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基于混合光栅法布里-珀罗结构的双波段可调谐窄带近红外光陷控制

Dual-band tunable narrowband near-infrared light trapping control based on a hybrid grating-based Fabry-Perot structure.

作者信息

Zhou Kun, Cheng Qiang, Lu Lu, Li Bowen, Song Jinlin, Luo Zixue

出版信息

Opt Express. 2020 Jan 20;28(2):1647-1656. doi: 10.1364/OE.383988.

Abstract

A hybrid grating-based Fabry-Perot structure is proposed to investigate light manipulation in the near-infrared wavelength region. It is found that the electromagnetic energy can be easily trapped in different parts of the system at different polarization states. For TM polarization, numerical results show that two remarkable narrowband absorptance peaks appear owing to the excitation of critical coupling with guided mode resonance and Fabry-Perot resonance. While for TE polarization, only one narrowband absorptance peak is generated because only Fabry-Perot resonance is excited. The near-infrared spectral selectivity of the system can be tuned by changing the geometrical parameters. In addition, the spectral absorptance of the system can be optimized by applying gate voltage on graphene sheet to change graphene chemical potential. This valuable dual-band tunable narrowband absorber is a potential application for high-performance optoelectronic devices.

摘要

提出了一种基于混合光栅的法布里-珀罗结构,用于研究近红外波长区域的光操控。研究发现,电磁能量在不同偏振态下可轻松被困在系统的不同部分。对于TM偏振,数值结果表明,由于与导模共振和法布里-珀罗共振的临界耦合激发,出现了两个显著的窄带吸收峰。而对于TE偏振,仅激发了法布里-珀罗共振,因此只产生了一个窄带吸收峰。该系统的近红外光谱选择性可通过改变几何参数进行调节。此外,通过在石墨烯片上施加栅极电压来改变石墨烯的化学势,可以优化系统的光谱吸收率。这种有价值的双波段可调谐窄带吸收器在高性能光电器件方面具有潜在应用。

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