Fabrication and Operation Analysis of a Surface-Plasmon Sensor Using a Nonpropagating Mode

IF 3.3 4区 物理与天体物理 Q2 CHEMISTRY, PHYSICAL Plasmonics Pub Date : 2023-11-29 DOI:10.1007/s11468-023-02111-5
Atsushi Motogaito, Akitaka Harada, Kazumasa Hiramatsu
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Abstract

Our research focuses on the development of a surface-plasmon sensor that uses a stationary surface plasmon, referred to as a “nonpropagating mode.” This mode is observed when light is incident perpendicularly on a surface-plasmon sensor based on a metal diffraction grating. We performed a comprehensive analysis of the behavior of the surface-plasmon resonances within this nonpropagating mode, employing the rigorous coupled-wave analysis method. Using electron-beam lithography, sputtering, and a lift-off process, we fabricated such a surface-plasmon sensor and evaluated its optical properties rigorously. By combining simulations and experiments, we successfully utilized the nonpropagating mode to detect a liquid medium with a refractive index of 1.70. Simulations show that the nonpropagating mode arises due to a Fano resonance; i.e., to a resonant interaction between a localized surface plasmon generated at the edge of a metal grating strip during normal incidence and a propagating surface plasmon that occurs at the boundary between the metal diffraction grating and the measurement medium. The present results provide useful information for the advancement of surface-plasmon sensing technologies.

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非传播模式表面等离子体传感器的制作与工作分析
我们的研究重点是开发一种表面等离子体传感器,该传感器使用固定的表面等离子体,称为“非传播模式”。当光垂直入射到基于金属衍射光栅的表面等离子体传感器上时,可以观察到这种模式。我们采用严格的耦合波分析方法,对非传播模式下表面等离子体共振的行为进行了全面的分析。我们利用电子束光刻、溅射和升空工艺制作了这样一个表面等离子体传感器,并严格评估了它的光学特性。通过模拟和实验相结合,我们成功地利用非传播模式检测了折射率为1.70的液体介质。仿真结果表明,非传播模式是由范诺共振引起的;即,在正常入射时在金属光栅带边缘产生的局部表面等离子体激元与在金属衍射光栅与测量介质之间的边界产生的传播表面等离子体激元之间的共振相互作用。本研究结果为表面等离子体传感技术的发展提供了有益的信息。
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来源期刊
Plasmonics
Plasmonics 工程技术-材料科学:综合
CiteScore
5.90
自引率
6.70%
发文量
164
审稿时长
2.1 months
期刊介绍: Plasmonics is an international forum for the publication of peer-reviewed leading-edge original articles that both advance and report our knowledge base and practice of the interactions of free-metal electrons, Plasmons. Topics covered include notable advances in the theory, Physics, and applications of surface plasmons in metals, to the rapidly emerging areas of nanotechnology, biophotonics, sensing, biochemistry and medicine. Topics, including the theory, synthesis and optical properties of noble metal nanostructures, patterned surfaces or materials, continuous or grated surfaces, devices, or wires for their multifarious applications are particularly welcome. Typical applications might include but are not limited to, surface enhanced spectroscopic properties, such as Raman scattering or fluorescence, as well developments in techniques such as surface plasmon resonance and near-field scanning optical microscopy.
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