Add to ORKGWe demonstrate a flat polymeric lenticular microlens array using a mixture of rod-like diacrylate monomer and positive dielectric anisotropy nematic liquid crystal (LC). To create gradient refractive index profile in one microlens, we generate fringing fields from a planar top electrode and two striped bottom electrodes. After UV stabilization, the film is optically anisotropic and can stand alone. We then laminate this film on a 90 degrees twisted-nematic LC cell, which works as a dynamic polarization rotator. The static polymeric lenticular lens exhibits focusing effect only to the extraordinary ray, but no optical effect to the ordinary ray. Such an integrated lens system offers several advantages, such as low voltage, fast response time...
We demonstrate a tunable focus liquid crystal (LC) lens by sandwiching a homogeneous LC layer betwee...
A polymer-based flat microlens array is demonstrated. Within each pixel of the array, the polymer pr...
This research is on a development of a variable focusing microlens system. The studies of modern res...
Lenticular array products have experienced a growing interest in the last decade due to the very wid...
An optically anisotropic microlens array film directly formed on a single substrate is demonstrated....
Three-dimensional (3D) display has become an increasingly important technology trend for information...
We present an optically isotropic switchable microlens array (MLA) based on liquid crystals (LCs) us...
In recent years, many experimental and theoretical research groups worldwide have actively worked on...
We demonstrate a flat microlens that exhibits hermaphroditic focusing properties. When the input pol...
Conventional liquid microlens arrays are facing bottlenecks in controlling droplet size and shape, a...
We demonstrate a flat microlens that exhibits hermaphroditic focusing properties. When the input pol...
The switching speed of a polarization-independent microlens array fabricated with a nematic liquid c...
A real-time dynamically tunable-focus microlens array made from a polymer-liquid-crystal (LC) compos...
A real-time dynamically tunable-focus microlens array made from a polymer-liquid-crystal (LC) compos...
In this work, we present a novel kind of LC mixture (5005) for photonic applications, with emphasis ...
We demonstrate a tunable focus liquid crystal (LC) lens by sandwiching a homogeneous LC layer betwee...
A polymer-based flat microlens array is demonstrated. Within each pixel of the array, the polymer pr...
This research is on a development of a variable focusing microlens system. The studies of modern res...
Lenticular array products have experienced a growing interest in the last decade due to the very wid...
An optically anisotropic microlens array film directly formed on a single substrate is demonstrated....
Three-dimensional (3D) display has become an increasingly important technology trend for information...
We present an optically isotropic switchable microlens array (MLA) based on liquid crystals (LCs) us...
In recent years, many experimental and theoretical research groups worldwide have actively worked on...
We demonstrate a flat microlens that exhibits hermaphroditic focusing properties. When the input pol...
Conventional liquid microlens arrays are facing bottlenecks in controlling droplet size and shape, a...
We demonstrate a flat microlens that exhibits hermaphroditic focusing properties. When the input pol...
The switching speed of a polarization-independent microlens array fabricated with a nematic liquid c...
A real-time dynamically tunable-focus microlens array made from a polymer-liquid-crystal (LC) compos...
A real-time dynamically tunable-focus microlens array made from a polymer-liquid-crystal (LC) compos...
In this work, we present a novel kind of LC mixture (5005) for photonic applications, with emphasis ...
We demonstrate a tunable focus liquid crystal (LC) lens by sandwiching a homogeneous LC layer betwee...
A polymer-based flat microlens array is demonstrated. Within each pixel of the array, the polymer pr...
This research is on a development of a variable focusing microlens system. The studies of modern res...