基于石墨烯超表面天线的太赫兹动态相位调控及波束扫描
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深圳市基础研究学科布局项目(JCYJ20180507182444250);深圳市基础研究面上项目(JCYJ20220531100206014)

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Terahertz Graphene Metasurfaces Antennas for Dynamic Phase Modulation and Beam Steering
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This work is supported by Shenzhen Research Foundation for Basic Research (JCYJ20180507182444250, JCYJ20220531100206014)

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    摘要:

    太赫兹波频段介于毫米波和红外光之间,具有诸多优异特性,太赫兹天线更是太赫兹通信、雷达和成像等应用系统中的核心元器件。然而,目前报道的太赫兹天线均无法满足较大动态范围的相位扫描、高效率辐射和大偏转角度的需求。该文设计了 3 种石墨烯太赫兹天线,最小尺寸为 5 μm,并对其辐射效率和相位调控特性进行研究,进而提出具有双共振模式的石墨烯-金属太赫兹超表面天线,缓解了传统的基于单共振模式的相位动态调控范围和辐射效率之间的矛盾,实现了 0~360°的动态相位调控,且辐射效率高于 20%。该研究采用微加工工艺进行样品加工,通过改变栅极电压,在实验上获得了 1.03 THz 的太赫兹动态相位调控,反射率高于 23%,与仿真结果基本吻合。在此基础上,该文基于连续相位编码设计了石墨烯超表面相控阵天线,理论上实现了太赫兹波束在-25°~25°范围内的实时波束偏转。该文为解决超表面相控阵天线的相位动态调控范围小、辐射效率低等难题提供了新的研究思路。

    Abstract:

    Terahertz wave is the electromagnetic field with frequencies between that of infrared and millimeter waves. It has attracted increasing attention in both fundamental research and technological applications for its unique characteristics. In terahertz telecommunication, radar and imaging systems, terahertz antenna is key for the performance. To date, reported terahertz antennas suffer from limited phase modulation, relatively low efficiency and small beaming angle. Here these challenges are addressed by first designing three types of terahertz graphene antennas with the smallest size of 5 μm. Then a novel type of antenna with dual resonances is proposed, and achieve dynamic phase modulation within the full 2π range and meanwhile high efficiency above 20%. This performance surpasses antennas with single resonance since dual resonances alleviate the contradiction between large phase modulation range and high efficiency. Terahertz graphene antennas are fabricated with standard micro-fabrication processes, and experimentally obtained terahertz dynamic phase modulation of 1.03 THz with reflection efficiency above 23%, which agree basically with simulation results. Making use of the phase modulation metasurfaces tuned according to continuous phase coding, terahertz beam steering is numerically realized with dynamic range of -25°~25°. This work will provide a strategy for achieving large-range phase modulation and beam steering beyond the terahertz regime.

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引文格式
罗小青,黄文礼,王彬旭,等.基于石墨烯超表面天线的太赫兹动态相位调控及波束扫描 [J].集成技术,2023,12(4):77-90

Citing format
LUO Xiaoqing, HUANG Wenli, WANG Binxu, et al. Terahertz Graphene Metasurfaces Antennas for Dynamic Phase Modulation and Beam Steering[J]. Journal of Integration Technology,2023,12(4):77-90

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  • 在线发布日期: 2023-07-27
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