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基于二氧化钒超材料的宽带可调太赫兹吸收器。

Broadband tunable terahertz absorber based on vanadium dioxide metamaterials.

作者信息

Song Zhengyong, Wang Kai, Li Jiawen, Liu Qing Huo

出版信息

Opt Express. 2018 Mar 19;26(6):7148-7154. doi: 10.1364/OE.26.007148.

Abstract

An active absorption device is proposed based on vanadium dioxide metamaterials. By controlling the conductivity of vanadium dioxide, resonant absorbers are designed to work at wide range of terahertz frequencies. Numerical results show that a broadband terahertz absorber with nearly 100% absorptance can be achieved, and its normalized bandwidth of 90% absorptance is 60% under normal incidence for both transverse-electric and transverse-magnetic polarizations when the conductivity of vanadium dioxide is equal to 2000 Ωcm. Absorptance at peak frequencies can be continuously tuned from 30% to 100% by changing the conductivity from 10 Ωcm to 2000 Ωcm. Absorptance spectra analysis shows a clear independence of polarization and incident angle. The presented results may have tunable spectral applications in sensor, detector, and thermophotovoltaic device working at terahertz frequency bands.

摘要

提出了一种基于二氧化钒超材料的有源吸收器件。通过控制二氧化钒的电导率,设计出在太赫兹频率范围内工作的谐振吸收器。数值结果表明,当二氧化钒的电导率等于2000Ωcm时,可实现吸收率近100%的宽带太赫兹吸收器,其90%吸收率的归一化带宽在垂直入射时对于横向电场和横向磁场极化均为60%。通过将电导率从10Ωcm改变到2000Ωcm,峰值频率处的吸收率可从30%连续调谐到100%。吸收率光谱分析表明,吸收率与极化和入射角明显无关。所呈现的结果可能在太赫兹频段工作的传感器、探测器和热光伏器件中具有可调谐光谱应用。

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