Add to ORKGA new method for formation of singular and Bessel light beams of different orders with the use of electrically controlled liquid crystal (LC) diffractive optical elements has been proposed and experimentally implemented. Formed elements are able to change the polarization and phase structure of an initial incident plane wave due to anisotropic modulation of the refractive index inside the layer of nematic LC. The orientation of LC molecules is defined by previously illuminated photopolymeric layers on the substrates of LC cell
Liquid-crystal (LC) elements with an electrically controlled spatial topology of director orientatio...
In this work we demonstrate a tunable liquid–crystal element of linear phase profile along the radia...
Liquid crystal (LC) devices for Photonics applications is a hot topic of research. Such elements beg...
A new method for formation of singular and Bessel light beams of different orders with the use of ele...
A new method of creation the electrically controlled diffraction elements has been proposed and exp...
A simple experimental method and a set-up to control light beams in the plane of liquid crystal (LC)...
For the first time, the spin-orbital conversion of the linearly polarized Bessel beams in the proce...
Includes bibliographical references (pages 59-60).In this work, we use a programmable liquid crystal...
We create planar-periodic alignment in nematic liquid crystal (LC) cell by using a command layer of ...
A new electrically controlled waveguide mode for optical beams propagating in the plane of a liquid ...
Liquid crystals are anisotropic materials whose optical properties can be easily controlled applying...
Refractive micro-optical structures combined with liquid crystal are used for various electrically c...
The peculiarities of the linearly polarized light beam reflection at the interface within the bulk o...
We present and discuss opportunities opened up by a new generation of beam shaping optical elements ...
Liquid Crystal (LC) is widely used in the Display industry. Currently most of televisions, phones, c...
Liquid-crystal (LC) elements with an electrically controlled spatial topology of director orientatio...
In this work we demonstrate a tunable liquid–crystal element of linear phase profile along the radia...
Liquid crystal (LC) devices for Photonics applications is a hot topic of research. Such elements beg...
A new method for formation of singular and Bessel light beams of different orders with the use of ele...
A new method of creation the electrically controlled diffraction elements has been proposed and exp...
A simple experimental method and a set-up to control light beams in the plane of liquid crystal (LC)...
For the first time, the spin-orbital conversion of the linearly polarized Bessel beams in the proce...
Includes bibliographical references (pages 59-60).In this work, we use a programmable liquid crystal...
We create planar-periodic alignment in nematic liquid crystal (LC) cell by using a command layer of ...
A new electrically controlled waveguide mode for optical beams propagating in the plane of a liquid ...
Liquid crystals are anisotropic materials whose optical properties can be easily controlled applying...
Refractive micro-optical structures combined with liquid crystal are used for various electrically c...
The peculiarities of the linearly polarized light beam reflection at the interface within the bulk o...
We present and discuss opportunities opened up by a new generation of beam shaping optical elements ...
Liquid Crystal (LC) is widely used in the Display industry. Currently most of televisions, phones, c...
Liquid-crystal (LC) elements with an electrically controlled spatial topology of director orientatio...
In this work we demonstrate a tunable liquid–crystal element of linear phase profile along the radia...
Liquid crystal (LC) devices for Photonics applications is a hot topic of research. Such elements beg...