Self-induced liquid crystal q-plate by photoelectric interface activation
Self-induced liquid crystal q-plate by photoelectric interface activation
Here, we report on the experimental demonstration that highly efficient self-induced spin-orbit optical vortex generation can be achieved by using standard liquid crystal materials and surface treatment agents. This is done by revisiting the recent attempt by Zolot'ko and coworkers to produce self-induced liquid crystal vortex plates using the dc electric field [I. A. Budagovsky, S. A. Shvetsov, and A. S. Zolot'ko, Mol. Cryst. Liq. Cryst. 637, 47 (2016)] that remains, so far, limited to moderate efficiencies. The phenomenon is the result of the self-back-action of light arising from the spontaneous creation of a liquid crystal topological defect. These results demonstrate photo-electric interface activation as a candidate towards the development of a self-adapted spin-orbit photonic toolbox, thus enabling agile management of the orbital angular momentum of light.
1-5
Kravets, Nina
d8a09747-9b2f-4935-92de-2f669609e5dd
Podoliak, Nina
587f3532-884f-46cd-9f46-e43ecdb2432d
Kaczmarek, Malgosia
408ec59b-8dba-41c1-89d0-af846d1bf327
Brasselet, Etienne
6219ee7e-dbbd-4b11-8868-f21111e178c9
Kravets, Nina
d8a09747-9b2f-4935-92de-2f669609e5dd
Podoliak, Nina
587f3532-884f-46cd-9f46-e43ecdb2432d
Kaczmarek, Malgosia
408ec59b-8dba-41c1-89d0-af846d1bf327
Brasselet, Etienne
6219ee7e-dbbd-4b11-8868-f21111e178c9
Kravets, Nina, Podoliak, Nina, Kaczmarek, Malgosia and Brasselet, Etienne
(2019)
Self-induced liquid crystal q-plate by photoelectric interface activation.
Applied Physics Letters, 114 (6), , [061101].
(doi:10.1063/1.5082598).
Abstract
Here, we report on the experimental demonstration that highly efficient self-induced spin-orbit optical vortex generation can be achieved by using standard liquid crystal materials and surface treatment agents. This is done by revisiting the recent attempt by Zolot'ko and coworkers to produce self-induced liquid crystal vortex plates using the dc electric field [I. A. Budagovsky, S. A. Shvetsov, and A. S. Zolot'ko, Mol. Cryst. Liq. Cryst. 637, 47 (2016)] that remains, so far, limited to moderate efficiencies. The phenomenon is the result of the self-back-action of light arising from the spontaneous creation of a liquid crystal topological defect. These results demonstrate photo-electric interface activation as a candidate towards the development of a self-adapted spin-orbit photonic toolbox, thus enabling agile management of the orbital angular momentum of light.
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2019_Kravets_LCqplate_APL
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Accepted/In Press date: 4 January 2019
e-pub ahead of print date: 11 February 2019
Identifiers
Local EPrints ID: 428931
URI: http://eprints.soton.ac.uk/id/eprint/428931
ISSN: 0003-6951
PURE UUID: 6c8819d4-1067-4dc1-8ed5-480b99a116d6
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Date deposited: 14 Mar 2019 17:30
Last modified: 16 Mar 2024 00:26
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Author:
Nina Kravets
Author:
Nina Podoliak
Author:
Etienne Brasselet
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