Multitasking Shared Aperture Enabled with Multiband Digital Coding Metasurface

Guo Dong Bai; Qian Ma; Shahid Iqbal; Lei Bao; Hong Bo Jing; Lei Zhang; Hao Tian Wu; Rui Yuan Wu; Hao Chi Zhang; Cheng Yang; Tie Jun Cui

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Multitasking Shared Aperture Enabled with Multiband Digital Coding Metasurface

机译：通过多波段数字编码元表面实现多任务共享光圈

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摘要

Digital coding metasurface is aimed at building up a bridge between physics and information science. Higher information capacity of the digital coding metasurface means more powerful ability to control electromagnetic waves. Here, a multiband digital coding metasurface to improve the information capacity is proposed. The digital coding structures can provide 2- bit digital states at three separate frequency bands (C, X, and Ku). It is shown that the proposed metasurface can eliminate the in-band interference and path degradation by introducing an operator of frequency-hopping spread spectra, from which flexible beam controls can be designed independently in every operating band. To demonstrate the capability and the compatibility, a multifunctional digital coding metasurface which can perform optical illusion, scattering reduction, and generation of orbital angular momentum in a shared aperture is presented. Numerical simulations and measured results have very good agreements, verifying excellent performance of the multiband digital coding metasurface. The proposed method opens opportunities to improve the information capacity of the digital coding metasurface and paves novel ways to multitasking systems on photonic applications.

机译：数字编码超表面的目的是在物理学和信息科学之间架起一座桥梁。数字编码超表面的更高信息容量意味着更强大的控制电磁波的能力。在此，提出了一种提高信息容量的多频带数字编码超表面。数字编码结构可以在三个单独的频带（C，X和Ku）上提供2位数字状态。结果表明，所提出的超颖表面可以通过引入跳频扩频算子来消除带内干扰和路径退化，由此可以在每个工作频带中独立设计灵活的波束控制。为了证明其功能和兼容性，提出了一种多功能数字编码超表面，该超数字表面可以执行光学幻觉，减少散射并在共享孔径中生成轨道角动量。数值模拟和测量结果具有很好的一致性，证明了多频带数字编码超表面的出色性能。所提出的方法为改善数字编码超表面的信息容量提供了机会，并为光子应用中的多任务系统铺平了新的途径。

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来源
《Advanced Optical Materials》 |2018年第21期|1800657.1-1800657.10|共10页
作者
Guo Dong Bai; Qian Ma; Shahid Iqbal; Lei Bao; Hong Bo Jing; Lei Zhang; Hao Tian Wu; Rui Yuan Wu; Hao Chi Zhang; Cheng Yang; Tie Jun Cui;
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作者单位

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

State Key Laboratory of Millimeter Wave Southeast University Nanjing 210096, China ,Synergetic Innovation Center of Wireless Communication Technology Southeast University Nanjing 210096, China;

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正文语种 eng
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关键词
illusion optics; multiband digital coding metasurface; multitasking metasurface; orbital angular momentum; scattering reduction;

机译：错觉光学多频带数字编码超表面;多任务表面轨道角动量减少散射;

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专利

1. Digital Metasurfaces: Light‐Controllable Digital Coding Metasurfaces (Adv. Sci. 11/2018) [J] . Xin Ge Zhang, Wen Xuan Tang, Wei Xiang Jiang, Advanced Science . 2018,第11期

机译：数字超颖表面：光控数字编码超颖表面（Adv.Sci.11 / 2018）
2. A Multiband, Mutipolarization Shared-Aperture Antenna: Design and evaluation. [J] . Patnam H. Rao, Sathiyamoorthy Sujitha, Krishnasamy T. Selvan Antennas and Propagation Magazine, IEEE . 2017,第4期

机译：多频带，多极化共享孔径天线：设计和评估。
3. Shared aperture metasurface antenna for electromagnetic vortices generation with different topological charges [J] . He Wang, Yong-Feng Li, Shao-Bo Qu 中国物理：英文版 . 2021,第008期

机译：用于电磁涡流的共用孔径元表面天线，具有不同的拓扑电荷
4. Shared-aperture Multifunctional Coding Metasurface [C] . Jia Yuan Yin, Li-Xin Guo IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications . 2020

机译：共享孔径多功能编码超表面
5. Digital filtering and reconstruction of coded aperture images [D] . Tobin, Kenneth William, Jr. 1987

机译：数字滤波和编码孔径图像的重建
6. Digital Metasurfaces: Light‐Controllable Digital Coding Metasurfaces (Adv. Sci. 11/2018) [O] . Xin Ge Zhang, Wen Xuan Tang, Wei Xiang Jiang, 2018

机译：数字超颖表面：光控数字编码超颖表面（Adv.Sci.11 / 2018）
7. Multiband shared aperture adaptive array using the rear defogger [O] . Kuwahara Yoshihiko, Abdullah Noorsaliza 2012

机译：使用后除雾器的多频段共享孔径自适应阵列

Multitasking Shared Aperture Enabled with Multiband Digital Coding Metasurface

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