Add to ORKGWe propose a new electrode design for polarization-independent cylindrical lens using a polymer-stabilized blue phase liquid crystal (BPLC). The top electrode is coated with a transparent and resistive film to generate linearly varying electric potential from center to edge; while the bottom iridium tin oxide electrode has a constant potential. Therefore, the vertical electric field across the BPLC layer varies linearly over the lens aperture and a desired parabolic phase profile is obtained automatically according to the Kerr effect. Simulation results show that this simple device is polarization independent and it has parabolic-like phase profile in a large tuning range. (C) 2012 Optical Society of Americ
A lens created by field controlled variation of the index of refraction in a liquid crystal cell has...
We demonstrated a low voltage and high contrast polymer-stabilized blue phase liquid crystal (BPLC) ...
A cylindrical lens is demonstrated using two planar substrates and a homogeneous liquid crystal (LC)...
We propose a new electrode design for polarization-independent cylindrical lens using a polymerstabi...
We propose a new electrode design for polarization-independent cylindrical lens using a polymerstabi...
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...
We propose a new microlens device structure using two polymer-stabilized blue phase liquid crystal l...
Polarization independent liquid crystal (LC) microlens arrays based on controlling the spatial distr...
We report the design and simulation results of an adaptive GRIN lens based on multi-electrode addres...
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 lens created by field controlled variation of the index of refraction in a liquid crystal cell has...
We demonstrated a low voltage and high contrast polymer-stabilized blue phase liquid crystal (BPLC) ...
A cylindrical lens is demonstrated using two planar substrates and a homogeneous liquid crystal (LC)...
We propose a new electrode design for polarization-independent cylindrical lens using a polymerstabi...
We propose a new electrode design for polarization-independent cylindrical lens using a polymerstabi...
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...
We propose a new microlens device structure using two polymer-stabilized blue phase liquid crystal l...
Polarization independent liquid crystal (LC) microlens arrays based on controlling the spatial distr...
We report the design and simulation results of an adaptive GRIN lens based on multi-electrode addres...
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 lens created by field controlled variation of the index of refraction in a liquid crystal cell has...
We demonstrated a low voltage and high contrast polymer-stabilized blue phase liquid crystal (BPLC) ...
A cylindrical lens is demonstrated using two planar substrates and a homogeneous liquid crystal (LC)...
