Chirality invertible superstructure mediated active planar optics

Active planar optical devices that can dynamically manipulate light are highly sought after in modern optics and nanophotonics. The geometric phase derived from the photonic spin-orbit interaction provides an integrated strategy. Corresponding elements usually suffer from static functions. Here, we...

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Published in	Nature communications Vol. 10; no. 1; pp. 2518 - 7
Main Authors	Chen, Peng, Ma, Ling-Ling, Hu, Wei, Shen, Zhi-Xiong, Bisoyi, Hari Krishna, Wu, Sai-Bo, Ge, Shi-Jun, Li, Quan, Lu, Yan-Qing
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 07.06.2019 Nature Publishing Group Nature Portfolio
Subjects	639/301/923/919 639/624/1075 639/624/399 Adaptive optics Aerodynamics Angular momentum Beam steering Beams (radiation) Broadband Chirality Cholesteric liquid crystals Crystals Defocusing Humanities and Social Sciences multidisciplinary Optics Photonics Science Science (multidisciplinary) Spin-orbit interactions Superstructures Vortex generators
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Abstract	Active planar optical devices that can dynamically manipulate light are highly sought after in modern optics and nanophotonics. The geometric phase derived from the photonic spin-orbit interaction provides an integrated strategy. Corresponding elements usually suffer from static functions. Here, we introduce an inhomogeneously self-organized anisotropic medium featured by photo-invertible chiral superstructure to realize geometric phase elements with continuously tunable working spectrum and light-flipped phase profile. Via preprograming the alignment of a cholesteric liquid crystal mixed with a photo-responsive chiral dopant, we demonstrate light-activated deflector, lens, Airy beam and optical vortex generators. Their polychromatic working bands are reversibly tuned in an ultra-broadband over 1000 nm covering green to telecomm region. The chirality inversion triggers facile switching of functionalities, such as beam steering, focusing/defocusing and spin-to-orbital angular momentum conversion. This work offers a platform for advanced adaptive and multifunctional flat optics with merits of high compactness, low loss and broad bandwidth. Optically reconfigurable elements are in demand for future applications. The authors report on the use of chirality-invertible cholesteric liquid crystals to actively manipulate geometric phase and create switchable planar optics elements that perform a variety of functions.
AbstractList	Active planar optical devices that can dynamically manipulate light are highly sought after in modern optics and nanophotonics. The geometric phase derived from the photonic spin-orbit interaction provides an integrated strategy. Corresponding elements usually suffer from static functions. Here, we introduce an inhomogeneously self-organized anisotropic medium featured by photo-invertible chiral superstructure to realize geometric phase elements with continuously tunable working spectrum and light-flipped phase profile. Via preprograming the alignment of a cholesteric liquid crystal mixed with a photo-responsive chiral dopant, we demonstrate light-activated deflector, lens, Airy beam and optical vortex generators. Their polychromatic working bands are reversibly tuned in an ultra-broadband over 1000 nm covering green to telecomm region. The chirality inversion triggers facile switching of functionalities, such as beam steering, focusing/defocusing and spin-to-orbital angular momentum conversion. This work offers a platform for advanced adaptive and multifunctional flat optics with merits of high compactness, low loss and broad bandwidth. Active planar optical devices that can dynamically manipulate light are highly sought after in modern optics and nanophotonics. The geometric phase derived from the photonic spin-orbit interaction provides an integrated strategy. Corresponding elements usually suffer from static functions. Here, we introduce an inhomogeneously self-organized anisotropic medium featured by photo-invertible chiral superstructure to realize geometric phase elements with continuously tunable working spectrum and light-flipped phase profile. Via preprograming the alignment of a cholesteric liquid crystal mixed with a photo-responsive chiral dopant, we demonstrate light-activated deflector, lens, Airy beam and optical vortex generators. Their polychromatic working bands are reversibly tuned in an ultra-broadband over 1000 nm covering green to telecomm region. The chirality inversion triggers facile switching of functionalities, such as beam steering, focusing/defocusing and spin-to-orbital angular momentum conversion. This work offers a platform for advanced adaptive and multifunctional flat optics with merits of high compactness, low loss and broad bandwidth.Optically reconfigurable elements are in demand for future applications. The authors report on the use of chirality-invertible cholesteric liquid crystals to actively manipulate geometric phase and create switchable planar optics elements that perform a variety of functions. Active planar optical devices that can dynamically manipulate light are highly sought after in modern optics and nanophotonics. The geometric phase derived from the photonic spin-orbit interaction provides an integrated strategy. Corresponding elements usually suffer from static functions. Here, we introduce an inhomogeneously self-organized anisotropic medium featured by photo-invertible chiral superstructure to realize geometric phase elements with continuously tunable working spectrum and light-flipped phase profile. Via preprograming the alignment of a cholesteric liquid crystal mixed with a photo-responsive chiral dopant, we demonstrate light-activated deflector, lens, Airy beam and optical vortex generators. Their polychromatic working bands are reversibly tuned in an ultra-broadband over 1000 nm covering green to telecomm region. The chirality inversion triggers facile switching of functionalities, such as beam steering, focusing/defocusing and spin-to-orbital angular momentum conversion. This work offers a platform for advanced adaptive and multifunctional flat optics with merits of high compactness, low loss and broad bandwidth. Optically reconfigurable elements are in demand for future applications. The authors report on the use of chirality-invertible cholesteric liquid crystals to actively manipulate geometric phase and create switchable planar optics elements that perform a variety of functions. Active planar optical devices that can dynamically manipulate light are highly sought after in modern optics and nanophotonics. The geometric phase derived from the photonic spin-orbit interaction provides an integrated strategy. Corresponding elements usually suffer from static functions. Here, we introduce an inhomogeneously self-organized anisotropic medium featured by photo-invertible chiral superstructure to realize geometric phase elements with continuously tunable working spectrum and light-flipped phase profile. Via preprograming the alignment of a cholesteric liquid crystal mixed with a photo-responsive chiral dopant, we demonstrate light-activated deflector, lens, Airy beam and optical vortex generators. Their polychromatic working bands are reversibly tuned in an ultra-broadband over 1000 nm covering green to telecomm region. The chirality inversion triggers facile switching of functionalities, such as beam steering, focusing/defocusing and spin-to-orbital angular momentum conversion. This work offers a platform for advanced adaptive and multifunctional flat optics with merits of high compactness, low loss and broad bandwidth.Active planar optical devices that can dynamically manipulate light are highly sought after in modern optics and nanophotonics. The geometric phase derived from the photonic spin-orbit interaction provides an integrated strategy. Corresponding elements usually suffer from static functions. Here, we introduce an inhomogeneously self-organized anisotropic medium featured by photo-invertible chiral superstructure to realize geometric phase elements with continuously tunable working spectrum and light-flipped phase profile. Via preprograming the alignment of a cholesteric liquid crystal mixed with a photo-responsive chiral dopant, we demonstrate light-activated deflector, lens, Airy beam and optical vortex generators. Their polychromatic working bands are reversibly tuned in an ultra-broadband over 1000 nm covering green to telecomm region. The chirality inversion triggers facile switching of functionalities, such as beam steering, focusing/defocusing and spin-to-orbital angular momentum conversion. This work offers a platform for advanced adaptive and multifunctional flat optics with merits of high compactness, low loss and broad bandwidth. Optically reconfigurable elements are in demand for future applications. The authors report on the use of chirality-invertible cholesteric liquid crystals to actively manipulate geometric phase and create switchable planar optics elements that perform a variety of functions.
ArticleNumber	2518
Author	Wu, Sai-Bo Ge, Shi-Jun Li, Quan Ma, Ling-Ling Chen, Peng Shen, Zhi-Xiong Hu, Wei Bisoyi, Hari Krishna Lu, Yan-Qing
Author_xml	– sequence: 1 givenname: Peng surname: Chen fullname: Chen, Peng organization: National Laboratory of Solid State Microstructures, Key Laboratory of Intelligent Optical Sensing and Manipulation, College of Engineering and Applied Sciences, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Institute for Smart Liquid Crystals, JITRI – sequence: 2 givenname: Ling-Ling surname: Ma fullname: Ma, Ling-Ling organization: National Laboratory of Solid State Microstructures, Key Laboratory of Intelligent Optical Sensing and Manipulation, College of Engineering and Applied Sciences, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University – sequence: 3 givenname: Wei orcidid: 0000-0003-1255-9453 surname: Hu fullname: Hu, Wei email: huwei@nju.edu.cn organization: National Laboratory of Solid State Microstructures, Key Laboratory of Intelligent Optical Sensing and Manipulation, College of Engineering and Applied Sciences, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Institute for Smart Liquid Crystals, JITRI – sequence: 4 givenname: Zhi-Xiong surname: Shen fullname: Shen, Zhi-Xiong organization: National Laboratory of Solid State Microstructures, Key Laboratory of Intelligent Optical Sensing and Manipulation, College of Engineering and Applied Sciences, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Institute for Smart Liquid Crystals, JITRI – sequence: 5 givenname: Hari Krishna surname: Bisoyi fullname: Bisoyi, Hari Krishna organization: Liquid Crystal Institute and Chemical Physics Interdisciplinary Program, Kent State University – sequence: 6 givenname: Sai-Bo surname: Wu fullname: Wu, Sai-Bo organization: National Laboratory of Solid State Microstructures, Key Laboratory of Intelligent Optical Sensing and Manipulation, College of Engineering and Applied Sciences, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Institute for Smart Liquid Crystals, JITRI – sequence: 7 givenname: Shi-Jun surname: Ge fullname: Ge, Shi-Jun organization: National Laboratory of Solid State Microstructures, Key Laboratory of Intelligent Optical Sensing and Manipulation, College of Engineering and Applied Sciences, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Institute for Smart Liquid Crystals, JITRI – sequence: 8 givenname: Quan orcidid: 0000-0002-9042-360X surname: Li fullname: Li, Quan email: qli1@kent.edu organization: Liquid Crystal Institute and Chemical Physics Interdisciplinary Program, Kent State University – sequence: 9 givenname: Yan-Qing surname: Lu fullname: Lu, Yan-Qing email: yqlu@nju.edu.cn organization: National Laboratory of Solid State Microstructures, Key Laboratory of Intelligent Optical Sensing and Manipulation, College of Engineering and Applied Sciences, and Collaborative Innovation Center of Advanced Microstructures, Nanjing University
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Snippet	Active planar optical devices that can dynamically manipulate light are highly sought after in modern optics and nanophotonics. The geometric phase derived... Optically reconfigurable elements are in demand for future applications. The authors report on the use of chirality-invertible cholesteric liquid crystals to...
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SubjectTerms	639/301/923/919 639/624/1075 639/624/399 Adaptive optics Aerodynamics Angular momentum Beam steering Beams (radiation) Broadband Chirality Cholesteric liquid crystals Crystals Defocusing Humanities and Social Sciences multidisciplinary Optics Photonics Science Science (multidisciplinary) Spin-orbit interactions Superstructures Vortex generators
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Title	Chirality invertible superstructure mediated active planar optics
URI	https://link.springer.com/article/10.1038/s41467-019-10538-w https://www.ncbi.nlm.nih.gov/pubmed/31175286 https://www.proquest.com/docview/2236682277 https://www.proquest.com/docview/2245673783 https://pubmed.ncbi.nlm.nih.gov/PMC6555801 https://doaj.org/article/9c15acf07acc4a2ea3bb848d3dab233c
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