A transmission metasurface for generating OAM beams

Fan Qin; Lulan Wan; Lihong Li; Hailin Zhang; Gao Wei; Steven Gao

doi:10.1109/LAWP.2018.2867045

A transmission metasurface for generating OAM beams

Fan Qin, Lulan Wan, Lihong Li, Hailin Zhang, Gao Wei, Steven Gao

电子信息学院

科研成果: 期刊稿件 › 文章 › 同行评审

133 引用（Scopus）

摘要

This letter presents a novel transmission metasurface to achieve orbital angular momentum (OAM) waves at the X-band. The unit cell of the proposed metasurface consists of three dielectric layers and four metallic layers, where the metallic layer is composed of an outer metallic ring and a center quasi-snow patch. A good transmission coefficient of the unit cell is obtained at the operating frequency. Meanwhile, a full 360° phase shift can be achieved by changing the length of the quasi-snow patch. The method of generating OAM waves is studied and analyzed. Based on this method, a metasurface producing a +1-mode OAM wave is designed and simulated. To verify this concept, one prototype is fabricated, assembled, and measured. The measured results agree well with the simulated ones, showing that the +1-mode OAM wave can be generated successfully with a high gain of 14.5 dBi. Moreover, a narrow divergence angle of +/-9° is achieved in the produced OAM wave.

源语言	英语
文章编号	8445662
页（从-至）	1793-1796
页数	4
期刊	IEEE Antennas and Wireless Propagation Letters
卷	17
期	10
DOI	https://doi.org/10.1109/LAWP.2018.2867045
出版状态	已出版 - 10月 2018

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title = "A transmission metasurface for generating OAM beams",

abstract = "This letter presents a novel transmission metasurface to achieve orbital angular momentum (OAM) waves at the X-band. The unit cell of the proposed metasurface consists of three dielectric layers and four metallic layers, where the metallic layer is composed of an outer metallic ring and a center quasi-snow patch. A good transmission coefficient of the unit cell is obtained at the operating frequency. Meanwhile, a full 360° phase shift can be achieved by changing the length of the quasi-snow patch. The method of generating OAM waves is studied and analyzed. Based on this method, a metasurface producing a +1-mode OAM wave is designed and simulated. To verify this concept, one prototype is fabricated, assembled, and measured. The measured results agree well with the simulated ones, showing that the +1-mode OAM wave can be generated successfully with a high gain of 14.5 dBi. Moreover, a narrow divergence angle of +/-9° is achieved in the produced OAM wave.",

keywords = "High gain, orbital angular momentum (OAM), transmission metasurface",

author = "Fan Qin and Lulan Wan and Lihong Li and Hailin Zhang and Gao Wei and Steven Gao",

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AU - Qin, Fan

AU - Wan, Lulan

AU - Li, Lihong

AU - Zhang, Hailin

AU - Wei, Gao

AU - Gao, Steven

PY - 2018/10

Y1 - 2018/10

N2 - This letter presents a novel transmission metasurface to achieve orbital angular momentum (OAM) waves at the X-band. The unit cell of the proposed metasurface consists of three dielectric layers and four metallic layers, where the metallic layer is composed of an outer metallic ring and a center quasi-snow patch. A good transmission coefficient of the unit cell is obtained at the operating frequency. Meanwhile, a full 360° phase shift can be achieved by changing the length of the quasi-snow patch. The method of generating OAM waves is studied and analyzed. Based on this method, a metasurface producing a +1-mode OAM wave is designed and simulated. To verify this concept, one prototype is fabricated, assembled, and measured. The measured results agree well with the simulated ones, showing that the +1-mode OAM wave can be generated successfully with a high gain of 14.5 dBi. Moreover, a narrow divergence angle of +/-9° is achieved in the produced OAM wave.

AB - This letter presents a novel transmission metasurface to achieve orbital angular momentum (OAM) waves at the X-band. The unit cell of the proposed metasurface consists of three dielectric layers and four metallic layers, where the metallic layer is composed of an outer metallic ring and a center quasi-snow patch. A good transmission coefficient of the unit cell is obtained at the operating frequency. Meanwhile, a full 360° phase shift can be achieved by changing the length of the quasi-snow patch. The method of generating OAM waves is studied and analyzed. Based on this method, a metasurface producing a +1-mode OAM wave is designed and simulated. To verify this concept, one prototype is fabricated, assembled, and measured. The measured results agree well with the simulated ones, showing that the +1-mode OAM wave can be generated successfully with a high gain of 14.5 dBi. Moreover, a narrow divergence angle of +/-9° is achieved in the produced OAM wave.

KW - High gain

KW - orbital angular momentum (OAM)

KW - transmission metasurface

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A transmission metasurface for generating OAM beams

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