Surface Plasmon-enhanced Light Absorption in Au Nanohole Array with Optical Cavity

机译：具有光腔的金纳米孔阵列中的表面等离子体增强光吸收

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The light absorption in Au nanohole array with optical cavity is optimized by using finite-difference time-domain (FDTD) simulation. First, the transmission and reflection spectrums from an Au nanohole array, as well as the near field profiles at its surface, indicate that the strongest surface plasmon resonance occurs at approximately 672nm. Then, the comparison between the devices with and without nanohole array shows that half of the incident light energy can be absorbed owing to the surface plasmon-enhanced field confinement. Finally, an optical cavity, which has a thickness of 52nm, only one tenth of the wavelength, is designed to further improve the light absorption of the device. Therefore, the optimized device has greater field enhancement property, which creates 98.82% light absorption in 672nm.

机译：利用时域有限差分法（FDTD）模拟，优化了具有光腔的金纳米孔阵列的光吸收。首先，Au纳米孔阵列的透射和反射光谱以及其表面的近场轮廓表明，最强的表面等离子体共振发生在大约672nm处。然后，具有和不具有纳米孔阵列的器件之间的比较表明，由于表面等离激元增强的场约束，可以吸收一半的入射光能。最终，设计了厚度仅为52nm，仅为波长的十分之一的光学腔，以进一步提高设备的光吸收率。因此，优化后的器件具有更大的场增强性能，可在672nm处产生98.82％的光吸收。

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《International Conference on Electron Devices and Solid-State Circuits》|2019年|1-2|共2页
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Yuchen Zhao; Boyang Zhao; Yanning Yuan; Yurong Pu; Jiangfan Liu; Zhao Cui; Xiaoli Xi;
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finite difference time-domain analysis; gold; light absorption; metallic thin films; nanophotonics; surface plasmon resonance;

机译：时域有限差分法;金;光吸收;金属薄膜;纳米光子学;表面等离子体共振;

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2. Surface plasmon-enhanced optical absorption in monolayer MoS2 with one-dimensional Au grating [J] . Song Jinlin, Lu Lu, Cheng Qiang, Journal of Quantitative Spectroscopy & Radiative Transfer . 2018,第期

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3. High-Yield, Ultrafast, Surface Plasmon-Enhanced, Au Nanorod Optical Field Electron Emitter Arrays [J] . Hobbs Richard G., Yang Yujia, Fallahi Arya, ACS nano . 2014,第11期

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4. Surface Plasmon-enhanced Light Absorption in Au Nanohole Array with Optical Cavity [C] . Yuchen Zhao, Boyang Zhao, Yanning Yuan, International Conference on Electron Devices and Solid-State Circuits . 2019

机译：具有光学腔的Au纳米孔阵列中的表面等离子体增强光吸收
5. Global optical interconnection system for dense arrays of vertical cavity surface emitting lasers and photodetectors: Experimental validation and design optimization. [D] . Milojkovic, Predrag. 2001

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6. Surface plasmon-enhanced fluorescence on Au nanohole array for prostate-specific antigen detection [O] . Qingwen Zhang, Lin Wu, Ten It Wong, 2017

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7. Surface plasmon-enhanced fluorescence on Au nanohole array for prostate-specific antigen detection [O] . Qingwen Zhang, Lin Wu, Ten It Wong, 2017

机译：用于前列腺特异性抗原检测的Au纳米孔阵列上的表面等离子体增强荧光

Surface Plasmon-enhanced Light Absorption in Au Nanohole Array with Optical Cavity

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