Double-sided liquid crystal metasurfaces for electrically and mechanically controlled broadband visible anomalous refraction-Reference-Cited by-同舟云学术

Double-sided liquid crystal metasurfaces for electrically and mechanically controlled broadband visible anomalous refraction

Published:2022-05-24 Issue:17 Volume:11 Page:3901-3912
ISSN:2192-8614
Container-title:Nanophotonics
language:en
Short-container-title:

Author:

Gorkunov Maxim V.¹²^ORCID,Mamonova Alena V.¹,Kasyanova Irina V.¹^ORCID,Ezhov Alexander A.¹³⁴^ORCID,Artemov Vladimir V.¹^ORCID,Simdyankin Ivan V.¹,Geivandov Artur R.¹^ORCID

Affiliation:

1. Shubnikov Institute of Crystallography , Federal Scientific Research Centre “Crystallography and Photonics”, Russian Academy of Sciences , 119333 Moscow , Russia

2. National Research Nuclear University MEPhI (Moscow Engineering Physics Institute) , 115409 Moscow , Russia

3. Faculty of Physics , Lomonosov Moscow State University , 119991 Moscow , Russia

4. Topchiev Institute of Petrochemical Synthesis , Russian Academy of Science , 119991 Moscow , Russia

Abstract

Abstract Liquid crystals self-assemble on nanopatterned alignment layers into purely soft matter metasurfaces sensitive to external stimuli and imparting tailored spatial modulations to transmitted light wavefronts. Upon fine optimization, they are capable of efficient light deflection by virtue of anomalous refraction into a dominating transmission diffraction order. To expand the spectral range and acquire additional functionality, we put forward the double-sided metasurface design based on the liquid crystal alignment by a pair of complementing patterned substrates. We numerically optimize, fabricate, and experimentally characterize metasurfaces refracting red light with an efficiency of up to 70% and sustaining the efficiency above 50% in a broad range of visible wavelengths exceeding 500 nm. We verify that the refraction is reversibly switched in less than 10 ms by voltages of a few volts. We also report on a remarkable mechanical reconfigurability, as micrometer-scale relative substrate shift flips the refraction direction.

Publisher

Walter de Gruyter GmbH

Subject

Electrical and Electronic Engineering,Atomic and Molecular Physics, and Optics,Electronic, Optical and Magnetic Materials,Biotechnology

Link

https://www.degruyter.com/document/doi/10.1515/nanoph-2022-0091/pdf

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