display systems due to its ca...
Liquid crystal display (LCD) technology has enjoyed significant advances in just a few short years. ...
This thesis describes research to produce variable focal length microlenses by immersing refractive ...
Microoptics has become the key technology in liquid crystal display systems due to its capabilities ...
We propose and demonstrate the concept of using a tuneable liquid crystal micro-lens (LCML) array to...
A real-time dynamically tunable-focus microlens array made from a polymer-liquid-crystal (LC) compos...
In recent years, many experimental and theoretical research groups worldwide have actively worked on...
A real-time dynamically tunable-focus microlens array made from a polymer-liquid-crystal (LC) compos...
The study and application of microscale lenses and lens arrays enjoys a long history. Advances in mi...
A new integral image (InIm) 3D display with an adaptive liquid crystal (LC) microlens array is propo...
Non-mechanical variable lenses are important for creating compact imaging devices. Various methods e...
A three-dimensional display with eye accommodation is proposed. According to this design, by modifyi...
We demonstrate a thin flat polymeric microlens for improving the aperture ratio and light efficiency...
Three-dimensional (3D) display has become an increasingly important technology trend for information...
Mobile video and gaming are now widely used, and delivery of a glass-free 3D experience is of both r...
Abstract—Micro-optics have become the key technology in liquid crystal display systems due to its ca...
Liquid crystal display (LCD) technology has enjoyed significant advances in just a few short years. ...
This thesis describes research to produce variable focal length microlenses by immersing refractive ...
Microoptics has become the key technology in liquid crystal display systems due to its capabilities ...
We propose and demonstrate the concept of using a tuneable liquid crystal micro-lens (LCML) array to...
A real-time dynamically tunable-focus microlens array made from a polymer-liquid-crystal (LC) compos...
In recent years, many experimental and theoretical research groups worldwide have actively worked on...
A real-time dynamically tunable-focus microlens array made from a polymer-liquid-crystal (LC) compos...
The study and application of microscale lenses and lens arrays enjoys a long history. Advances in mi...
A new integral image (InIm) 3D display with an adaptive liquid crystal (LC) microlens array is propo...
Non-mechanical variable lenses are important for creating compact imaging devices. Various methods e...
A three-dimensional display with eye accommodation is proposed. According to this design, by modifyi...