Active broadband terahertz wave impedance matching based on optically doped graphene-silicon heterojunction

Du Wanyi; Zhou Yixuan; Yao Zehan; Huang Yuanyuan; He Chuan; Zhang Longhui; He Yuhang; Zhu Lipeng; Xu Xinlong

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Active broadband terahertz wave impedance matching based on optically doped graphene-silicon heterojunction

机译：基于光学掺杂石墨烯 - 硅杂角的主动宽带太赫兹波阻抗匹配

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摘要

Broadband terahertz (THz) impedance matching is important for both spectral resolution improvement and THz anti-radar technology. Herein, graphene-silicon hybrid structure has been proposed for active broadband THz wave impedance matching with optical tunability. The main transmission pulse measured in the time domain indicates a modulation depth as high as 92.7% totally from the graphene-silicon interface. The interface reflection from the graphene-silicon junction implies that an impedance matching condition can be actively achieved by optical doping. To reveal the mechanism, we propose a graphene-silicon heterojunction model, which gives a full consideration of both the THz conductivity of graphene and the loss in doped junction layer. The theory fits well with the experimental results. This work proves active THz wave manipulation by junction effect and paves the way for active anti-reflection coating for THz components.

机译：宽带太赫兹（THz）阻抗匹配对于光谱分辨率改进和THz反雷达技术非常重要。这里，已经提出了石墨烯 - 硅混合结构，用于与光学可调性匹配的有源宽带THz波阻抗匹配。在时域中测量的主要传输脉冲表示从石墨烯 - 硅界面完全高达92.7％的调制深度。来自石墨烯-硅结的界面反射意味着可以通过光学掺杂来主动实现阻抗匹配条件。为了揭示该机制，我们提出了一个石墨烯 - 硅杂角结型模型，其全面考虑了石墨烯的THz电导率和掺杂结层的损失。该理论与实验结果相处得很好。这项工作证明了连接效应的主动THz波浪操纵，并为THZ组件进行活性抗反射涂层铺平道路。

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《Nanotechnology》 |2019年第19期|共8页
作者
Du Wanyi; Zhou Yixuan; Yao Zehan; Huang Yuanyuan; He Chuan; Zhang Longhui; He Yuhang; Zhu Lipeng; Xu Xinlong;
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作者单位

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

Northwest Univ Int Collaborat Ctr Photoelect Technol &

Nano Func State Key Lab Incubat Base Photoelect Technol &

F Inst Photon &

Photontechnol Sch Phys Shaanxi Join Xian 710069 Shaanxi Peoples R China;

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正文语种 eng
中图分类特种结构材料;
关键词
graphene; terahertz wave modulator; impedance matching; optical tunability; heterojunction;

机译：石墨烯;太赫兹波调制器;阻抗匹配;光学可调性;异质结;

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1. Active broadband terahertz wave impedance matching based on optically doped graphene-silicon heterojunction [J] . Du Wanyi, Zhou Yixuan, Yao Zehan, Nanotechnology . 2019,第19期

机译：基于光学掺杂石墨烯 - 硅杂角的主动宽带太赫兹波阻抗匹配
2. Improvement of interfacial polarization and impedance matching for two- dimensional leaf-like bimetallic (Co, Zn) doped porous carbon nanocomposites with broadband microwave absorption [J] . Applied Surface Science . 2020,第May15期

机译：宽带微波吸收改善二维叶状双金属（Co，Zn）掺杂多孔碳纳米复合材料的界面极化和阻抗匹配
3. Broadband operation of active terahertz quarter-wave plate achieved with vanadium-dioxide-based metasurface switchable by current injection [J] . Toshihiro Nakanishi, Yosuke Nakata, Yoshiro Urade, Applied Physics Letters . 2020,第9期

机译：基于钒二氧化钒的Metasurface通过电流注射实现的基于二氧化钒的Metasurface宽带操作
4. Active optically-controlled broadband terahertz modulator based on Fe304 nanoparticles [C] . Bo Zhang, Luyao Xiong, Jingling Shen International Conference on Infrared, Millimeter, and Terahertz Waves . 2018

机译：基于Fe 3 0 4 纳米粒子的有源光控宽带太赫兹调制器
5. Optical Nanoantenna Impedance Matching and Duality and Hybrid Surface Phononic Waveguide [D] . Xu, Yuancheng 2017

机译：光学纳米天线阻抗匹配和对偶以及混合表面声子波导
6. Ultra-Broadband Nonlinearity Enhancement based on a Novel Graphene-Silicon Hybrid Waveguide: Structure Design and Theoretical Analysis [O] . Qiang Jin, Xibin Li, Junfan Chen, -1

机译：基于新型石墨烯-硅混合波导的超宽带非线性增强：结构设计和理论分析
7. Solution-processable reduced graphene oxide films as broadband terahertz wave impedance matching layers [O] . Zhou Y, Yiwen E, Ren Z, 2015

机译：可溶液加工的氧化石墨烯薄膜作为宽带太赫兹波阻抗匹配层

Active broadband terahertz wave impedance matching based on optically doped graphene-silicon heterojunction

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