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用于主动控制中红外辐射的石墨烯 - 金等离激元的杂交

Hybridization of graphene-gold plasmons for active control of mid-infrared radiation.

作者信息

Feinstein Matthew D, Almeida Euclides

机构信息

Department of Physics, Queens College, City University of New York, Flushing, NY, 11367, USA.

The Graduate Center of the City University of New York, New York, NY, 10016, USA.

出版信息

Sci Rep. 2024 Mar 20;14(1):6733. doi: 10.1038/s41598-024-57216-6.

Abstract

Many applications in environmental and biological sensing, standoff detection, and astronomy rely on devices that operate in the mid-infrared range, where active devices can play a critical role in advancing discovery and innovation. Nanostructured graphene has been proposed for active miniaturized mid-infrared devices via excitation of tunable surface plasmons, but typically present low efficiencies due to weak coupling with free-space radiation and plasmon damping. Here we present a strategy to enhance the light-graphene coupling efficiency, in which graphene plasmons couple with gold localized plasmons, creating novel hybridized plasmonic modes. We demonstrate a metasurface in which hybrid plasmons are excited with transmission modulation rates of 17% under moderate doping (0.35 eV) and in ambient conditions. We also evaluate the metasurface as a mid-infrared modulator, measuring switching speeds of up to 16 kHz. Finally, we propose a scheme in which we can excite strongly coupled gold-graphene gap plasmons in the thermal radiation range, with applications to nonlinear optics, slow light, and sensing.

摘要

环境与生物传感、远距离探测及天文学领域的诸多应用都依赖于工作在中红外波段的设备,在这一领域,有源器件对于推动发现与创新起着关键作用。通过可调谐表面等离激元的激发,纳米结构石墨烯已被用于有源小型中红外器件,但由于与自由空间辐射的弱耦合以及等离激元阻尼,其效率通常较低。在此,我们提出一种提高光与石墨烯耦合效率的策略,即石墨烯等离激元与金局域等离激元耦合,从而产生新型的杂化等离激元模式。我们展示了一种超表面,在适度掺杂(0.35电子伏特)及环境条件下,该超表面能以17%的透射调制率激发杂化等离激元。我们还将该超表面评估为一种中红外调制器,测得其开关速度高达16千赫兹。最后,我们提出一种方案,可在热辐射范围内激发强耦合的金 - 石墨烯间隙等离激元,该方案可应用于非线性光学、慢光及传感领域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/85d4/10954650/9350e46d01db/41598_2024_57216_Fig1_HTML.jpg

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