Add to ORKGWe propose a new microlens device structure using two polymer-stabilized blue phase liquid crystal layers whose Kerr constant is largely different. Such a polarization independent microlens has a simple structure and desired parabolic phase profile. Its applications for 2D/3D switchable displays and other photonic devices are emphasized. © 2013 Society for Information Display
Three-dimensional (3D) display has become an increasingly important technology trend for information...
We propose a single polarizer liquid crystal display (LCD) with a fast response that was designed us...
We propose a polarizer-free liquid crystal display (LCD) with an electrically switchable microlens a...
An adaptive microlens structure is proposed using two polymer-stabilized blue-phase liquid-crystal l...
An adaptive microlens structure is proposed using two polymer-stabilized blue-phase liquid-crystal l...
An adaptive microlens structure is proposed using two polymer-stabilized blue-phase liquid-crystal l...
A new polarization-independent and fast-response adaptive microlens array using a polymer-stabilized...
In this paper ,we propose a fast-response and polarizations-independent adoptive microlens array usi...
In this paper ,we propose a fast-response and polarizations-independent adoptive microlens array usi...
Polarization independent liquid crystal (LC) microlens arrays based on controlling the spatial distr...
Polarization independent liquid crystal (LC) microlens arrays based on controlling the spatial distr...
We propose a new electrode design for polarization-independent cylindrical lens using a polymer-stab...
A new polarization-independent and fast-response adaptive microlens using a polymer-stabilized blue ...
A new polarization-independent and fast-response adaptive microlens using a polymer-stabilized blue ...
We propose a single polarizer liquid crystal display (LCD) with a fast response that was designed us...
Three-dimensional (3D) display has become an increasingly important technology trend for information...
We propose a single polarizer liquid crystal display (LCD) with a fast response that was designed us...
We propose a polarizer-free liquid crystal display (LCD) with an electrically switchable microlens a...
An adaptive microlens structure is proposed using two polymer-stabilized blue-phase liquid-crystal l...
An adaptive microlens structure is proposed using two polymer-stabilized blue-phase liquid-crystal l...
An adaptive microlens structure is proposed using two polymer-stabilized blue-phase liquid-crystal l...
A new polarization-independent and fast-response adaptive microlens array using a polymer-stabilized...
In this paper ,we propose a fast-response and polarizations-independent adoptive microlens array usi...
In this paper ,we propose a fast-response and polarizations-independent adoptive microlens array usi...
Polarization independent liquid crystal (LC) microlens arrays based on controlling the spatial distr...
Polarization independent liquid crystal (LC) microlens arrays based on controlling the spatial distr...
We propose a new electrode design for polarization-independent cylindrical lens using a polymer-stab...
A new polarization-independent and fast-response adaptive microlens using a polymer-stabilized blue ...
A new polarization-independent and fast-response adaptive microlens using a polymer-stabilized blue ...
We propose a single polarizer liquid crystal display (LCD) with a fast response that was designed us...
Three-dimensional (3D) display has become an increasingly important technology trend for information...
We propose a single polarizer liquid crystal display (LCD) with a fast response that was designed us...
We propose a polarizer-free liquid crystal display (LCD) with an electrically switchable microlens a...