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      Space-time-coding digital metasurfaces

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          Abstract

          The recently proposed digital coding metasurfaces make it possible to control electromagnetic (EM) waves in real time, and allow the implementation of many different functionalities in a programmable way. However, current configurations are only space-encoded, and do not exploit the temporal dimension. Here, we propose a general theory of space-time modulated digital coding metasurfaces to obtain simultaneous manipulations of EM waves in both space and frequency domains, i.e., to control the propagation direction and harmonic power distribution simultaneously. As proof-of-principle application examples, we consider harmonic beam steering, beam shaping, and scattering-signature control. For validation, we realize a prototype controlled by a field-programmable gate array, which implements the harmonic beam steering via an optimized space-time coding sequence. Numerical and experimental results, in good agreement, demonstrate good performance of the proposed approach, with potential applications to diverse fields such as wireless communications, cognitive radars, adaptive beamforming, holographic imaging.

          Abstract

          Current digital coding metasurfaces are only space-encoded. Here, the authors propose space-time modulated digital coding metasurfaces to obtain simultaneous manipulations of electromagnetic waves and present harmonic beam steering, beam shaping, and scattering-signature control as application examples.

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          From metamaterials to metadevices.

          Nikolay I. Zheludev, Yuri Kivshar (2012)
          Metamaterials, artificial electromagnetic media that are structured on the subwavelength scale, were initially suggested for the negative-index 'superlens'. Later metamaterials became a paradigm for engineering electromagnetic space and controlling propagation of waves: the field of transformation optics was born. The research agenda is now shifting towards achieving tunable, switchable, nonlinear and sensing functionalities. It is therefore timely to discuss the emerging field of metadevices where we define the devices as having unique and useful functionalities that are realized by structuring of functional matter on the subwavelength scale. In this Review we summarize research on photonic, terahertz and microwave electromagnetic metamaterials and metadevices with functionalities attained through the exploitation of phase-change media, semiconductors, graphene, carbon nanotubes and liquid crystals. The Review also encompasses microelectromechanical metadevices, metadevices engaging the nonlinear and quantum response of superconductors, electrostatic and optomechanical forces and nonlinear metadevices incorporating lumped nonlinear components.
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            Coding metamaterials, digital metamaterials and programmable metamaterials

            Jie ZHAO, Tie Cui, Mei Qi (2014)
            Article 0 comments Cited 442 times – based on 0 reviews     Review now
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              Dispersionless phase discontinuities for controlling light propagation.

              Lingling Huang, Xianzhong Chen, Holger Mühlenbernd (2012)
              Ultrathin metasurfaces consisting of a monolayer of subwavelength plasmonic resonators are capable of generating local abrupt phase changes and can be used for controlling the wavefront of electromagnetic waves. The phase change occurs for transmitted or reflected wave components whose polarization is orthogonal to that of a linearly polarized (LP) incident wave. As the phase shift relies on the resonant features of the plasmonic structures, it is in general wavelength-dependent. Here, we investigate the interaction of circularly polarized (CP) light at an interface composed of a dipole antenna array to create spatially varying abrupt phase discontinuities. The phase discontinuity is dispersionless, that is, it solely depends on the orientation of dipole antennas, but not their spectral response and the wavelength of incident light. By arranging the antennas in an array with a constant phase gradient along the interface, the phenomenon of broadband anomalous refraction is observed ranging from visible to near-infrared wavelengths. We further design and experimentally demonstrate an ultrathin phase gradient interface to generate a broadband optical vortex beam based on the above principle.
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                Author and article information

                Contributors
                Vincenzo Galdi:
                ORCID: http://orcid.org/0000-0002-4796-3600
                vgaldi@unisannio.it
                Tie Jun Cui: tjcui@seu.edu.cn
                Journal
                Journal ID (nlm-ta): Nat Commun
                Journal ID (iso-abbrev): Nat Commun
                Title: Nature Communications
                Publisher: Nature Publishing Group UK (London )
                ISSN (Electronic): 2041-1723
                Publication date (Electronic): 18 October 2018
                Publication date PMC-release: 18 October 2018
                Publication date Collection: 2018
                Volume: 9
                Electronic Location Identifier: 4334
                Affiliations
                [1 ]ISNI 0000 0004 1761 0489, GRID grid.263826.b, State Key Laboratory of Millimeter Waves, , Southeast University, ; Nanjing, 210096 China
                [2 ]ISNI 0000 0004 1761 0489, GRID grid.263826.b, Synergetic Innovation Center of Wireless Communication Technology, , Southeast University, ; Nanjing, 210096 China
                [3 ]ISNI 0000 0001 0724 3038, GRID grid.47422.37, Fields & Waves Lab, Department of Engineering, , University of Sannio, ; I-82100 Benevento, Italy
                Author information
                http://orcid.org/0000-0002-8791-6374
                http://orcid.org/0000-0003-1589-1232
                http://orcid.org/0000-0002-4796-3600
                Article
                Publisher ID: 6802
                DOI: 10.1038/s41467-018-06802-0
                PMC ID: 6194064
                PubMed ID: 30337522
                SO-VID: 877f8240-2ce3-4df6-bb64-0ccc628ceded
                Copyright © © The Author(s) 2018
                License:

                Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.

                History
                Date received : 25 May 2018
                Date accepted : 27 September 2018
                Funding
                Funded by: This work was supported in part by the National Key Research and Development Program of China (Grant Nos. 2017YFA0700201, 2017YFA0700202, and 2017YFA0700203), in part by National Natural Science Foundation of China (Grant Nos. 61631007, 61571117, 61501112, 61501117, 61522106, 61731010, 61735010, 61722106, 61701107, and 61701108), in part by the 111 Project (Grant No.111-2-05), and in part by the Postgraduate Research & Practice Innovation Program of Jiangsu Province (KYCX18_0097).
                Categories
                Subject: Article
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                issue-copyright-statement © The Author(s) 2018

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